DILLON CONSULTING CITY OF WINNIPEG Portage and Main Transportation Study ENGINEERS Ca rti?cnto of Authorization-I Consulting leitod (MB) No. 1789 Date: Septarnbar 8, 2017 A I To BA September 2017 16-3623 September 8, 2017 City of Winnipeg 1155 Paci?c Avenue Winnipeg, Manitoba R3E 3P1 Attention: Mr. Stephen Chapman, P.Eng. Traf?c Management Engineer, Public Works Department Portage and Main Transportation Study Dear Mr. Chapman: Dillon Consulting Limited is proud to submit this ?nal report detailing the microsimulation analysis of the impacts of restoring the pedestrian crossings to the intersection of Portage Avenue and Main Street. The report includes; the approach to the technical investigation; microsimulation model creation and calibration; analysis of all tested alternatives; sensitivity analysis of pedestrian volume forecasts; conceptual design alternatives; and a Class 4 cost estimate. Note the rough schedule for completion of design and construction assumed a start date of November 1, 2016. The schedule would need to be revisited when project funding is obtained. As requested, eight hard copies of the report are attached. Also attached are four DVD's containing a .pdf of the report, meeting minutes, site photos, and VISSIM model ?les. We trust that the report meets all of your needs and look forward to collaborating again in the future. Sincerely, DILLON CONSULTING LIMITED is?; a: David Wiebe, P.Eng. Project Manager, Partner DBW:jef Our file: 16-3623 DI LLDN CONSULTING 1558 Willson Place Winnipeg, Manitoba Canada R3T 0Y4 Telephone 204.453.2301 ax 204.452.4412 Dillon Consulting Limited i Table of Contents 1.0 Introduction 1 2.0 Existing Conditions 2 3.0 2.1 Description .......................................................................................................................... 2 2.2 Site Visits ............................................................................................................................. 2 2.3 Data Sources ....................................................................................................................... 2 2.4 Pedestrian Pathfinding ........................................................................................................ 3 Microsimulation Model 10 3.1 Approach........................................................................................................................... 10 3.2 Model Construction ........................................................................................................... 11 3.2.1 Study Area ......................................................................................................................... 11 3.2.2 Network Elements ............................................................................................................. 12 3.2.3 Transportation Demand Calculations ................................................................................. 13 3.3 4.0 Model Calibration and Validation ...................................................................................... 15 Measures of Effectiveness 4.1 19 Vehicles ............................................................................................................................. 19 4.1.1 Overall Model Performance............................................................................................... 19 4.1.2 Portage/Main Performance ............................................................................................... 20 4.1.3 Average Travel Time .......................................................................................................... 20 4.2 Pedestrians........................................................................................................................ 20 4.2.1 Safety ................................................................................................................................ 20 4.2.2 Average Travel Time .......................................................................................................... 21 4.3 Transit ............................................................................................................................... 21 4.3.1 Overall Model Performance............................................................................................... 21 4.3.2 Average Travel Time .......................................................................................................... 21 4.4 5.0 Evaluation Structure .......................................................................................................... 22 Alternatives Analysis 23 5.1 Approach........................................................................................................................... 23 5.2 Phase 1 Alternatives .......................................................................................................... 23 5.2.1 Analysis ............................................................................................................................. 24 City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 ii 5.3 Phase 2 Alternatives .......................................................................................................... 29 5.3.1 Analysis ............................................................................................................................. 35 6.0 Sensitivity Analysis 42 7.0 Safety and Risk Analysis 48 8.0 Conceptual Design 50 8.1 Methodology ..................................................................................................................... 50 8.2 Alternatives 1-3 ................................................................................................................. 52 8.3 Alternative 4...................................................................................................................... 52 8.3.1 Northeast Corner............................................................................................................... 54 8.3.2 Southeast Corner............................................................................................................... 54 8.3.3 Southwest Corner .............................................................................................................. 57 8.3.4 Northwest Corner.............................................................................................................. 57 8.4 Alternative 5...................................................................................................................... 58 8.4.1 Northeast Corner............................................................................................................... 60 8.4.2 Southeast Corner............................................................................................................... 60 8.4.3 Southwest Corner .............................................................................................................. 61 8.4.4 Northwest Corner.............................................................................................................. 61 8.5 Conceptual Structural Design............................................................................................. 61 8.5.1 Northeast Corner............................................................................................................... 61 8.5.2 Southeast Corner............................................................................................................... 61 8.5.3 Southwest Corner .............................................................................................................. 63 8.5.4 Northwest Corner.............................................................................................................. 63 9.0 Cost Estimation 65 10.0 Schedule 68 11.0 Conclusions 71 City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 iii Figures Figure 1 – Pedestrian Walking Paths – Concourse Level – North-South ................................................. 4 Figure 2 – Pedestrian Walking Paths – Street Level – North-South ........................................................ 5 Figure 3 – Pedestrian Walking Paths – Concourse Level – East-West..................................................... 6 Figure 4 – Pedestrian Walking Paths – Street Level – East-West............................................................ 7 Figure 5 – Illustration of all potential pedestrian paths at Portage and Main quantified in Table 1 ........ 9 Figure 6 – Model Coverage................................................................................................................. 12 Figure 7 – Pedestrian Space Layout at Portage Avenue and Main Street ............................................. 13 Figure 8 – Vehicle Loading Zones ........................................................................................................ 14 Figure 9 – Pedestrian Loading Zones................................................................................................... 15 Figure 10 – Phase 1 Alternative Schematics ........................................................................................ 23 Figure 11 – Northbound Right Turn Alternative Routes ...................................................................... 30 Figure 12 – Potential Additional Sidewalk Area – Elimination of Northbound Right Turn .................... 30 Figure 13 – Potential Additional Sidewalk Area – Elimination of Eastern Curb Lane ............................ 32 Figure 14 – Potential Additional Pedestrian Area – Elimination of Eastern Median Lane ..................... 33 Figure 15 – Phase 2 Alternative Schematics ........................................................................................ 34 Figure 16 – Portage and Main – Final Signal Timing ............................................................................ 41 Figure 17 – Pedestrian Sensitivity Analysis Results – Change in Travel Time – AM Peak Hour .............. 45 Figure 18 – Pedestrian Sensitivity Analysis Results – Change in Travel Time – PM Peak Hour .............. 46 Figure 19 – Existing Condition Base Plan............................................................................................. 51 Figure 20 – Conceptual Design – Alternative 4 .................................................................................... 53 Figure 21 – Staircase Structure Adjacent to WB Portage Avenue on NE corner ................................... 55 Figure 22 – Depressed Patio Area on SE corner .................................................................................. 56 Figure 23 – Depressed Patio Area - Existing Staircase on SE corner ..................................................... 56 Figure 24 – Portage and Main Eastbound Approach ........................................................................... 57 Figure 25 – Fixed Staircase Structure on NW corner ........................................................................... 58 Figure 26 – Conceptual Design – Alternative 5 .................................................................................... 59 Figure 27 – Southeast Corner ............................................................................................................. 62 Figure 28 – Southwest Corner ............................................................................................................ 63 Figure 29 – Typical Planter Walls on Piles ........................................................................................... 64 Figure 30 – Recent Roadworks – St. Matthews Avenue and Empress Street ....................................... 67 Figure 31 – Potential Streetscape Elements ........................................................................................ 67 Figure 32 – Design and Construction Schedule ................................................................................... 70 City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 iv Tables Table 1 – Existing Pedestrian Travel Times at Portage and Main ........................................................... 8 Table 2 – Forecasted Pedestrian Crossing Volumes at Portage Avenue and Main Street ..................... 15 Table 3 – FHWA Criteria for Model Calibration ................................................................................... 16 Table 4 – 2016 AM Peak Hour Calibration Summary ........................................................................... 17 Table 5 – 2016 PM Peak Hour Calibration Summary ........................................................................... 18 Table 6 – Level of Service Definitions for Signalised and Unsignalised Intersections ............................ 20 Table 7 – Phase 1 Alternative Evaluation Summary – 2016 AM Peak Hour .......................................... 26 Table 8 – Phase 1 Alternative Evaluation Summary – 2016 PM Peak Hour .......................................... 27 Table 9 – Portage Avenue and Main Street Turning Volume ............................................................... 29 Table 10 – Portage Avenue and Main Street Intersection – Approaching and Departing Volume ........ 31 Table 11 – Phase 1 and 2 Alternative Evaluation Summary – AM Peak Hour ....................................... 36 Table 12 – Phase 1 and 2 Alternative Evaluation Summary – PM Peak Hour ....................................... 37 Table 13 – Portage Avenue and Main Street – Pedestrian Crossing Volumes – Sensitivity Analysis...... 42 Table 14 – Pedestrian Sensitivity Analysis Results – AM Peak Hour ..................................................... 43 Table 15 – Pedestrian Sensitivity Analysis Results – PM Peak Hour ..................................................... 44 Table 16 – Class 4 Construction Estimate ............................................................................................ 65 Appendices A Volume Balancing B Model Calibra on Results C Detailed Cost Es mate City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 1 1.0 Introduction The intersec on of Portage Avenue and Main Street is the literal and symbolic heart of the City of Winnipeg. This is where the residents of the city gather together to celebrate, mark special occasions, and experience their city. The current intersec on is almost exclusively on moving cars and trucks; and with the removal of the at-grade crosswalks in the late 1970’s, pedestrians have been forced to use underground spaces to move across the intersec on. Similar situa ons can be seen across North America, where development throughout the 20 th century focused pre y much exclusively on improving the ease and speed of moving about via cars. Ci es across North America are coming to the same realisa ons as Winnipeg, recognising the importance of walking, biking, and transit to a sustainable and equitable city. The major challenge, of course, is repurposing, modifying, or removing large and expensive infrastructure that is important to the func oning of a busy, modern city that has grown up around it. Within the above context, the City of Winnipeg engaged Dillon Consul ng Limited (Dillon) to examine the transporta on opera ons at Portage and Main and analyse the effects of restoring pedestrian crossings to the surface. Key City of Winnipeg staff members were assembled to work alongside Dillon in moving through the transporta on analysis of a variety of op ons for restora on of pedestrian crossings at the intersec on. Dillon’s approach to the assignment was to create a detailed and accurate transporta on microsimula on model of the area surrounding Portage and Main and work with the City of Winnipeg in crea ng meaningful analyses of all transporta on modes when pedestrians are restored to the intersec on. The model and its outputs gave structure to the conversa on around how best to serve the needs of all of the users of the intersec on – pedestrians, autos/trucks, and buses. Results from each of the tested alterna ves were discussed with City of Winnipeg’s key staff members (consolidated into a Technical Steering Commi ee (TSC) for the project) and a preferred approach to modifying the physical layout and controls on the intersec on was determined. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 2 2.0 Existing Conditions 2.1 Description The intersec on of Portage Avenue and Main Street (Portage and Main) has been an important focal point for transporta on since Portage and Main were cart trails in the 1800’s. Many of Winnipeg’s different street grids converge at this corner and the three tallest buildings in the city ring the intersec on. The current configura on of Portage and Main dates from the late 1970’s with the construc on of the underground pedestrian concourse and the closing of the intersec on to pedestrian crossings at ground level in 1979. Much of the exis ng infrastructure is almost four decades old and in need of renewal. Portage Avenue and Main Street are both major arterial streets and regional mixed-use corridors in Winnipeg. Main Street has nine lanes north of the intersec on and eight lanes south of the intersec on. Portage Avenue has eight lanes west of the intersec on and five lanes east of the intersec on. Both streets have narrow concrete medians. Curb lanes along Main Street are diamond lanes reserved for transit and cyclists during peak periods. Right turns are permi ed at Portage and Main in all four direc ons, but the only le turn movement permi ed is from eastbound Portage turning north on to Main. The other three le turn movements are prohibited. There are currently no pedestrian crossings permi ed across any of the four legs of the intersec on. This is indicated by signage and reinforced by the presence of concrete barriers between the sidewalks and the streets. 2.2 Site Visits The project team performed three site visits to Portage and Main. The first visit was on April 13, 2016 to familiarize the team with the en re network of pedestrian and vehicular infrastructure in, around, and under the intersec on. The second set of site visits took place in early June. These visits were performed to groundtruth the parking regula ons on streets surrounding Portage and Main. The lengths of pedestrian paths through the underground concourse were also measured. A final site visit was performed on August 22, 2016 to groundtruth the infrastructure to be modified as part of the recommended alterna ve design. Selected photos from the various site visits are included on the enclosed CD and have previously been provided to the client digitally. 2.3 Data Sources The project team used the following data sources provided by the City of Winnipeg and incorporated them into the VISSIM model, recommended alterna ve, and conclusions as appropriate: City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 3 • Municipal Accommoda ons Branch procured drawings – digi zed hardcopies of what appears to be the circa 1976 construc on plans for the concourse, as well as 360 Main Street (Winnipeg Square). They do not appear to be record drawings from a er construc on, so some changes may have been made during construc on. Some CAD files were also present. These drawings were invaluable in determining the structure and founda on of the barrier walls, and the walking paths used in the pedestrian • LBIS - CAD files for loca on of right-of-way, selected City underground u li es such as watermain/sewermain horizontal geometry • Underground Structures Branch procured record drawings – mainly digi zed hard copies of projects constructed in the public right-of-way. This also included a few CAD based drawings of various levels of detail. Note that these drawings generally had no informa on on the underground concourse or barrier wall construc on. • Vehicle and pedestrian counts • Forecasts of pedestrian volumes at Portage and Main • Traffic signal ming plans • Transit routes and schedules • Parking regula ons (groundtruthing by Dillon) • VISUM model of road network • Synchro model of road network • MioVision Camera Video of Portage and Main 2.4 Pedestrian Pathfinding Pedestrian travel me was measured by selec ng at-grade start and end points in each quadrant of the intersec on. The most direct route available was determined using plans of both the public (concourse) and private infrastructure (buildings) and groundtruthed for accuracy. These paths are visible on Figure 1 to Figure 4, below. All require a start point at surface grade, travel along public sidewalks, then entering the concourse, either by stairs for able bodied persons or elevators/li s for wheelchair access. A er traveling through the concourse, the pedestrians exit in the same manner, and proceed along public sidewalk to the end point. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 LEGEND SURFACE UNDERGROUND PEDESTRIAN PATHWAY (WEST) ACCESSIBILITY PATHWAY (WEST) PEDESTRIAN PATHWAY(EAST) ACCESSIBILITY PATHWAY (EAST) ACCESSIBLE ELEVATOR PROJECT NOTE: 1. CONCOURSE INFORMATION RECEIVED FROM CITY OF WINNIPEG 2. AERIAL IMAGE OBTAINED FROM CITY OF WINNIPEG MAY 2016 SCALE: 1:500 PORTAGE AND MAIN MICROSIMULATION STUDY TITLE DATE November 2016 PROJECT NO. 163623 FIGURE NO. CONCOURSE LEVEL - NORTH-SOUTH 1 LEGEND SURFACE UNDERGROUND PEDESTRIAN PATHWAY (WEST) ACCESSIBILITY PATHWAY (WEST) PEDESTRIAN PATHWAY(EAST) ACCESSIBILITY PATHWAY (EAST) ACCESSIBLE ELEVATOR PROJECT NOTE: 1. CONCOURSE INFORMATION RECEIVED FROM CITY OF WINNIPEG 2. AERIAL IMAGE OBTAINED FROM CITY OF WINNIPEG MAY 2016 SCALE: 1:500 PORTAGE AND MAIN MICROSIMULATION STUDY TITLE DATE November 2016 PROJECT NO. 163623 FIGURE NO. STREET LEVEL (NORTH-SOUTH) 2 LEGEND SURFACE UNDERGROUND PEDESTRIAN PATHWAY (NORTH) ACCESSIBILITY PATHWAY (NORTH) PEDESTRIAN PATHWAY (SOUTH) ACCESSIBILITY PATHWAY (SOUTH) ACCESSIBLE ELEVATOR PROJECT NOTE: 1. CONCOURSE INFORMATION RECEIVED FROM CITY OF WINNIPEG 2. AERIAL IMAGE OBTAINED FROM CITY OF WINNIPEG MAY 2016 SCALE: 1:500 PORTAGE AND MAIN MICROSIMULATION STUDY TITLE DATE November 2016 PROJECT NO. 163623 FIGURE NO. CONCOURSE LEVEL - EAST-WEST 3 LEGEND SURFACE UNDERGROUND PEDESTRIAN PATHWAY (NORTH) ACCESSIBILITY PATHWAY (NORTH) PEDESTRIAN PATHWAY (SOUTH) ACCESSIBILITY PATHWAY (SOUTH) ACCESSIBLE ELEVATOR PROJECT NOTE: 1. CONCOURSE INFORMATION RECEIVED FROM CITY OF WINNIPEG 2. AERIAL IMAGE OBTAINED FROM CITY OF WINNIPEG MAY 2016 SCALE: 1:500 PORTAGE AND MAIN MICROSIMULATION STUDY TITLE DATE November 2016 PROJECT NO. 163623 FIGURE NO. STREET LEVEL - EAST-WEST 4 8 The travel mes for pedestrians with the exis ng infrastructure at Portage and Main results in significantly more circuitous routes for pedestrians using wheelchairs or other mobility aids that cannot navigate on stairs or escalators. Current guidance from the Ins tute of Transporta on Engineers (ITE) Toolbox on Intersec on Safety and Design recommends the use of 1.07 metre per second (m/s) for wheelchair users. However, a travel speed of 1.00 m/s was assumed in calcula on of travel mes, as it is the crossing speed recommended by the City of Winnipeg in design of their signals. The average me for each elevator trip was es mated to be about 45 seconds from the site visits. The addi onal me required to navigate through the intersec on by wheelchair is shown in Table 1 (and Figure 5) and ranges from 69% to 208% more me than that for able-bodied pedestrians. It should be noted that there is built-in assump on in the tables that pedestrians and wheelchair users are in mately familiar with the routes, access/egress points and li loca ons and would take the most direct and efficient route. We did not use test subjects or track actual users to gauge travel me. It should be acknowledged that users who are unfamiliar with the concourse o en take significant addi onal me to navigate from one corner to another due to the unique pedestrian infrastructure at Portage and Main. Table 1 – Existing Pedestrian Travel Times at Portage and Main Crossing (see Figure 5) Mode Length of Path Walking Speed Total Average Travel Time Elevators [m] [m/s] [#] [sec] [min] A Able-bodied 237.6 1.00 0 238 4.0 A Wheelchair 319.1 1.00 5 544 9.1 B Able-bodied 285.3 1.00 0 285 4.8 B Wheelchair 300.8 1.00 4 481 8.0 C Able-bodied 230.8 1.00 0 231 3.8 C Wheelchair 323.0 1.00 5 548 9.1 D Able-bodied 215.4 1.00 0 215 3.6 D Wheelchair 316.8 1.00 4 497 8.3 E Able-bodied 179.7 1.00 0 180 3.0 E Wheelchair 217.7 1.00 5 443 7.4 F Able-bodied 129.7 1.00 0 130 2.2 F Wheelchair 219.1 1.00 4 399 6.7 G Able-bodied 159.9 1.00 0 160 2.7 G Wheelchair 230.7 1.00 4 411 6.8 H Able-bodied 181.1 1.00 0 181 3.0 H Wheelchair 187.8 1.00 5 413 6.9 City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 Additional Time for Wheelchair Users over Able-Bodied Pedestrians [%] 129% 69% 137% 131% 146% 208% 157% 128% 9 Figure 5 – Illustration of all potential pedestrian paths at Portage and Main quantified in Table 1 City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 10 3.0 Microsimulation Model 3.1 Approach Analysis of the future opera ons of the intersec on of Portage and Main and the surrounding roadways was performed via the applica on of a transporta on microsimula on model created in the VISSIM so ware package. Microsimula on provides the greatest flexibility in represen ng the unique opera onal condi ons of real-world transporta on facili es. Microsimula on takes an approach that is very different from tradi onal analyses, providing an enhanced ability to forecast and simulate the interac on of all transporta on modes using the transporta on system – not just cars. The differen ators for microsimula on that make it the most appropriate tool for this analysis are as follows: • Unique behaviour for every travel mode – Microsimula on establishes detailed and unique “agent” behaviour as they move through the transporta on network. An agent is any user of the system – pedestrian, cyclist, bus, car, or truck. Each class of agent (or mode) has unique behaviour or a set of rules that allow it to react (or they can be taught to react) to any infrastructure situa on in a realis c manner. This is different to tradi onal analysis that applies sta c formulas based on empirical observa on, which limits its applicability or validity in complex situa ons. Microsimula on allows the analyst the flexibility to best represent the real-world opera ons for any situa on. • Individual User Behaviour – In addi on to the different types of modes behaving independently, every agent within a microsimula on model is an individual with a specified origin, des na on, and set of behaviour parameters that control their awareness, aggressiveness, and path selec on through the model. This allows the model to simulate behaviour that varies from one agent to the next and how this behaviour influences the efficiency of transporta on infrastructure. • Connected environment – Each agent in the system must physically move through the model from their origin to their des na on. Tradi onal analysis typically treats each intersec on movement or conflict point as a separate “island” with no interac on between upstream or downstream elements. This connected environment allows the effects of queuing and interac on between different modes to play into the analysis as users move through the model. This is important for this project, as the interac ons between vehicles and pedestrians will be new to the loca on and will be a significant change to exis ng condi ons. • Stochas c Processes – The distribu on of agent behaviour, flow rates entering the model, and other parameters are governed by a set of stochas c processes, which provide a controlled randomness to their distribu on. These processes are governed by a ‘random seed’. Maintaining the same random seed value (a simple integer value) across runs ensures that they will produce consistent results, while varying the seed value will distribute these items slightly differently and produce a different result. It is important in microsimula on to run the model with various random seeds to ensure an accurate average condi on is reached. The simplified concept is to consider the typical weekday work City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 11 commute where the same amount of people need to travel to work during the morning every day, but leave their house at a slightly different me or behave slightly differently from one day to the next. Varying the random seed allows the analyst to take an average of this variance across a number of “Tuesdays” and “Wednesdays” from the same dataset. As the intersec on has been closed to pedestrians for close to 40 years, the experience of pedestrians and the interac on between pedestrians and drivers was especially important to this analysis. To best represent the behaviour and experience of pedestrians, the VISWALK add-on for VISSIM was employed. This add-on allows the so ware to realis cally simulate the behaviour for individual pedestrians and their interac on with each other and the vehicles on the road. The crea on and applica on of the microsimula on model can be broken into several phases: • Model Construc on – the crea on of the physical elements (roadway, traffic controls, origin/des na on tables, etc.) that make up the model. • Model Calibra on – the adjustment of model parameters and coding to best represent the field data and observa ons of the exis ng condi on. • Alterna ves Analysis – applica on of the model in the analysis of several different physical or traffic control-related alterna ves. • Sensi vity Analysis – varying certain characteris cs of the model to judge the effects on each of the travel modes. 3.2 Model Construction 3.2.1 Study Area Figure 6 below shows the area covered by the microsimula on model. The study area covers Portage Avenue between Donald Street and Westbrook Street; Main Street between St. Mary and James; Graham Avenue between Donald Street and Main Street; and Fort Street between St Mary Avenue and Portage Avenue. All streets that cross the major corridors listed here are represented as short intersec ng sec ons with accurate geometry and traffic control at the intersec ons. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 12 Figure 6 – Model Coverage 3.2.2 Network Elements The physical elements of the model were created based on the data received, as applicable. Informa on regarding the number of lanes, exact roadway geometry, and any idiosyncrasies in the use of the transporta on environment was obtained through a combina on of detailed CAD drawings, internet mapping and street view data, the Downtown Synchro Model, local knowledge, and field visit confirma on. At the majority of study area intersec ons, the pedestrian space is represented simply as the crosswalks with a small landing on either side of the roadway. Pedestrians are loaded into the model and cross the street, based on observed crossing volumes. Within the vicinity of the Portage/Main intersec on, the pedestrian space includes the crosswalks as well as the sidewalk area, as illustrated by the blue area on Figure 7. The red area in the figure shows the obstacles that the pedestrians must navigate when moving through the space, such as planters, poles, barriers, and other solid objects. Some of the red areas represent exis ng barrier walls and planters. While the alterna ves modelled generally remove most of these planters, they could be replaced with street furniture, street lights, bus stops, or even snow windrows in winter. Therefore the walking space is conserva ve in the model. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 13 Figure 7 – Pedestrian Space Layout at Portage Avenue and Main Street 3.2.3 Transporta on Demand Calcula ons As transporta on microsimula on models create users (automobiles, trucks, pedestrians) that move physically through a space, it is necessary to convert turning movement count data and predicted crossing volumes into origin/des na on tables that describe where the users begin and end their journey through the model. This knowledge, combined with their individual behaviour, allows them to navigate their way through the model from origin to des na on, as people do in reality. As a result, it was necessary to create a network of balanced turning movement counts for vehicles (cars and trucks) in the model. This allowed for logical assignment of vehicles through the model with no “gaps” due to inconsistencies between adjacent counts. Dillon extracted the data for the AM and PM peak hours from the count data received from the City and processed the data through a proprietary method to create a balanced network of turning movement data for cars and trucks for the year 2016. The resultant turning movement counts for each intersec on, both peak hours, and both modes (car, truck) are shown in Appendix A. The final step in crea on of vehicular demands in the model was to convert the balanced volume into origin/des na on tables. These tables describe the number of vehicles moving between each of the zones in the model, as shown on Figure 8. This was accomplished via use of the built in matrix es ma on tool in VISUM, known as TFlowFuzzy. TFlowFuzzy iterates the travel pa erns for vehicles in the model un l the modelled volume reasonably matches that observed in reality. The resul ng origin and des na on tables for the AM and PM peak hours for cars and trucks were applied in the modelling exercise. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 14 Figure 8 – Vehicle Loading Zones Similarly, for pedestrian volumes, it was necessary to convert the crossing volumes at exis ng crosswalks and the forecasted crossing volumes for Portage/Main into useable data for the model. For exis ng crosswalks, the crossing demand was simply coded to take the pedestrians across the intersec on, as observed in reality. For the pedestrians crossing Portage and Main, it was necessary to convert the forecasted crossing volume into an origin/des na on matrix that expanded the crossing volume into trips from and to the extents of the pedestrian area (the northern, southern, western, and eastern ps of blue area along both Portage and Main), represented by the green areas on Figure 9. These are the loading points for pedestrians crossing Portage and Main in the model. In the absence of data describing the des na ons for the pedestrians in the area, the crossing volume for each crosswalk was simply distributed propor onally to each zone. Table 2 shows the forecasted crossing volumes, as provided by City of Winnipeg staff. These forecasted volumes are based on volumes observed at other intersec ons on Portage Avenue in downtown, notably Portage and Fort, Portage and Donald, and Portage and Memorial. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 15 Figure 9 – Pedestrian Loading Zones Table 2 – Forecasted Pedestrian Crossing Volumes at Portage Avenue and Main Street Transit vehicles in the model were coded according to the schedules and routes provided by City of Winnipeg. These vehicles are produced in the model according to the specified schedule and follow their route to each stop where they stop to allow passenger boarding and aligh ng and proceed un l they complete the route and depart from the model. 3.3 Model Calibration and Validation Model calibra on is simply the modifica on of inputs, se ngs, or geometry in the model to ensure that it matches certain sets of data related to the performance of the network in reality within a reasonable tolerance. Valida on is the confirma on of the model’s applicability for applica on in the required analysis via data sources not applied in calibra on, varia on of parameters to test model sensi vity, and/or visual performance review. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 16 There are currently no mandated standards for model calibra on. The FHWA’s Traffic Analysis Toolbox lists criteria used by the Wisconsin Department of Transporta on, an agency that concerns itself greatly with the use of microsimula on models, as shown in Table 3 below. These criteria were based on guidelines developed in the United Kingdom1. Table 3 – FHWA Criteria for Model Calibration The criteria presented in Table 3 was applied to the model at both the link and turning movement count level to ensure adequate agreement at the most detailed level for the vehicular volume. At the turning movement level, the limi ng criteria for volume flow were reduced to be er represent the scale of typical turning movement flow. The AM and PM Peak Hour models were adjusted and recoded un l they met the specified calibra on criteria. This represented the model’s ini al calibra on and the model was progressed to valida on. 1 Federal Highway Administration, Traffic Analysis Toolbox: Volume III, h p://ops. wa.dot.gov/trafficanalysistools/index.htm City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 17 The model was validated via two different approaches. In the absence of a significant source of other field data not applied in the calibra on of the model, the model was validated through visual confirma on of study area opera ons by Dillon’s local professional staff with extensive knowledge of traffic opera ons in the study area. This review provided insight into typical queuing and opera onal idiosyncrasies observed in reality and also served to provide a quality assurance review of the model. The model was subsequently shared with City of Winnipeg transporta on staff for review prior to beginning analysis. City of Winnipeg staff provided several comments on coding and opera ons in the model. These comments were acknowledged and changes were effected in the model, as applicable. Calibra on of the model was again confirmed and is shown above in the prior tables. Table 4 and Table 5 show a summary of the final calibra on results for the 2016 AM and PM peak hour a er review and valida on by City of Winnipeg staff. Detailed calibra on results are provided in Appendix B. Table 4 – 2016 AM Peak Hour Calibration Summary City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 18 Table 5 – 2016 PM Peak Hour Calibration Summary It can be seen in the above tables that model performance compared to the balanced turning movement volumes for both the AM and PM peak hours is exemplary. All of the calibra on criteria were passed and match very closely to the observed data. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 19 4.0 Measures of Effectiveness The performance measures used to represent the opera ons of the model were selected based on the aims of the project and the goals of the City for the study area. This aspect was cri cal to understanding the real effects of the proposed changes and how the various alterna ves relate to each other. By their very nature, micro-simula on models can provide an overabundance of data and it was up to the modelling team and the Technical Steering Commi ee (TSC) to be clear in understanding what these sta s cs meant rela ve to the goals of the project. This sec on examines the measures resultant from discussions between Dillon and the TSC. It was primarily important for measures to be selected for all travel modes in the model (vehicular, pedestrian, and transit) to allow for the effects of the alterna ves on each mode to be well understood. The sec ons below break down the important measures selected for each mode. 4.1 Vehicles As they have been by far the dominant form of travel in ci es across North America for nearly a century, analysis of vehicular traffic is well understood by modern transporta on planners and engineers. And specific to Winnipeg, the intersec on of Portage Avenue and Main Street represents a very busy intersec on in the city with respect to vehicular traffic. It was important, therefore, to select criteria for vehicles that communicated the overall effects on performance in the study area, performance of the Portage/Main intersec on itself, and the overall travel me for vehicles moving through the model. The measures of effec veness selected were as follows. 4.1.1 Overall Model Performance Average Travel Speed (km/h) – This is the overall average travel speed for cars and trucks in the model. This provides a simple and understandable point of comparison between alterna ves. Unmet Demand (vehicles) – This is a measurement of the number of vehicles that were unable to enter the model at the end of the simula on period due to conges on and queuing. This is a representa on of the extent of conges on in the study area as vehicles that were once able to enter the model under exis ng condi ons are now “frustrated” at the end of the simula on period. In reality, these motorists will need to complete their trip outside of the peak hour or via a different route or mode. Person Hours of Delay (hours) – The delay experienced by each vehicle is mul plied by a representa ve average occupancy (1.24 persons per vehicle, as provided by City of Winnipeg) to calculate the delay experienced by the average person travelling by vehicle in the study area. This provides an important benchmark versus other modes with differing occupancies (e.g., public transit). City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 20 4.1.2 Portage/Main Performance Intersec on Level of Service – Level of Service (LOS) is the classic measurement of intersec on performance that translates a numerical measure (e.g., vehicle delay, volume to capacity ra o) into an easily understood le er grade from A to F. These le er grades represent the changes to the user’s experience as conges on is encountered. Intersec on Average Vehicle Delay (seconds) – This is simply the average delay experienced by vehicles moving through the selected intersec on or along a sec on of roadway. In this case, this value represents the delay experienced at the Portage/Main intersec on. This is used to assign the Level of Service to the Portage/Main intersec on, as recommended by the Highway Capacity Manual 2010 (HCM2010), as shown in Table 6. Table 6 – Level of Service Definitions for Signalised and Unsignalised Intersections 4.1.3 Average Travel Time It was important to understand the overall travel me for vehicles through the model, as this presents an easily understood and comparable metric. Travel me for vehicles was measured from the edges of the model on Portage Avenue and Main Street to each of the other model edges, no ng limita ons such as turning restric ons at the Portage/Main intersec on. This provides a thorough examina on of movements through the area to assess the effects of each alterna ve. 4.2 Pedestrians For almost 40 years, pedestrians have not been able to cross the street at the intersec on of Portage Avenue and Main Street. They are a point of focus for this analysis as they must be able to safely and efficiently cross the intersec on and their experience must be understood. 4.2.1 Safety Microsimula on models are not able to directly assess the safety of a roadway or intersec on. Therefore, one element of safety that was used to differen ate between alterna ves was simply the presence of permi ed dual right turns at the Portage/Main intersec on. This provided a simple binary measurement of an important element of safety at a large intersec on. A permi ed right turn means that vehicles and pedestrians move through the intersec on at the same me and vehicles must wait for City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 21 appropriate gaps in the stream of pedestrians to complete the movement. This is a concern for typical right turning vehicles that interact with a pedestrian crosswalk, but is of par cular concern for dual right turning movements due to the decreased sight distance and poten ally higher travel speeds for vehicles on the inner lane of the turn. 4.2.2 Average Travel Time As with vehicular traffic, it was important to understand the travel me for pedestrians between their origin and des na on zones in the model. This measurement illustrates the effects of the various alterna ves on the pedestrian experience as they move through the space. 4.3 Transit Public transit is an increasingly important element of transporta on in most North American ci es and especially in Winnipeg with its significant ongoing improvements to transit service across the city. The Graham Transit Mall resides within the study area for this analysis and forms a cri cal por on of the transit network for the en re city, as it is a central transit-only hub for movement throughout the city and the northern end of the south-west bus rapid transit line. It was important to understand the effects on transit overall in the study area, as well as the performance of the Graham Transit Mall. 4.3.1 Overall Model Performance Average Travel Speed (km/h) - This is the overall average travel speed for transit vehicles in the model. This provides a simple and understandable point of comparison between alterna ves. Travel speeds are naturally slower for transit vehicles than for cars, as they must stop to allow passengers to board and alight. Person Hours of Delay (hours) – Iden cal to the Person Hours of Delay for vehicles, the delay experienced by each vehicle is mul plied by a representa ve average occupancy (20 persons per transit bus, as provided by City of Winnipeg) to calculate the delay experienced by the average person travelling by vehicle in the study area. As transit vehicles typically carry many more passengers than automobiles, each second of delay experienced by the vehicle is mul plied by the number of occupants. This provides perspec ve on the significance of maintaining op mal performance for transit vehicles to greatly reduce the delay for a larger por on of the travelling public. 4.3.2 Average Travel Time Travel me is a key metric for transit vehicles, as they must perform well to maintain their ght schedules and reduce delays for a large number of people who rely on the quality of the service. For this analysis, the travel me is separated into the performance of the Graham Transit Mall (travelling to and from the cardinal points at the model’s edges) as well as the travel between the model’s cardinal points themselves. For example, the row “Eastbound Le ” reports on routes that enter the model on Portage at Donald, travel eastbound to the Portage and Main intersec on, turn le (north) and exit the model City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 22 on Main at James. This provides a thorough examina on of the effects of the alterna ves on transit service in the area. 4.4 Evaluation Structure The measures of effec veness listed above were selected based on discussions with the TSC during the course of the project. The goal in selec ng the criteria was to create a thorough but not excessively detailed list of criteria that could be summarised on a single page for easy comparison and discussion throughout the project. The criteria were arranged in tables based on the sec ons laid out above. For each sec on, professional judgement was applied in selec ng from the tested alterna ves the preferred, neutral, and least preferred for each category. For ease of understanding, these were coloured in the tables as green (preferred), yellow (neutral), and red (least preferred). This allowed Dillon and the TSC to judge the tradeoffs in each alterna ve, as each alterna ve had its own strengths and weaknesses for each travel mode and MOE. The comparison between alterna ves was not necessarily straigh orward when examining the more detailed results, as some values were seen to improve, while others were degraded. In addi on, where possible, the criteria are ranked by the amount of volume performing the movement. This allows for an improved understanding of the importance of each movement and the effects of the alterna ve. For example, increased travel me of two minutes for a par cular movement through the model may seem significant, but if this movement serves very few vehicles, this may not be a significant change at the intersec on. This approach to the evalua on allowed for discussion of the overall preferred alterna ves for each mode and subcategory with sufficient addi onal detail to examine par cularly important rela onships when necessary. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 23 5.0 Alternatives Analysis 5.1 Approach A total of five alterna ves were tested in the course of the project. These were broken into two separate phases, as requested by the City. • Phase 1 – Tes ng of three City-proposed alterna ves that vary the signal ming and phasing at the Portage/Main intersec on. • Phase 2 – Tes ng of two Dillon-proposed alterna ves that built upon the preferred alterna ve from Phase 1. These alterna ves also varied the signal ming and phasing at the intersec on, but also inves gated physical modifica ons to the intersec on to further enhance the intersec on performance for vehicles, pedestrians, and transit vehicles. 5.2 Phase 1 Alternatives City of Winnipeg staff proposed three alterna ves for tes ng in Phase 1 as part of the request for proposals document. Figure 10 provides a schema c representa on of the alterna ves for simplified comparison between each. Figure 10 – Phase 1 Alternative Schematics City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 24 The three alterna ves tested as part of Phase 1 each vary a single parameter from the exis ng condi on or each other to test the validity of three separate concepts. Alterna ve 1 simply adds in pedestrian crossings to the exis ng condi on. Alterna ve 2 builds upon Alterna ve one, but eliminates permi ed right turns for southbound and eastbound traffic. This is in an effort to improve safety for pedestrians. Alterna ve 3 is iden cal to Alterna ve 1, with the excep on of the removal of the northern crossing for pedestrians. Removing the northern crossing eliminates the need to accommodate pedestrian crossing me for that crossing outside of the eastbound le turn phase. This was intended to improve vehicle performance. Each alterna ve was constructed in the calibrated base models for the AM and PM peak hours. The prescribed changes were implemented in the models. Controls at adjacent intersec ons were adjusted as possible to suit the impacts resul ng from the changes. It should be noted that previous analyses performed by the City of Winnipeg eliminated an alterna ve of a “scramble phase” at the Portage/Main intersec on. A “scramble phase” is where all vehicular approaches are shown a red light and pedestrians are allowed to enter the intersec on and cross in any direc on (including diagonally). In some cases, this can provide more efficient use of the space when compared to separa ng each movement or groupings of movements into dis nct phases. The footprint of the Portage/Main intersec on is simply too large to allow a scramble phase to be a prac cal considera on. The very large crossing distances for pedestrians would require very long pedestrian-only phases and result in very poor vehicular opera ons. Therefore, a scramble phase is not a prac cal solu on for this loca on and was not considered for further analysis as part of this microsimula on study. 5.2.1 Analysis Table 7 and Table 8 present the evalua on results for the Phase 1 alterna ves. Exis ng condi ons results are presented as a baseline comparison. All models have been run with 10 random seeds and their results averaged to present a true average condi on. It can be seen from the tables that in all cases, the introduc on of at-grade pedestrian crossings to the intersec on will have a nega ve impact on vehicular traffic. In all cases the Level of Service (and by extension the average vehicle delay) is worsened by the introduc on of pedestrians. This is logical and to be expected as the traffic controls must be adjusted to provide safe crossing for pedestrians of all levels of mobility, whereas exis ng condi ons prohibit crossings by pedestrians and priori ses efficiency of vehicle movement over everything else. The Timing Standards Memo provided by the City of Winnipeg for this project dictates that a walking speed of 1 m/s be applied when establishing the minimum crossing me for signal controls. This provides sufficient crossing me for those with mobility issues and provides a more comfortable and safe experience for all pedestrians, but will have a limi ng effect on the ability to provide sufficient signal me to vehicular demands. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 25 One point of emphasis for the opera ons in Alterna ve 3 is the performance of the northbound right turn movement. It has by far the least amount of turning volume of all of the movements at the intersec on. However, it can be seen to affect the overall performance of the northbound approach quite clearly in this alterna ve. In Alterna ve 3, the northern pedestrian crossing has been eliminated to allow more efficient use of the intersec on by vehicles making eastbound le turning movements. This, however, forces pedestrians wishing to cross the northern side of the intersec on to make at least two (if not three, depending on des na on) crossings of the intersec on instead of one, thereby increasing the effec ve pedestrian volume on each crossing by 200-400 in the AM peak hour and 250-500 in the PM peak hour. This is of par cular concern for the northbound right turn as it sees quite significant increases in travel me due to conflicts with pedestrians using the eastern crosswalk. The resultant queuing for this movement also shows an impact on the travel me for the northbound through movement, which is the movement with the second highest volume in both peak hours. Therefore, the northbound right – by all accounts a very minor movement at the intersec on – affects performance of a major movement due to conflicts with pedestrians. Vehicular opera ons in Alterna ve 2 are degraded in par cular, as this alterna ve prevents the use of permi ed dual right turns on the eastbound and southbound approaches. From the perspec ve of right turning motorists, this will create significant delays as they must wait to receive a protected green right turn arrow to proceed through the intersec on. The southbound right and eastbound right turn carry significant volume in both the AM and PM peak hours and see drama c increases in travel me through the model in the range of 7 to 20 minutes. This will logically create significant vehicle queues along both Portage Avenue and Main Street throughout the peak hours. The trade-off for increased delays for vehicles at the intersec on in Alterna ve 2 is a significant increase in the safety of pedestrians. Removal of permi ed dual right turns at the intersec on would mean that pedestrians would be able to cross the intersec on with greatly reduced conflicts with turning vehicles. This would provide significantly more comfort and safety to all pedestrians crossing the west and south legs of the intersec on. The experience for pedestrians in terms of comfort, ease of naviga on, and travel me while crossing the intersec on is greatly improved in all of the tested alterna ves when compared to exis ng condi ons. Reintroduc on of pedestrian crossings to the intersec on greatly reduces the distance required for pedestrians to simply cross the road. Interes ngly, the decreased distance required for crossing is, in many cases, balanced by the delay introduced to able-bodied pedestrians by requiring them to wait at the signal for their phase. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 26 Table 7 – Phase 1 Alternative Evaluation Summary – 2016 AM Peak Hour 1 Volume Existing Average Travel Speed (km/h) - 21.3 Unmet Demand - 0 Overall Model Performance Person Hours of Delay 2 340 Automobiles Portage / Main Performance Intersection Level of Service - C Intersection Avg Vehicle Delay (sec) - 20.7 Avg. Travel Time (min:sec) Alt 3 M oder ate Leas t P r ef er r ed P r ef er r ed 17.2 14.4 17.0 1,116 1,886 607 518 502 469 P r ef er r ed Leas t P r ef er r ed P r ef er r ed D E D 39.2 55.3 38.1 P r ef er r ed Leas t P r ef er r ed M oder at e 0:30:40 0:53:34 0:38:19 0:22:45 Southbound Through 1,655 0:02:33 0:02:51 0:06:55 0:02:43 Northbound Through 1,225 0:03:39 0:03:34 0:03:37 0:04:13 Eastbound Left 795 0:02:15 0:02:23 0:02:24 0:02:21 Eastbound Through 725 0:01:35 0:01:55 0:01:52 0:01:41 Southbound Right 725 0:03:02 0:04:51 0:23:11 0:04:18 Westbound Through 450 0:01:57 0:01:56 0:01:53 0:01:56 Eastbound Right 210 0:02:43 0:02:37 0:02:52 0:02:43 Westbound Right 70 0:02:21 0:02:44 0:02:47 0:02:19 Northbound Right 70 0:02:40 0:07:50 0:08:04 0:16:05 M oder ate Pr ef er r ed M oder at e Permitted Dual RT Pedestrians Alt 2 5,925 Total Safety - - Avg. Travel Time (min:sec) Yes No Yes Able Wheelchair P r ef er r ed Pr ef er r ed Leas t P r ef er r ed Total 1,400 0:16:09 0:34:30 0:14:41 0:14:43 0:16:27 West Side 300 0:03:58 0:09:04 0:04:00 0:04:03 0:04:06 East Side 300 0:04:45 0:08:01 0:03:46 0:03:49 0:03:52 400 0:03:51 0:09:08 0:03:56 0:03:54 0:05:24 400 0:03:35 0:08:17 0:02:59 0:02:58 0:03:05 M oder ate Leas t P r ef er r ed P r ef er r ed North Side 3 South Side Overall Model Performance Average Travel Speed (km/h) - 9.6 8.1 5.9 8.1 Person Hours of Delay 2 - 643 903 1,210 810 P r ef er r ed Leas t P r ef er r ed M oder at e Avg. Travel Time (min:sec) Transit Alt 1 Total 272 1:11:02 1:15:25 1:48:30 1:19:14 From Graham to North 44 0:10:42 0:13:12 0:13:30 0:16:41 From Graham to South 35 0:07:38 0:07:34 0:07:07 0:07:56 From North to Graham 31 0:09:09 0:10:26 0:27:54 0:10:18 From South to Graham 24 0:06:14 0:05:32 0:04:50 0:05:52 Eastbound Right 61 0:08:51 0:08:11 0:07:27 0:08:08 Eastbound Left 26 0:07:16 0:08:26 0:25:19 0:08:18 Northbound Left (via St. Mary) 18 0:06:32 0:07:08 0:07:09 0:07:30 Westbound Through 14 0:04:48 0:05:08 0:04:50 0:04:42 Southbound Right 10 0:03:48 0:03:46 0:04:11 0:03:48 Eastbound Through 9 0:06:03 0:06:02 0:06:13 0:06:01 1 Volume for automobiles is from balanced intersection counts; volume for buses is from model observations with combined routes and schedules Person Hours of Delay based on occupancies of: 1.24 per auto and 20 per bus 3 North side trip in Alt 3 involves three crossings, as northern crosswalk is closed 2 City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 27 Table 8 – Phase 1 Alternative Evaluation Summary – 2016 PM Peak Hour 1 Volume Existing Average Travel Speed (km/h) - 20.4 Unmet Demand - 1 Overall Model Performance Person Hours of Delay 2 375 Automobiles Portage / Main Performance Intersection Level of Service - B Intersection Avg Vehicle Delay (sec) - 19.6 Avg. Travel Time (min:sec) Alt 3 P r ef er r ed Leas t P r ef er r ed M oder at e 15.0 10.4 12.1 364 2,096 1,182 588 814 713 P r ef er r ed Leas t P r ef er r ed Pr ef er r ed E F E 61.9 82.6 59.9 P r ef er r ed Leas t P r ef er r ed M oder at e 0:25:44 0:50:31 1:11:20 0:59:48 Southbound Through 1,750 0:04:35 0:04:05 0:04:54 0:03:48 Northbound Through 1,440 0:02:47 0:03:30 0:03:05 0:04:24 Eastbound Left 860 0:02:23 0:03:33 0:05:40 0:04:49 Eastbound Through 610 0:01:57 0:03:56 0:10:13 0:07:18 Southbound Right 605 0:02:48 0:03:20 0:13:19 0:03:13 Westbound Through 520 0:01:50 0:03:58 0:03:46 0:02:07 Eastbound Right 280 0:04:44 0:06:00 0:11:04 0:09:10 Westbound Right 130 0:02:41 0:10:23 0:10:29 0:04:41 Northbound Right 45 0:01:59 0:11:45 0:08:50 0:20:19 M oder at e P r ef er r ed M oder at e Permitted Dual RT Pedestrians Alt 2 6,240 Total Safety - - Avg. Travel Time (min:sec) Yes No Yes Able Wheelchair P r ef er r ed P r ef er r ed Least P r ef er r ed Total 2,000 0:16:09 0:34:30 0:15:03 0:15:00 0:16:41 West Side 500 0:03:58 0:09:04 0:04:02 0:04:03 0:04:07 East Side 500 0:04:45 0:08:01 0:03:53 0:03:54 0:03:57 500 0:03:51 0:09:08 0:04:07 0:04:04 0:05:31 500 0:03:35 0:08:17 0:03:01 0:03:00 0:03:06 P r ef er r ed Leas t P r ef er r ed M oder at e North Side 3 South Side Overall Model Performance Average Travel Speed (km/h) - 10.3 8.0 4.4 5.6 Person Hours of Delay 2 - 550 757 1,229 1,098 P r ef er r ed Leas t P r ef er r ed M oder at e Avg. Travel Time (min:sec) Transit Alt 1 Total 251 1:05:11 1:24:02 1:49:28 1:40:04 From Graham to North 44 0:09:19 0:15:30 0:11:48 0:22:33 From Graham to South 39 0:07:03 0:06:14 0:06:39 0:08:09 From North to Graham 31 0:08:47 0:09:27 0:17:15 0:10:33 From South to Graham 16 0:04:30 0:04:43 0:07:33 0:06:57 Eastbound Right 40 0:07:33 0:08:56 0:11:50 0:12:24 0:10:49 Eastbound Left 25 0:06:32 0:07:47 0:11:30 Northbound Left (via St. Mary) 24 0:06:18 0:06:37 0:07:57 0:07:25 Westbound Through 11 0:04:30 0:12:34 0:12:25 0:06:04 Southbound Right 11 0:06:17 0:06:53 0:13:34 0:07:00 Eastbound Through 10 0:04:23 0:05:22 0:08:56 0:08:10 1 Volume for automobiles is from balanced intersection counts; volume for buses is from model observations with combined routes and schedules Person Hours of Delay based on occupancies of: 1.24 per auto and 20 per bus 3 North side trip in Alt 3 involves three crossings, as northern crosswalk is closed 2 City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 28 The most important point to note from a pedestrian perspec ve is the significant decrease in travel me in all tested alterna ves for residents in wheelchairs or with other mobility impairments. Under exis ng condi ons, residents that require the use of a wheelchair must navigate the underground concourse via a series of elevators and li s, which introduces an extra four to five minutes of delay for every crossing. The results show that allowing wheelchair users to cross the intersec on at grade will result in a 50% to 60% reduc on in their travel me per crossing. There are no significant differences in pedestrian crossing mes between the alterna ves, with the excep on of Alterna ve 3. The northern crosswalk is closed in Alterna ve 3, which forces pedestrians moving between the northern corners of the intersec on to make two or three crossings (dependent on des na on) instead of one. Interes ngly, the me to make the three crossings does not result in a tripling of travel me. This is due to the fact that the length of the pedestrian phases has been set rela vely close to walking speed, which results in a rela vely efficient crossing for a pedestrian wishing to make all three crossings sequen ally with li le delay in wai ng for a phase. The distance covered in that me to make the crossing, however, triples, as the pedestrian must divert through all three of the open crosswalks. Transit service in general does see some increases in travel me in all three alterna ves. Increases in person hours of delay range from 25% in Alterna ve 3 to 90% in Alterna ve 2. These come despite seemingly minor increases in transit travel me for Alterna ves 1 and 3, which illustrate the effects of even small delays to transit vehicles on delays to a greater number of occupants. Note that based on the assump ons in the tables above rela ve to vehicle occupancy, transit riders make up 40-43% of all people travelling through the study area during the peak hour (5,000-5,500 of a total 12,800). This reinforces the need to maintain the quality and primacy of transit service in a dense urban environment over largely single occupant vehicles. Small savings or increases in travel me per transit vehicle have an outsized impact on travellers – not only in delay on their journey, but also via an increase in wait mes for delayed buses in poten ally inclement weather. Alterna ve 2 clearly performs the worst of the three alterna ves with respect to transit vehicles, with approximately 90% more person-hours of delay and a 50% increase in total travel me along the observed routes. This is par cularly evident for buses travelling from the north to Graham Avenue, as they travel southbound in the diamond lane, which becomes the second southbound right turning lane for cars at Portage/Main. With the removal of permi ed right turns at this loca on, the buses get caught in the increased delay to this movement even though they are travelling southbound through the intersec on. Of the three alterna ves, the overall best performance was shown to be via Alterna ve 1. For automobiles, its performance is essen ally on par with Alterna ve 3, with an advantage to Alterna ve 1 for overall travel me for the observed routes. Alterna ve 1 also has a significant advantage for pedestrians over Alterna ve 3 as all four crossings are open. Transit performance from the perspec ve City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 29 of person-hours of delay is be er for Alterna ve 3 in the AM peak, and worse in the PM peak, but not significantly so. Alterna ve 2, while providing safety benefits for pedestrians, is clearly much worse for opera ons of both automobiles and Transit. Discussions of the results for the Phase 1 alterna ves in a mee ng with the TSC resulted in a recommenda on of the use of Alterna ve 1 as the base for construc on of the Phase 2 alterna ves. The commi ee found that Alterna ve 1 provided the best balance of overall performance and freedom for pedestrians. 5.3 Phase 2 Alternatives As described in Sec on 5.2.1 above, the TSC recommended that Alterna ve 1 from the Phase 1 analysis be applied as the base in construc on of the Phase 2 alterna ves. This provided the best balance of performance across the three travel modes and provided a template for further refinement by Dillon in two addi onal alterna ves. Dillon examined available data for the intersec ons, the results of the Phase 1 analysis, and local knowledge of travel pa erns and behaviour in the area to pursue opportuni es for improvement of opera ons for all three travel modes. Table 9 shows the turning movement volumes for the two peak hours at Portage/Main sorted by their magnitude. Table 9 – Portage Avenue and Main Street Turning Volume It can be seen in the table that the movement with by far the fewest vehicles is the northbound right turn. Elimina on of this movement from the intersec on was seen as a minor change in convenience for a small subsec on of drivers, but would have significant improvements for pedestrians and will also provide opera onal benefits to the Portage/Main intersec on. Examina on of the likely des na ons for northbound right turning vehicles showed that they were most likely des ned to the significant parking facili es to the east of the intersec on or the Fairmont Hotel. All of these des na ons can be accessed by making the same northbound right turn to the south of the intersec on at William Stephenson Way or proceeding slightly further north to perform a northbound right turn at Lombard Avenue, as City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 30 illustrated on Figure 11. It can be reasonably assumed that the current northbound right turning vehicles would be split 50/50 between the two alternate routes. Figure 11 – Northbound Right Turn Alternative Routes Figure 12 shows the space that could be recovered through elimina on of the northbound right turn movement. Figure 12 – Potential Additional Sidewalk Area – Elimination of Northbound Right Turn City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 31 Removal of the northbound right turn for cars from the intersec on would have benefits for all three travel modes: • For automobiles passing northbound through the Portage/Main intersec on, there will be a slight reduc on in weaving movements directly at the intersec on. The occurrence of queuing of northbound right turn will also be eliminated, which can affect northbound through vehicles. Both of these elements will result in more efficient flow for vehicles headed northbound through the intersec on – the second highest volume at the intersec on. • For transit vehicles, elimina on of the northbound right turn for cars will remove interference in the curb diamond lane. Under exis ng condi ons, vehicles making the northbound right turn are allowed to enter the diamond lane at the intersec on. As above, poten al queuing caused by vehicles wai ng for pedestrians to cross will be removed, which will allow northbound transit vehicles to move more efficiently through the intersec on. • For pedestrians, the elimina on of the northbound right turn allows for a significant increase of available sidewalk area at the intersec on, as illustrated on Figure 12. In fact, unless the staircase to the concourse is removed or relocated, the enlarged sidewalk area is a necessity to provide space for the curb ramps and crosswalks. Given the acute angle of this corner, this also provides a significant reduc on in the crossing distance for pedestrians using the eastern crossing. As an overall very large intersec on, any reduc on in the crossing distance for pedestrians will result in significant improvement in their safety and comfort. Shorter crossing distances for pedestrians are also of benefit to vehicles, as they allow for shorter minimum pedestrian phases. Removal of the northbound right turn at the Portage/Main intersec on is of clear benefit to all travel modes and was considered in both Phase 2 alterna ves. Further examina on of the automobile volumes using the intersec on showed addi onal opportuni es on the eastern leg of the intersec on. Table 10 shows the total automobile volume approaching and depar ng the intersec on by the individual legs of the intersec on. Table 10 – Portage Avenue and Main Street Intersection – Approaching and Departing Volume City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 32 It can be seen in the table that the east leg of the intersec on carries the least volume in the intersec on. In par cular, the depar ng volume on the eastern leg was shown to be 725 and 610 vehicles in the AM and PM peak hours, respec vely. (Note that the values on the eastern leg shown in the table assume that the northbound right turning movement has been closed.) The volume here in both periods is significantly less than the capacity of a single lane, whereas two receiving lanes are currently provided. It was therefore logical to propose that one of the two receiving lanes on the eastern leg of the intersec on could be eliminated. The two lanes provided slight differences in their advantages and disadvantages. Elimina on of the curb lane on the eastern leg would provide a further extension to the pedestrian space on the southern side of the intersec on, which would create more con guous space for use by pedestrians and further reduce the crossing distance along the eastern edge of the intersec on, as shown in the blue area on Figure 13. Figure 13 – Potential Additional Sidewalk Area – Elimination of Eastern Curb Lane The figure shows the reclama on of a short por on of the eastern leg of the intersec on to reduce the number of receiving lanes, but also maintains the parking further east on Portage Avenue. This approach also has the advantage of providing space to the north of the exis ng staircase to the underground concourse. As this staircase is currently built directly adjacent to the eastbound lanes of the roadway, this allows pedestrians the ability to walk to the north around the staircase and simplifies any required physical changes to accommodate the exis ng staircase. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 33 Alternately, the median receiving lane on the eastern leg could be eliminated, as shown on Figure 14. Figure 14 – Potential Additional Pedestrian Area – Elimination of Eastern Median Lane This alterna ve provides the opportunity for a pedestrian refuge island in the middle of the eastern crossing, which can provide some extra comfort and safety for pedestrians making the eastern crossing. It, however, does not provide any advantages concerning the space surrounding the exis ng concourse staircase. Both of these alterna ves for elimina on of a lane on the eastern leg of the intersec on provide different opportuni es with respect to the turning movements on the western leg. If the curb lane on the eastern leg of the intersec on is eliminated, the alloca on of turning lanes on the western approach could be adjusted as follows: • Double eastbound le turning lanes • Eastbound through lane (Buses may make an eastbound le turn) • Double eastbound right turn This is a minor modifica on of the exis ng condi on, where the second right turn lane is currently a shared through and right turn lane. This will result in a more efficient movement for the eastbound right turn and provides the poten al to treat the eastbound through and eastbound right turn via separate signal phases, if necessary or advantageous. There is the poten al for increased queuing in the centre City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 34 lane as it is now the sole lane allowing an eastbound through movement. This could poten ally impact the movement of transit vehicles making the eastbound le turn from the centre lane, or conversely automobiles wai ng behind a Transit vehicle. If the median lane on the eastern leg is eliminated, the alloca on of turn lanes could be adjusted as follows: • Triple eastbound le turn (buses make eastbound le turn from the third lane) • Shared eastbound through and right turn lane • Single eastbound right turn lane This is again a minor modifica on to the exis ng condi on, as it converts the center lane from an eastbound through lane to an eastbound le turn lane. This provides an opportunity at the intersec on to move more eastbound le turning vehicles (a significant movement at the intersec on) in a poten ally shorter amount of me, which could return some signal me to other movements. There is the poten al for increased queuing in the shared through/right lane due to an increased number of vehicles in that lane travelling eastbound through the intersec on. This could impact the efficiency of the eastbound right turn movement and upstream queuing. The above discussion on op ons for modifica on of the intersec on into two addi onal alterna ves resulted in Alterna ves 4 and 5, as illustrated on Figure 15 below. Figure 15 – Phase 2 Alternative Schematics City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 35 As shown in the figure, both alterna ves assumed that the northbound right turn will be eliminated at the intersec on. Alterna ve 4 addi onally assumed that the curb lane on the eastern receiving leg will be removed, with the associated changes to pedestrian space and eastbound turning movements as described above and shown in the figure. Alterna ve 5 assumed that the median lane on the eastbound receiving lane will be removed and the turning movements and pedestrian space will be modified as shown in the figure and discussed above. 5.3.1 Analysis Table 11 and Table 12 present the results for all tested alterna ves (Phase 1 and Phase 2) to provide a complete review of all alterna ves tested as part of the project. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 36 Table 11 – Phase 1 and 2 Alternative Evaluation Summary – AM Peak Hour 1 Volume Existing Average Travel Speed (km/h) - 21.3 Unmet Demand - 0 Overall Model Performance Person Hours of Delay 2 340 Automobiles Portage / Main Performance Alt 4 Alt 5 M ode r at e Least P r ef er r ed M oder a t e P r ef e r r ed P r e f er r ed 17.2 14.4 17.0 20.5 20.2 1,116 1,886 607 27 25 518 502 469 370 381 M ode r at e Least P r ef er r ed M oder a t e P r ef e r r ed P r e f er r ed - C D E D C C - 20.7 39.2 55.3 38.1 30.6 30.9 M ode r at e Least P r ef er r ed Leas t P r ef er r ed P r ef e r r ed P r e f er r ed Total 5,925 0:22:45 0:30:40 0:53:34 0:38:19 0:22:40 0:24:00 Southbound Through 1,655 0:02:33 0:02:51 0:06:55 0:02:43 0:02:48 0:02:48 Northbound Through 1,225 0:03:39 0:03:34 0:03:37 0:04:13 0:03:21 0:03:17 Eastbound Left 795 0:02:15 0:02:23 0:02:24 0:02:21 0:02:34 0:02:43 Eastbound Through 725 0:01:35 0:01:55 0:01:52 0:01:41 0:02:05 0:02:55 Southbound Right 725 0:03:02 0:04:51 0:23:11 0:04:18 0:04:38 0:04:35 Westbound Through 450 0:01:57 0:01:56 0:01:53 0:01:56 0:01:52 0:01:51 Eastbound Right 210 0:02:43 0:02:37 0:02:52 0:02:43 0:02:54 0:03:25 Westbound Right 70 0:02:21 0:02:44 0:02:47 0:02:19 0:02:28 0:02:26 Northbound Right 3 70 0:02:40 0:07:50 0:08:04 0:16:05 - - M ode r at e P r e f er r ed M oder a t e M ode r at e M o der at e - - Yes No Yes Yes Yes Safety Pedestrians Alt 3 Intersection Level of Service Permitted Dual RT Avg. Travel Time (min:sec) Able Wheelchair P r ef e r r ed P r e f er r ed Leas t P r ef er r ed P r ef e r r ed P r e f er r ed Total 1,400 0:16:09 0:34:30 0:14:41 0:14:43 0:16:27 0:14:29 0:14:38 West Side 300 0:03:58 0:09:04 0:04:00 0:04:03 0:04:06 0:04:00 0:04:00 East Side 300 0:04:45 0:08:01 0:03:46 0:03:49 0:03:52 0:03:36 0:03:45 4 400 0:03:51 0:09:08 0:03:56 0:03:54 0:05:24 0:03:55 0:03:55 South Side 400 0:03:35 0:08:17 0:02:59 0:02:58 0:03:05 0:02:59 0:02:59 P r e f er r ed North Side Overall Model Performance M ode r at e Least P r ef er r ed M oder a t e P r ef e r r ed Average Travel Speed (km/h) - 9.6 8.1 5.9 8.1 9.4 9.3 Person Hours of Delay 2 - 643 903 1,210 810 663 677 M ode r at e Least P r ef er r ed M oder a t e P r ef e r r ed M o der at e Total 272 1:11:02 1:15:25 1:48:30 1:19:14 1:12:36 1:14:10 From Graham to North 44 0:10:42 0:13:12 0:13:30 0:16:41 0:09:52 0:09:53 From Graham to South 35 0:07:38 0:07:34 0:07:07 0:07:56 0:07:29 0:07:31 From North to Graham 31 0:09:09 0:10:26 0:27:54 0:10:18 0:10:29 0:10:27 From South to Graham 24 0:06:14 0:05:32 0:04:50 0:05:52 0:05:58 0:06:02 Eastbound Right 61 0:08:51 0:08:11 0:07:27 0:08:08 0:08:19 0:08:20 Eastbound Left 26 0:07:16 0:08:26 0:25:19 0:08:18 0:08:32 0:08:35 Northbound Left (via St. Mary) 18 0:06:32 0:07:08 0:07:09 0:07:30 0:07:08 0:07:24 Westbound Through 14 0:04:48 0:05:08 0:04:50 0:04:42 0:04:43 0:04:40 Southbound Right 10 0:03:48 0:03:46 0:04:11 0:03:48 0:04:00 0:04:44 Eastbound Through 9 0:06:03 0:06:02 0:06:13 0:06:01 0:06:04 0:06:33 Avg. Travel Time (min:sec) Transit Alt 2 Intersection Avg Vehicle Delay (sec) Avg. Travel Time (min:sec) 1 Alt 1 Volume for automobiles is taken from balanced intersection counts; volume for buses is taken from model observations with combined routes and schedules 2 Person Hours of Delay based on occupancies of: 1.24 per auto and 20 per bus 3 Northbound Right is blocked in Alternatives 4 and 5. Use caution when comparing total auto travel time to other alternatives. 4 North side trip in Alt 3 involves three crossings, as northern crosswalk is closed City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 37 Table 12 – Phase 1 and 2 Alternative Evaluation Summary – PM Peak Hour 1 Volume Existing - 20.4 - Alt 1 Alt 2 Alt 3 Alt 4 Alt 5 P r ef er r ed L east P r ef er r e d M oder a t e P r ef er r ed P r e f er r ed 15.0 10.4 12.1 15.5 15.5 1 364 2,096 1,182 413 331 375 588 814 713 559 559 M oder at e L east P r ef er r e d M oder a t e P r ef er r ed P r e f er r ed Overall Model Performance Average Travel Speed (km/h) Unmet Demand Person Hours of Delay 2 Automobiles Portage / Main Performance Intersection Level of Service - B E F E D D Intersection Avg Vehicle Delay (sec) - 19.6 61.9 82.6 59.9 52.6 53.4 M oder at e L east P r ef er r e d L east P r ef er r e d P r ef er r ed P r e f er r ed Total 6,240 0:25:44 0:50:31 1:11:20 0:59:48 0:38:18 0:38:57 Southbound Through 1,750 0:04:35 0:04:05 0:04:54 0:03:48 0:04:18 0:04:22 Northbound Through 1,440 0:02:47 0:03:30 0:03:05 0:04:24 0:02:45 0:02:46 Eastbound Left 860 0:02:23 0:03:33 0:05:40 0:04:49 0:04:22 0:04:31 Eastbound Through 610 0:01:57 0:03:56 0:10:13 0:07:18 0:05:37 0:05:41 Southbound Right 605 0:02:48 0:03:20 0:13:19 0:03:13 0:03:16 0:03:15 Westbound Through 520 0:01:50 0:03:58 0:03:46 0:02:07 0:02:47 0:03:12 Eastbound Right 280 0:04:44 0:06:00 0:11:04 0:09:10 0:07:26 0:06:55 Westbound Right 130 0:02:41 0:10:23 0:10:29 0:04:41 0:07:47 0:08:15 45 0:01:59 0:11:45 0:08:50 0:20:19 - - M oder at e P r ef er r ed M oder a t e M o der a t e M o der a t e Avg. Travel Time (min:sec) Northbound Right 3 Safety Pedestrians Permitted Dual RT - - Avg. Travel Time (min:sec) Yes No Yes Yes Yes Able Wheelchair P r ef er r ed P r ef er r ed L east P r ef er r e d P r ef er r ed P r e f er r ed 0:15:04 Total 2,000 0:16:09 0:34:30 0:15:03 0:15:00 0:16:41 0:14:48 West Side 500 0:03:58 0:09:04 0:04:02 0:04:03 0:04:07 0:04:03 0:04:02 East Side 500 0:04:45 0:08:01 0:03:53 0:03:54 0:03:57 0:03:43 0:03:58 North Side 4 500 0:03:51 0:09:08 0:04:07 0:04:04 0:05:31 0:04:02 0:04:03 South Side 500 0:03:35 0:08:17 0:03:01 0:03:00 0:03:06 0:03:01 0:03:01 P r e f er r ed Overall Model Performance P r ef er r ed L east P r ef er r e d L east P r ef er r e d P r ef er r ed Average Travel Speed (km/h) - 10.3 8.0 4.4 5.6 8.2 8.6 Person Hours of Delay 2 - 550 757 1,229 1,098 710 671 M oder at e L east P r ef er r e d L east P r ef er r e d P r ef er r ed P r e f er r ed Total 251 1:05:11 1:24:02 1:49:28 1:40:04 1:17:38 1:15:59 From Graham to North 44 0:09:19 0:15:30 0:11:48 0:22:33 0:09:31 0:09:21 From Graham to South 39 0:07:03 0:06:14 0:06:39 0:08:09 0:06:16 0:06:04 From North to Graham 31 0:08:47 0:09:27 0:17:15 0:10:33 0:09:51 0:09:49 From South to Graham 16 0:04:30 0:04:43 0:07:33 0:06:57 0:05:03 0:04:52 Eastbound Right 40 0:07:33 0:08:56 0:11:50 0:12:24 0:09:19 0:09:01 Eastbound Left 25 0:06:32 0:07:47 0:11:30 0:10:49 0:08:31 0:08:01 Northbound Left (via St. Mary) 24 0:06:18 0:06:37 0:07:57 0:07:25 0:06:53 0:06:53 Westbound Through 11 0:04:30 0:12:34 0:12:25 0:06:04 0:09:09 0:09:28 Southbound Right 11 0:06:17 0:06:53 0:13:34 0:07:00 0:06:54 0:06:53 Eastbound Through 10 0:04:23 0:05:22 0:08:56 0:08:10 0:06:11 0:05:38 Transit Avg. Travel Time (min:sec) 1 Volume for automobiles is taken from balanced intersection counts; volume for buses is taken from model observations with combined routes and schedules 2 Person Hours of Delay based on occupancies of: 1.24 per auto and 20 per bus 3 Northbound Right is blocked in Alternatives 4 and 5. Use caution when comparing total auto travel time to other alternatives. 4 North side trip in Alt 3 involves three crossings, as northern crosswalk is closed City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 38 It can be seen in the tables that both Alterna ve 4 and Alterna ve 5 operate the same or be er in all respects than the previously tested alterna ves. For automobiles, delay and LOS are significantly improved in both Alterna ve 4 and 5 compared to the Phase 1 alterna ves with the LOS improving by a le er-grade in both periods. Person-hours of delay are reduced in both periods compared to the Phase 1 alterna ves. The AM peak hour shows that personhours of delay for autos will be marginally higher than the exis ng condi on. Person-hours of delay are s ll increased during the PM peak hour when compared to exis ng, but are slightly reduced compared to Alterna ve 1, which served as the basis for Alterna ves 4 and 5. Comparison of Alterna ve 4 and 5 shows no significant advantage to eastbound automobile travel me for Alterna ve 5 with its triple le turn and modified signal ming. Eastbound travel me is generally unchanged. Travel me for pedestrians is unchanged in the Phase 2 alterna ves compared to Phase 1. The pedestrian experience, rela ve to travel me, is unchanged, as they must s ll wait for the appropriate phase at the Portage/Main intersec on. This delay has not changed significantly in the new alterna ves. These figures do not illustrate the advantages to pedestrians with respect to their comfort and safety provided by both Phase 2 alterna ves with the addi onal space and reduced crossing distances on the eastern leg of the intersec on. Pedestrian safety at the intersec on does s ll present a challenge in the Phase 2 alterna ves due to the presence of dual right turn lanes on the southbound and eastbound approaches. Vehicles travelling in the interior lane of a dual right turn will naturally have reduced sight lines to the crosswalk due to vehicles also turning in the curb lane. The geometry of the intersec on also presents an element of risk for the southbound approach in par cular. The obtuse angle where the western and northern legs of the intersec on meet provide a larger turning radius for vehicles making a southbound right turn in the inside lane, thus allowing for higher travel speeds. Transit performance is improved in both Alterna ve 4 and 5 compared to the Phase 1 alterna ves. Person-hours of delay are improved in both alterna ves when compared to Alterna ves 1 to 3. In the case of the AM peak hour, there is no significant difference between the Phase 2 alterna ves and the exis ng condi on for both person hours of travel and overall travel via the observed routes. The PM peak hour does show some impacts as to person-hours of delay and overall route travel mes when compared to exis ng, but these are both s ll significantly improved over the Phase 1 alterna ves. Performance from the Graham Avenue transit mall to the north and south is improved in both Alterna ve 4 and Alterna ve 5. There are, however, some impacts for transit vehicles des ned to the Graham transit mall. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 39 On the whole, there is not a significant opera onal difference between Alterna ve 4 and Alterna ve 5 for any mode. Transit service does show minor differences with Alterna ve 4 performing marginally be er in the AM peak hour, and Alterna ve 5 performing marginally be er during the PM peak hour, which is overall a wash. Discussion of the alterna ve results with the TSC resulted in a recommenda on of Alterna ve 4 as the preferred alterna ve from all of those tested. Alterna ve 4 presents an equivalent opera onal condi on to Alterna ve 5, but has significant advantages in the distribu on of pedestrian space on the eastern leg of the intersec on. Provision of more con guous space to the south of the intersec on creates and more comfortable environment for pedestrians. This also provides separa on between the staircase barrier walls and eastbound traffic, improving automobile safety. Without the addi onal space provided by the removal of the curb lane, the pedestrian environment in the southeast corner would be significantly impacted to accommodate the exis ng staircase. This also provides advantages when considering the structural elements of the underground concourse beneath the intersec on, as more space is available to accommodate any physical modifica ons of the space. Comparing Alterna ve 4 to the exis ng condi on results does show some differences. As can logically be expected, re-introducing pedestrians to the intersec on at at-grade crossings will have some minor to moderate effects on automobile and transit travel through the study area. The AM peak hour shows that opera ons for all modes in the study area will not be significantly affected. There are some minor impacts to motorised travel via cars and buses. This is indicated via some increases to person delay (+10%) and a slight decrease in average travel speed (-4%). Transit service is largely unaffected during the AM peak hour. Note, however, that despite the small increases in delay to vehicles, the intersec on of Portage and Main was s ll shown to operate at a level of service of C, which indicates that the overall experience for drivers will not be significantly different at the intersec on. The PM peak hour does see some more significant impacts to travel through the intersec on in Alterna ve 4, when compared to exis ng condi ons. The level of service for Portage and Main was shown to decrease from B to D with the increases to delay for automobiles. This increased delay is felt mainly by the right turning movements at the intersec ons, which must now yield to pedestrians. Note that the travel me for the two most significant movements – northbound and southbound through – are unaffected by the change and show similar or even slightly improved travel mes for cars in the model versus the exis ng condi on. Note, however, that level of service D for an urban signalised intersec on s ll meets the standards applied by many North American ci es. Transit service does see some significant increases in delay in the study area due to the change. Most significantly affected are eastbound buses, which see increases in delay for all eastbound movements at the Portage and Main intersec on. As described in previous sec ons, the experience for pedestrians in both peak hours when comparing exis ng condi ons to Alterna ve 4 is largely improved – for wheelchair and mobility- City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 40 challenged users the travel me savings is significant; for able-bodied users the travel me is similar, but the distance required to cross the street is greatly reduced. Following the selec on of the preferred alterna ve by the TSC, the model was further enhanced to provide addi onal safety for pedestrians at Portage and Main and restrict automobile traffic in the model to the posted speed limit of 50 km/h. Pedestrian safety at the intersec on was enhanced through the implementa on of Leading Pedestrian Interval (LPI) phases to each crossing, as applicable. An LPI provides a short head start to pedestrians over turning vehicles at the beginning of the phase. This allows pedestrians to take ownership of the crossing prior to the entrance of vehicles into the intersec on, which makes them more visible and forces vehicles to yield. Note, however, that this does not eliminate the conflict between pedestrians and vehicles at right turns and that an LPI does not provide any benefit to a late-arriving pedestrian at the intersec on. An LPI of five seconds was added to assist the north, west, and south crosswalks (the east crosswalk does not have any conflic ng turning movements during the north-south signal phase). The recommended signal phasing and ming for Portage/Main is illustrated on Figure 16 below. Note that vehicle phases are denoted ØX, where X is the phase number. Pedestrian phases are denoted as Ø1XX, where XX corresponds to the phase number for the concurrent vehicle phase. The overall cycle length of 120 seconds has been maintained for the intersec on in the preferred alterna ve. As can be seen in the figure, a five second LPI has been added to all approaches where right turning vehicles will be in conflict with pedestrians (EB, WB, SB). The me to accommodate the LPI was taken from the NB/SB phases to reduce delays for the EB movements due to the restric on. Ini al tes ng showed that EB movements saw the most delay due to the implementa on of pedestrians, whereas NB/SB travel was largely unaffected. As shown in the analysis above, NB and SB travel were shown to perform largely the same as exis ng condi ons with the proposed phasing and ming. City of Winnipeg has indicated that exis ng equipment is adequate to accommodate the use of LPI. It is important to note the difference in walk me available to the pedestrian crossings on the east (Ø102) and west (Ø101) sides of the intersec on. The shorter crossing distance on the east side of the intersec on due to the removal of the NBR movement and the depar ng curb lane on the eastern leg allows for much more walk me before the Flashing Don’t Walk phase when compared to the west side. This provides for a more comfortable and convenient crossing for pedestrians on the east side as they can arrive much later at a walk phase and s ll be able to cross the road safely. Note also that it was necessary to maintain an exclusive eastbound phase of the signal which allows for the heavy EBL movement to move unencumbered through the intersec on. Without this allowance, delays for eastbound movements would be quite significant, as pedestrians crossing the northern leg greatly reduce the capacity for the EBL movement. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 5.0 Alternatives Analysis 42 Figure 16 – Portage and Main - Final Signal Timing City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL– 16-3623 42 6.0 Sensitivity Analysis As the pedestrian volume crossing the Portage/Main intersec on applied during the analysis por on of the project was synthe cally forecasted rela ve to adjacent intersec ons, the City of Winnipeg requested that sensi vity analysis on the preferred model’s opera ons be performed that varies the amount of pedestrian volume. The test involved modifying the pedestrian crossing volume from the base condi on (Alterna ve 4 with LPI) to the following scenarios: - 10%, +10%, +25%, +50%. No other inputs or se ngs in the model were modified, to allow for the sensi vity of the network to changes in pedestrian volume to be assessed. Table 13 shows the pedestrian crossing volumes applied in each scenario. The underlying pedestrian origin/des na on table was simply factored up or down for the specific percentage in each case. Table 13 – Portage Avenue and Main Street – Pedestrian Crossing Volumes – Sensitivity Analysis Crosswalk North -10% Base +10% +25% +50% AM PM AM PM AM PM AM PM AM PM 360 450 400 500 440 550 500 625 600 750 South 360 450 400 500 440 550 500 625 600 750 East 270 450 300 500 330 550 375 625 450 750 West 270 450 300 500 330 550 375 625 450 750 Model runs were performed using the Alterna ve 4 network for the AM and PM peak hour. Each scenario was run using 10 different random seeds and the results were averaged to create a true average condi on. Table 14 and Table 15 present the results for the sensi vity tests. Figure 17 and Figure 18 show the trend in travel mes for each travel mode for the AM and PM peak hours. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 43 Table 14 – Pedestrian Sensitivity Analysis Results – AM Peak Hour 1 Volume Existing -10% Base + 10% + 25% + 50% Average Travel Speed (km/h) - 20.0 15.8 15.6 15.6 15.4 14.6 Unmet Demand - 0 94 94 77 107 152 349 515 521 522 529 564 Overall Model Performance Person Hours of Delay 2 Automobiles Portage / Main Performance Intersection Level of Service - C D D D D E Intersection Avg Vehicle Delay (sec) - 22.7 47.4 49.8 50.4 52.2 55.4 Avg. Travel Time (min:sec) Total 5,925 0:26:02 0:34:25 0:35:38 0:35:12 0:35:30 0:37:32 Southbound Through 1,655 0:03:16 0:04:29 0:04:33 0:04:37 0:04:44 0:04:53 Northbound Through 1,225 0:04:03 0:04:12 0:03:58 0:04:02 0:03:53 0:04:05 Eastbound Left 795 0:02:28 0:04:41 0:04:57 0:04:40 0:04:41 0:04:57 Eastbound Through 725 0:01:45 0:05:18 0:05:35 0:05:13 0:04:47 0:05:06 Southbound Right 725 0:03:28 0:04:33 0:04:59 0:05:13 0:05:58 0:06:43 Westbound Through 450 0:02:06 0:02:29 0:02:32 0:02:34 0:02:34 0:02:33 Eastbound Right 210 0:03:04 0:05:59 0:06:09 0:05:55 0:05:38 0:05:50 Westbound Right 70 0:02:30 0:02:43 0:02:55 0:02:58 0:03:14 0:03:24 Northbound Right 3 70 0:03:23 - - - - - - Yes Yes Yes Yes Yes Pedestrians Safety Permitted Dual RT - Avg. Travel Time (min:sec) Able Wheelchair Total 1,400 0:16:09 0:34:30 0:14:40 0:14:47 0:14:45 0:14:51 0:14:46 West Side 300 0:03:58 0:09:04 0:04:04 0:04:08 0:04:09 0:04:10 0:04:08 East Side 300 0:04:45 0:08:01 0:03:43 0:03:47 0:03:43 0:03:48 0:03:45 North Side 400 0:03:51 0:09:08 0:03:50 0:03:51 0:03:52 0:03:50 0:03:51 South Side 400 0:03:35 0:08:17 0:03:03 0:03:02 0:03:01 0:03:02 0:03:02 Overall Model Performance Average Travel Speed (km/h) - 9.7 8.9 8.9 8.9 8.8 8.6 Person Hours of Delay 2 - 637 729 729 731 730 760 Transit Avg. Travel Time (min:sec) Total 272 1:10:39 1:18:54 1:18:50 1:18:47 1:18:37 1:20:06 From Graham to North 44 0:10:44 0:10:40 0:10:30 0:10:29 0:10:28 0:10:28 From Graham to South 35 0:07:43 0:07:33 0:07:27 0:07:27 0:07:28 0:07:27 From North to Graham 31 0:08:57 0:10:30 0:10:42 0:10:44 0:10:58 0:11:23 From South to Graham 24 0:06:07 0:06:09 0:05:57 0:05:58 0:05:39 0:05:58 Eastbound Right 61 0:08:43 0:08:39 0:08:25 0:08:29 0:08:19 0:08:25 Eastbound Left 26 0:07:19 0:08:23 0:08:35 0:08:39 0:08:51 0:09:15 Northbound Left (via St. Mary) 18 0:06:40 0:08:09 0:08:11 0:08:06 0:08:01 0:08:06 Westbound Through 14 0:04:39 0:05:33 0:05:41 0:05:38 0:05:54 0:05:57 Southbound Right 10 0:03:46 0:05:41 0:05:41 0:05:44 0:05:30 0:05:33 Eastbound Through 9 0:06:01 0:07:38 0:07:42 0:07:32 0:07:28 0:07:34 1 Volume for automobiles is taken from balanced intersection counts; volume for buses is taken from model observations with combined routes and schedules 2 Person Hours of Delay based on occupancies of: 1.24 per auto and 20 per bus 3 Northbound Right is blocked in Preferred. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 44 Table 15 – Pedestrian Sensitivity Analysis Results – PM Peak Hour 1 Volume Existing Average Travel Speed (km/h) - Unmet Demand - -10% Base + 10% + 25% + 50% 19.0 12.1 12.1 11.9 11.9 11.8 0 1,012 953 1,073 1,037 1,077 386 719 722 727 730 734 Overall Model Performance Person Hours of Delay 2 Automobiles Portage / Main Performance Intersection Level of Service - C E E E E E Intersection Avg Vehicle Delay (sec) - 22.1 62.8 63.6 64.8 66.3 67.3 Avg. Travel Time (min:sec) Total 6,240 0:28:30 0:47:41 0:47:27 0:48:38 0:50:14 0:50:47 Southbound Through 1,750 0:05:03 0:05:45 0:05:43 0:05:43 0:05:43 0:05:47 Northbound Through 1,440 0:03:14 0:03:25 0:03:28 0:03:25 0:03:25 0:03:26 Eastbound Left 860 0:02:43 0:05:54 0:05:51 0:05:53 0:05:57 0:05:52 Eastbound Through 610 0:02:17 0:08:10 0:07:42 0:08:02 0:08:17 0:07:59 Southbound Right 605 0:03:07 0:04:07 0:04:13 0:04:11 0:04:22 0:04:32 Westbound Through 520 0:01:56 0:03:19 0:03:26 0:03:30 0:03:53 0:04:02 Eastbound Right 280 0:05:15 0:09:17 0:08:58 0:09:19 0:09:30 0:09:14 Westbound Right 130 0:02:45 0:07:43 0:08:05 0:08:37 0:09:07 0:09:55 Northbound Right 3 45 0:02:11 - - - - - - Yes Yes Yes Yes Yes Pedestrians Safety Permitted Dual RT - Avg. Travel Time (min:sec) Able Wheelchair Total 2,000 0:16:09 0:34:30 0:15:01 0:14:54 0:14:54 0:14:58 0:15:09 West Side 500 0:03:58 0:09:04 0:04:15 0:04:11 0:04:12 0:04:15 0:04:16 East Side 500 0:04:45 0:08:01 0:03:48 0:03:49 0:03:53 0:03:49 0:03:54 North Side 500 0:03:51 0:09:08 0:03:53 0:03:51 0:03:48 0:03:51 0:03:55 South Side 500 0:03:35 0:08:17 0:03:04 0:03:02 0:03:02 0:03:03 0:03:03 Overall Model Performance Average Travel Speed (km/h) - 10.2 8.1 8.2 7.7 8.0 7.7 Person Hours of Delay 2 - 559 767 748 805 771 810 Transit Avg. Travel Time (min:sec) Total 253 1:05:45 1:23:18 1:22:57 1:24:07 1:24:38 1:28:58 From Graham to North 45 0:09:09 0:09:26 0:09:23 0:09:49 0:09:18 0:09:41 From Graham to South 40 0:07:05 0:06:22 0:06:27 0:06:36 0:06:16 0:06:37 From North to Graham 31 0:08:52 0:10:24 0:10:29 0:10:13 0:10:53 0:11:25 From South to Graham 16 0:04:33 0:05:53 0:05:43 0:05:19 0:06:09 0:06:34 Eastbound Right 40 0:06:25 0:07:59 0:07:56 0:07:47 0:07:48 0:08:19 Eastbound Left 25 0:06:20 0:06:57 0:07:03 0:07:02 0:07:00 0:07:14 Northbound Left (via St. Mary) 24 0:07:45 0:10:18 0:09:57 0:10:13 0:10:01 0:10:37 Westbound Through 11 0:04:26 0:09:24 0:09:51 0:10:31 0:10:58 0:11:37 Southbound Right 11 0:04:31 0:07:01 0:07:00 0:07:02 0:06:53 0:07:12 Eastbound Through 10 0:06:39 0:09:33 0:09:07 0:09:34 0:09:22 0:09:42 1 Volume for automobiles is taken from balanced intersection counts; volume for buses is taken from model observations with combined routes and schedules 2 Person Hours of Delay based on occupancies of: 1.24 per auto and 20 per bus 3 Northbound Right is blocked in Preferred. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 45 Figure 17 – Pedestrian Sensitivity Analysis Results – Change in Travel Time – AM Peak Hour City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 46 Figure 18 – Pedestrian Sensitivity Analysis Results – Change in Travel Time – PM Peak Hour City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 47 For automobiles, the average travel speed, unmet demand, and person hours of delay show li le change across the alterna ves. The one excep on is the +50% case in the AM, which sees a devia on in all three elements (-1km/hr. or 8% reduc on in average speed, +50% unmet demand, +10% person delay). This level of change is certainly no ceable in the numbers, but may not be significant in prac ce. LOS and intersec on delay at Portage and Main does show some logical increases in both AM and PM there is a clear rela onship between pedestrian volume and overall intersec on delay. However, the change from the -10% scenario to +50% is only an addi onal 5 to 8 seconds per vehicle. This may not be percep ble in prac ce. In essence, things have not completely failed in any of the test scenarios. The travel mes in the graphs show that there is a clear and logical rela onship between increasing the number of pedestrians and delay for the westbound right turn and southbound right turn movements; for example, the southbound right turn moves up sharply in the AM in par cular (+2:10). Interes ngly, the eastbound right turn travel me stays fairly flat. The delays and queuing for the westbound right turn in the PM peak hour are enough that it starts to affect the westbound through movements in the +25% and +50% scenarios. As has been observed in all of the previous model runs, the travel me for pedestrians does not change when the pedestrian volume is increased or decreased. This indicates that, even at the highest level of pedestrian volume in the sensi vity analyses, the crosswalks and available sidewalk space at the crossings s ll have not reached capacity and signal ming is the determinant factor in travel me for pedestrians. Travel mes for transit vehicles in the AM peak hour are rela vely flat across the range of pedestrian volume, except for From the North to Graham and the eastbound le turn. North to Graham suffers due to the increased delay to the southbound right turning autos with the increase in pedestrians, as they share a lane (an approximate 40 second increase). The eastbound le turn sees an increase of approximately 40 seconds in the +50% scenario, which is likely due to extra fric on in ge ng over to the le turn lane due to the some addi onal fric on from the eastbound right vehicles. The PM peak hour shows a heightened sensi vity to pedestrian volume for transit vehicles for four movements. As with the AM peak hour, the buses travelling from the north to Graham Avenue show increasing travel me due to the shared lane with autos making a southbound right turn. Similarly, the westbound through buses experience increasing travel mes with increases to the pedestrian crossing volumes due to increased conges on for the westbound right turning autos. Buses making the eastbound right turn show an increase in the +50% scenario that is larger than the impacts seen for cars (40 seconds versus 20 seconds). This is likely due to the need for a larger gap for buses to accelerate via a single lane, whereas cars are more agile and can move between the curb and second lane. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 48 7.0 Safety and Risk Analysis This sec on summarizes the safety and risk concerns of implemen ng the preferred alterna ve. The technical requirements for the traffic signals at Portage and Main are not substan ally different from other signalized intersec ons in Winnipeg. There will not be more than eight signal phases, so a standard controller will be used. The only new or untested por on of the proposed signal ming is that a leading pedestrian walk interval is proposed on mul ple phases in combina on with the southbound right-turn and eastbound le -turn movement overlap. This has already been used on a single phase at Main Street and Broadway to allow pedestrians me to establish themselves in the intersec on in advance of the turning vehicles. This change has had a posi ve effect but it has not been in place long enough to judge long-term safety benefits. The Traffic Signals Branch has bench tested the mings on a controller using current hardware and so ware. There were no opera onal issues with having the leading pedestrian walk interval in combina on with the southbound right-turn and eastbound le -turn movement overlap. The safety risks resul ng from pedestrian-vehicle interac on will undoubtedly be higher than with the exis ng configura on as opening the intersec on to pedestrians creates conflict points. This is of par cular concern with the dual unprotected right turn vehicle movements for the eastbound right turn and southbound right turn. The southbound right-turn movement has a large volume of traffic travelling at higher speeds around the obtuse angle of that corner. While the risks of a collision with pedestrians will undoubtedly increase from zero, they will not be any greater than the risks of pedestrian-vehicle interac ons that currently exist at other major intersec ons in Winnipeg. The risk will be mi gated by using leading pedestrian walk intervals that have been shown to enhance pedestrian safety at Main and Broadway and are being considered for other intersec ons in downtown Winnipeg. There are risks in crea ng an unusual intersec on that does not meet driver expecta ons by being inconsistent with other intersec ons in Winnipeg. This scenario would be created if only some of the pedestrian crosswalks were opened, or if the pedestrian crosswalks were located at unusual loca ons. The preferred alterna ve largely avoids this poten al problem by proposing that all four pedestrian crosswalks be opened and located as close to the intersec on box and stop lines as possible. This will make Portage and Main consistent with other large intersec ons by ensuring that pedestrians are directed to cross the street where drivers naturally expect them to and know to look for them. The current configura on is par cularly unsafe when pedestrians jaywalk across Portage or Main, either midblock where the barriers end or some mes even by jumping over the barriers. Drivers are not expec ng to encounter any pedestrians at this intersec on currently and so may not see them un l it is too late to avoid a collision. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 49 Despite proposing to extend the sidewalk in the southeast corner further into the intersec on to ghten up the overall footprint of the intersec on box, Portage and Main will remain a par cularly large intersec on. This presents risks to slower pedestrians naviga ng the long crossing distances and poten ally being stranded on the median or le in the middle of the intersec on while traffic receives a green light. This can be mi gated by providing countdown signals to give pedestrians a clear indica on of how much crossing me they have, and by designing adequate space for pedestrian refuge in the medians. Under the current configura on, many pedestrians have reported feeling unsafe walking through the underground concourse on evenings and weekends outside of business hours when the concourse is largely empty. The mazelike nature of the tunnels, especially to those who are unfamiliar with them, prevents people from having a full view of their surroundings. Perceived safety will be improved by allowing people to cross at street level where there are longer sightlines and more “eyes on the street”, both from other pedestrians and travellers in vehicles. Regardless of the infrastructure alterna ve selected, wayfinding signage both at ground level and in the concourse should be reviewed and improved to provide pedestrians with clear direc ons and inform them of the route choices available to them to cross the intersec on. Pedestrians who use wheelchairs or other mobility aids that cannot navigate on stairs or escalators currently experience significantly longer travel mes to cross Portage and Main than able-bodied pedestrians do, as shown in Sec on 2.4. Some of the elevators these pedestrians require are located in private buildings that are not open 24 hours a day, preven ng people from crossing the intersec on at all hours if they cannot navigate stairs or escalators. When there are mechanical issues with the escalators and elevators in the underground concourse, pedestrians who rely on this infrastructure are unable to cross the intersec on. Universally designed pedestrian infrastructure at ground level will be accessible to all pedestrians at all mes. Opening Portage and Main to pedestrians will both increase travel mes and decrease the reliability for the vehicular movement of goods or people through downtown Winnipeg. The intersec on will operate closer to maximum capacity at peak periods and small disrup ons may cause larger ripple effects to the traffic network downtown. While this is undoubtedly a risk for those who travel exclusively by vehicle, reconfiguring Portage and Main will improve the movement of people by mul ple modes. Infrastructure that is more conducive to walking may encourage a modal shi from vehicular trips and make the area more a rac ve for urban living. On weekdays, there are an es mated 15,000 people within 100 metres of Portage and Main, making it the densest area of the city. Any improvements to peoples’ access to transit, walking, and biking around Portage and Main have the poten al to result in a significant impact on the number of single-occupant vehicles driven to the area. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 50 8.0 Conceptual Design 8.1 Methodology In prepara on for a conceptual design of a recommended alterna ve, Dillon procured background data from the City of Winnipeg. This included: • LBIS – CAD files for loca on of right-of-way, selected City underground u li es such as watermain/sewermain. • Underground Structures Branch procured record drawings – mainly digi zed hard copies of projects constructed in the public right-of-way. This also included a few CAD based drawings of various levels of detail. Note that these drawings generally had no informa on on the underground concourse or barrier wall construc on. • Municipal Accommoda ons Branch procured drawings – digi zed hardcopies of what appears to be the circa 1976 construc on plans for the concourse, as well as 360 Main Street (Winnipeg Square). They do not appear to be record drawings from a er construc on, so some changes may have been made during construc on. Some CAD files were also present, including floor plan and sub-floor plans of the adjacent buildings (some plans are confiden al and the informa on was not u lized). These drawings were invaluable in determining the structure and founda on of the barrier walls, and the walking paths used in the pedestrian analysis. As the focus of the study is on transporta on planning analysis, and the design was to only be at a level for a Class 4 es mate, the data sources above were deemed sufficient. Site visits supplemented the drawings to ground truth design items and the subsequent cost es mate. The various City-provided CAD drawings were used to develop a base plan of the exis ng condi ons. This is shown on Figure 19. Exis ng lane widths, medians, and sidewalk loca ons were determined from the CAD drawings, ortho-rec fied photos, and digi zed hard copy plans. The main guidelines used for subsequent conceptual design included: • Transporta on Associa on of Canada’s Geometric Design Guide for Canadian Roads (TAC) • City of Winnipeg – Transporta on Standards Manual (2012 Dra ) (TSM) • AASHTO Roadside Design Guide (RSDG) In a complex and busy urban environment, TAC is not always an appropriate guide; hence the TSM would take precedence as required. An example of this is that Table 5.3 of the TSM is used for clear zone from the edge of the travelled vehicle lane to a fixed object. Both Portage and Main in the study area are posted at 50 km/hr., hence a minimum clear zone of 2.5 m and a desirable of 3.5 m is the goal. In all cases, design engineering best prac ces were employed at the conceptual level. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 T MAIN S LOMBA RD AVE NUE REET NO TR ED AM EA VE N UE PO RT AG EA VE NU EE AS T E ER AV E T CONCOURSE FOOTPRINT (EXISTING) PIO NE E TRE CONCRETE BARRIER / RC RETAINING WALL (EXISTING) TS R PO FOR NU VE A GE TA PROPERTY LINE PROJECT SIDEWALK (EXISTING) PLANTERS / BENCHES (EXISTING) CONCOURSE ENTRANCE (EXISTING) TITLE MISCELLANEOUS STRUCTURES (EXISTING) DEPRESSED LANDING AREA PORTAGE AND MAIN MICROSIMULATION ANALYSIS DATE November 2016 PROJECT NO. 163623 FIGURE NO. EXISTING CONDITION BASE PLAN 19 52 The conceptual design is focused mainly on horizontal geometry. Basic features to make the intersec on func onal for both vehicles and pedestrians are considered. This would include sidewalks, curb ramps, roadway lanes, medians, and traffic signal pole loca ons. Features such as public art, aesthe c treatments for sidewalks, benches or other street furniture, or other place making elements are not part of the conceptual design. The conceptual design to this stage was focused on provision of quick, least cost solu ons. Note that all corners excluding the NW have marginal sidewalk width in the public right-of-way. This is especially evident in the property corners of the SE and SW corners. However, the sidewalk area spans onto private property, implying there are agreements in place unknown to Dillon Consul ng Limited that the public can use the private plazas to traverse the area. The func onal designs do not address this issue. 8.2 Alternatives 1-3 Alterna ves 1 through 3 as defined by the City did not include any geometric changes to the intersec on (barring the removal of barriers and addi on of crosswalks). Therefore, no specific design drawing was produced. Curb ramp (and thus crosswalk) loca ons for the NE, SW, and NW corners would be similar to that shown in Alterna ve 4 or 5. However, the SE corner is problema c. The staircase and associated barrier is at back of curb, preven ng access to the op mal loca on for the east side crosswalk. The depressed pa o area also blocks access to curb ramp loca ons for both the west and south crosswalks. If the SE corner geometry was le as is, it would force pedestrians to walk on a narrow sidewalk in the former planter area immediately adjacent to northbound traffic on Main Street. There is also no escape route for pedestrians as the planter wall adjacent to the depressed pa o would have to remain to protect pedestrians from the drop off. As noted previously, barrier walls would have to remain to protect pedestrians from falling into the depressed pa o, and into the staircase. These same barriers then remain within the clear zone, but would require new end treatments or crash a enua on as they would no longer be con nuous as in their current situa on. The SE corner is not func onal in its current geometry and layout to open the intersec on to pedestrians. This was a major impetus to create Alterna ves 4 and 5. 8.3 Alternative 4 Alterna ve 4 (ul mately the recommended op on) is shown on Figure 20. The key component to this alterna ve is the elimina on of the NBR movement, which allows the SE corner sidewalk to be built out away from the staircase. Partnered with this is the raising of the depressed pa o to create pedestrian space. The details of this design are described below by intersec on quadrant. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 T MAIN S LOMBA RD AVE NUE REET NO TR ED AM EA VE N UE PO RT AG EA VE NU EE AS T E TS R PO FOR NU VE A GE TA CURB (EXISTING) SIDEWALK (NEW) PROPERTY LINE PLANTERS (EXISTING) CONCRETE BARRIER / RC RETAINING WALL (EXISTING) CONCOURSE ENTRANCE (EXISTING) CONCRETE BARRIER / RC RETAINING WALL (NEW) MISCELLANEOUS STRUCTURES (EXISTING) ER AV E T SIDEWALK (EXISTING) E TRE CURB (NEW) PIO NE PROJECT TITLE CONCOURSE FOOTPRINT (EXISTING) DATE November 2016 PORTAGE AND MAIN MICROSIMULATION ANALYSIS CONCEPTUAL DESIGN OPTION 4 (RECOMMENDED) PROJECT NO. 163623 FIGURE NO. 20 54 8.3.1 Northeast Corner • Virtually full removal of the barriers and associated planters is possible. • No changes to EB traffic lanes. • The staircase structure adjacent to WB Portage Avenue is immediately adjacent to back of curb. This presents a fixed, immoveable object within the clear zone (See Figure 21). It does not currently have any protec on for motorists. It is recommended that a new concrete barrier wall with sloped end treatment be constructed. This would match the aesthe cs of the exis ng staircase structure (and any other remaining wall sec ons) and provides a quick and low cost solu on. This is similar to that employed as end treatments for F-Shape concrete barriers on the Osborne Bridge or the Provencher Bridge. • The north and east crosswalk curb ramps can be sufficiently separated from each other to provide separate pedestrian wait areas. The plaza in front of the Richardson building provides an open environment with li le pedestrian conges on expected. 8.3.2 Southeast Corner • Elimina on of the NBR movement allows the sidewalk to be pushed out into the former roadway area. The acute angle for the exis ng NBR required a very large amount of area to accommodate vehicles. Without this movement, the sidewalk space can be greatly enlarged. This shortens the pedestrian crossing distance, which assists in reducing signal me needed for pedestrian crossings. This also provides the necessary space for traffic signal poles. • Elimina on of the NBR converts all NB lanes into through lanes, increasing capacity of the NBT movement. • The depressed pa o area must be eliminated. (See Figure 22 and Figure 23). This allows for con nuous walking paths from the sidewalks along the east leg of Portage and south leg of Main Street to reach the curb ramps and crosswalks. Elimina ng the pa o allows for all the barrier walls along Main Street to be demolished and removed. • Elimina ng the pa o requires the staircase to be extended upward to sidewalk level. This is likely an addi onal six to seven stairs, which then requires the barrier walls on either side to be extended in parallel. These walls are required for a achment of handrails, and so that pedestrians do not fall into the staircase area from the sidewalk. • The World War I memorial and base can remain in its exis ng loca on. The nearest edge is approximately 2.9 m from the travelled lane, which is out of the clear zone. • As the staircase requires barrier walls to remain, these walls would be within the clear zone of EB Portage Avenue traffic. In addi on, the staircase blocks pedestrians from accessing the sidewalk along EB Portage. Therefore, Alterna ve 4 includes a sidewalk extension to the north, reducing the EB through lanes from two to one. This provides approximately 2.1 m of space between the remaining EB through lane and the nearest edge of the staircase barrier. This is less than the minimum specified City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 55 clear zone, thus protec on is warranted. However, the curvilinear arrangement of the staircase gets the blunt end of the wall well outside the clear zone. It is doub ul that the curve replicates any recommended flare rate from the RSDG, but in this urban environment, a design excep on may be warranted so end protec on is not recommended. In detailed design, the barrier curve may be able to be modified to a more acceptable flare; however this would nega vely impact the pedestrian space. • The sidewalk extension to the north creates a protected curb lane that could be used for permanent parking (or loading/food truck/special event vehicles) immediately to the east of the intersec on adjacent to the BMO building. The length of this poten al permanent parking should be reviewed by the Traffic Management Branch in terms of downstream effect on storage for the EB movement approaching the Westbrook Street intersec on. • With these changes, the south and east crosswalk curb ramps can be sufficiently separated from each other to provide separate pedestrian wait areas. Sidewalk space is s ll somewhat constrained by the proximity of the staircase, but is be er than in Alterna ve 5. Figure 21 – Staircase Structure Adjacent to WB Portage Avenue on NE corner City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 56 Figure 22 – Depressed Patio Area on SE corner Source: Google Maps Streetview Figure 23 – Depressed Patio Area - Existing Staircase on SE corner City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 57 8.3.3 Southwest Corner • No geometric changes are proposed to the sidewalk. Complete removal of barriers/planters is included. • EB traffic lanes reconfigured to accommodate reduc on of far side EB through lanes from two to one. Would include two right turn lanes, a single through lane (with buses exempted so they can turn le ) and two le turn lanes. Lane addi on from four EB lanes to five EB lanes between Fort and Portage remains unchanged (See Figure 24). • The traffic signal controller is in this quadrant and would need to be relocated adjacent to the property line to prevent errant SB vehicles from colliding with it (it was previously protected by the barrier). • The exis ng EBR radius allows for good separa on between the curb ramps for the south and west crosswalks. Sidewalk area is s ll limited compared to the other three corners due to 360 Main Street having a zero setback from the property line. Figure 24 – Portage and Main Eastbound Approach Source: Google Maps Streetview 8.3.4 Northwest Corner • No geometric changes are proposed to the sidewalk. Most of the barriers/planters can be removed. • No changes to SB traffic lanes. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 58 • Similar to the NE corner, the staircase structure adjacent to WB Portage Avenue is immediately adjacent to back of curb. This presents a fixed, immoveable object within the clear zone (See Figure 25). It is recommended that a por on of the exis ng concrete barrier wall remain and a sloped end treatment be constructed. This would match the aesthe cs of the exis ng barrier adjacent to the staircase structure and provide a quick and low cost solu on. The end treatment would be of a distance not to block the west crosswalk. • The north and west crosswalk curb ramps can be sufficiently separated from each other to provide separate pedestrian wait areas. The plaza in front of 201 Portage Avenue provides adequate room for pedestrians and street furniture. The building also has an open air arcade where pedestrians can travel through (note that this is solely within private property). Figure 25 – Fixed Staircase Structure on NW corner 8.4 Alternative 5 Alterna ve 5 is shown on Figure 26 and is very similar to Alterna ve 4. Like Alterna ve 4, it eliminates the NBR movement, and raises the depressed pa o to create pedestrian space. However, instead of elimina ng the EB curb lane at the far side of the intersec on, it eliminates the EB median lane, resul ng in a different EB lane arrangement between Fort and Portage. The details of this design are described below by intersec on quadrant. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 T MAIN S LOMBA RD AVE NUE REET NO TR ED AM EA VE N UE PO RT AG E AV EN U EE AS T E TS R PO FOR NU VE A GE TA PIO TRE NE SIDEWALK (EXISTING) CURB (EXISTING) SIDEWALK (NEW) PROPERTY LINE PLANTERS (EXISTING) CONCRETE BARRIER / RC RETAINING WALL (EXISTING) CONCOURSE ENTRANCE (EXISTING) CONCRETE BARRIER / RC RETAINING WALL (NEW) MISCELLANEOUS STRUCTURES (EXISTING) ER A VE ET CURB (NEW) PROJECT TITLE CONCOURSE FOOTPRINT (EXISTING) DATE November 2016 PORTAGE AND MAIN MICROSIMULATION ANALYSIS CONCEPTUAL DESIGN OPTION 5 PROJECT NO. 163623 FIGURE NO. 26 60 8.4.1 Northeast Corner • Virtually full removal of the barriers and associated planters is possible. • No changes to EB traffic lanes. • With the elimina on of one of two EB through lanes in the SE corner of the intersec on, the WB lanes could be shi ed south. The staircase structure adjacent to WB Portage Avenue would then be offset from back of curb, but s ll within the clear zone. Thus, a new concrete barrier wall similar to Alterna ve 4 would s ll be required. • Crosswalk alignments and loca ons are similar to Alterna ve 4. 8.4.2 Southeast Corner • As with Alterna ve 4, elimina on of the NBR movement allows the sidewalk to be pushed out into the former roadway area, enlarging the sidewalk space. • Elimina on of the NBR converts all NB lanes into through lanes, increasing capacity of the NBT movement. • As with Alterna ve 4, the depressed pa o area must be eliminated and the staircase extended upwards. The World War I memorial and base can remain in its exis ng loca on. • In Alterna ve 5, the EB far side median lane is eliminated and the far side median widened. The geometry is adjusted, which results in the staircase barrier s ll immediately adjacent to the remaining EB lane. Thus, the staircase wall barrier is within the clear zone of EB Portage Avenue traffic. In addi on, the staircase blocks pedestrians from accessing the sidewalk along EB Portage compared with Alterna ve 4. • The curvilinear arrangement of the staircase gets the blunt end of the wall approximately 4.8 m from the travel lane, which is outside the clear zone. As with Alterna ve 4, it is doub ul that the curve replicates any recommended flare rate from the RSDG, but in this urban environment, a design excep on may be warranted so end protec on is not recommended. In detailed design, the barrier curve may be able to be modified to a more acceptable flare. This would not further affect the pedestrian space as the staircase already blocks the sidewalk along EB Portage. • The geometry is shown to create a protected curb lane east of the intersec on similar to that in Alterna ve 4. • With these changes, the south and east crosswalk curb ramps can be separate, but are in close proximity. The staircase is immediately adjacent and when congested, may be difficult or even dangerous to navigate for persons with visual impairments. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 61 8.4.3 Southwest Corner • EB traffic lanes reconfigured to accommodate reduc on of far side EB through lanes from two to one. This would include a right turn lane, a shared thru and right lane, and a triple le turn lane. Lane addi on from four EB lanes to five EB lanes between Fort and Portage would be modified so that the median lane becomes the op on lane, which is more typical when a le turn lane is added to the near side of an intersec on. Note that this alterna ve eliminates the benefit to Transit of using the third lane for le turning buses. Buses must now share the lane with the heavy le turn volume of vehicles. • There are some minor concerns with driver unfamiliarity with a triple le turn, however this is not expected to func on any less effec vely than the current configura on. A triple le turn configura on exists at a few other high-volume loca ons in Winnipeg, notably WB Bishop Grandin Boulevard at Pembina Highway, NB Kenaston Boulevard at Sterling Lyon Parkway, and EB Sterling Lyon Parkway at Kenaston Boulevard. • Other features are iden cal to Alterna ve 4. 8.4.4 Northwest Corner • Iden cal to Alterna ve 4. 8.5 Conceptual Structural Design A desktop structural review was undertaken of the planter walls and suppor ng structure to be able to produce a Class 4 cost es mate. Sources of informa on include the 1976 construc on drawings, a site visit on July 28, 2016 while concourse roof water leak repairs were taking place in the north-west corner, and site photos. Following is a summary of the observed condi ons and likely modifica ons to remove the planters and construct sidewalk described for each quadrant of the intersec on. Excerpts from the 1976 construc on drawings are u lized as figures in this sec on of the report. Note that for all quadrants, new street lights and traffic signals must be founded on piers connec ng on top of the exis ng concourse roof, preferably on concourse walls. If outside the concourse area, standard piles can be used. 8.5.1 Northeast Corner The northeast corner structure appears to be the same as shown in the 1976 drawings. Planter walls are either founded on piers that extend to the concourse roof or on piles. The removal of the planter walls can be done as outlined in the south-west corner discussion. 8.5.2 Southeast Corner The depressed “pa o” area in front of the BMO building leading to the staircase to the underground concourse is the main structural issue of the en re project (see Figure 27). As it is lower than the street grade, a new structural slab must be constructed at sidewalk eleva on. There are two exis ng structural City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 62 slabs, with a 10” thick slope slab spanning between 3’ 0” deep slope beams and 10” thick horizontal slab spanning between 10” walls on 3’ 0” deep slope beams with a 7” thick topping on top of a 3” thick insula on. The slope slab would be retained. The slab @ eleva on 96’ 4” including topping and the insula on are to be removed. The walls on slope beams are to be extended to support a new slab @ eleva on 99’ 3”. New walls would be added for stair extension framing. Since the new loading is approximately the same as the exis ng loading, the exis ng structure should be able to carry the new loading without addi onal reinforcement. However, it is recommended that the exis ng structures be assessed due to updated building code requirements. Figure 27 – Southeast Corner City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 63 8.5.3 Southwest Corner The underground layout leading to Winnipeg Square has been modified from its 1976 design based on a review of those drawings as compared to a site visit of the Square. The planter walls, however, are the same as shown on the original drawings. The majority of the planter walls are founded on 1’ x 2’ piers dowelled into the roof structure, while the rest are founded on 16” piles. Removal of these planter walls can be done by cu ng them off at the base of the walls. Proper repair and modifica on is required to prevent rus ng of the remaining wall reinforcement (see Figure 28). Figure 28 – Southwest Corner 8.5.4 Northwest Corner The area along the northwest corner appears to have been modified from its original design when compared to the 1976 construc on drawings. This likely occurred during the construc on of 201 Portage Avenue. The majority of the above ground exterior planter walls appear similar to the original drawings. This exterior planter wall, based on the original drawings (see Figure 29), is the extension of City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 64 the wall below. Removal of this wall can be done by cu ng off the top of the wall below grade. Exact exis ng condi on requires further inves ga on prior to detailed design to ensure that the wall has horizontal restraint since it is not believed to be designed as a can levered wall. Addi onal structural reinforcement may be needed. The northern por on of the exterior planter walls are on piles (Figure 29 below). The structure of the interior planter wall is unknown. During the site visit on July 28, there was repair work being carried out. Based on an interview with construc on personnel, the depth of the soil in the planter is approximately 4’ 0” with 1’ 0” of rock on top of what appears to be a concrete slab. Back calcula on of the eleva on indicates that this slab is approximately at 97’ 6”. Therefore, it is believed that the interior planter walls are connected directly onto top of the underground roof. Removal of the wall can be performed by cu ng off the wall at its base. Figure 29 – Typical Planter Walls on Piles City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 65 9.0 Cost Estimation A Class 4 cost es mate (-30% to +60% intended accuracy to final cost) was prepared for the preferred alterna ve as described in Sec on 8.0. As this is a high level conceptual design and there are many unknowns regarding the configura on of the exis ng underground infrastructure, this cost es mate contains substan al con ngencies on all costs. The total construc on cost for the project is es mated at $6,130,000.00. With more detailed engineering design in the future, the projected costs will be known with increased certainty. However, due to the age of the structure, it is possible that any deteriora on may not be discovered un l excava on and demoli on of the barriers begins. The cost es mate for the different components of the project is summarized in Table 16 and a more detailed breakdown is included in Appendix C. The costs of the roadworks, land drainage system, watermains, electrical, and telecommunica ons were all es mated based on comparisons to historical costs in recent infrastructure projects in Winnipeg undertaken by Dillon Consul ng. Due to the complex and unique nature of the structural work, costs were es mated based on representa ve projects from outside the province of Manitoba. The es mates for traffic signals were provided by the City of Winnipeg Traffic Signals Branch and the es mates for Hydro infrastructure were derived from informal conversa ons with Manitoba Hydro. Table 16 – Class 4 Construction Estimate PORTAGE AVENUE AND MAIN STREET TRANSPORTATION STUDY CLASS 4 CONSTRUCTION COST ESTIMATE - 2016 DOLLARS Item Total Cost Construction (by Major Components) Roadworks $620,000.00 Structural $1,350,000.00 Land Drainage System $100,000.00 Watermains $85,000.00 Electrical $100,000.00 Subtotal $2,255,000.00 Utility Costs Traffic Services & Traffic Signals $310,000.00 Hydro - Power Distribution $150,000.00 Hydro - Street Lighting $90,000.00 Hydro - Gas $50,000.00 MTS $100,000.00 Shaw $50,000.00 Subtotal Engineering City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 $750,000.00 66 Item Total Cost Detailed Design 8% $241,000.00 Contract Administration 8% $241,000.00 Subtotal $482,000.00 Project Subtotal Before Contingencies $3,487,000.00 Land Acquisition $0.00 Contingencies Construction 60% $1,353,000.00 Utilities 60% $450,000.00 Engineering 60% $290,000.00 Land Acquisition 0% $0.00 Other 5% $175,000.00 Contingency Subtotal $2,268,000.00 Project Subtotal After Contingencies $5,755,000.00 City Overhead and Administration 6.5% $375,000.00 Total Project Construction Cost $6,130,000.00 Transit Capital Cost* $5,500,000.00 Total Project Cost $11,630,000.00 *Provided by the City of Winnipeg This cost es mate is comprehensive of the basic work that is an cipated to be required to construct the preferred alterna ve. However, it should be noted that there are a number of poten ally desirable items that are not included in the cost es mate: • Overhead sign structures (the exis ng structures are far enough back from the intersec on to remain unaffected); • Hea ng and hoarding costs for winter construc on work; • Waterproofing or repairs to the exis ng concourse that may be discovered during construc on; • Addi onal cost to Winnipeg Transit to purchase and maintain addi onal buses to maintain exis ng service levels. Winnipeg Transit has es mated their annual opera ng requirements to maintain current bus service and minimize impact on passengers is es mated to be 12.5 addi onal Full Time Equivalent posi ons and $1,866,000 annually in opera ng costs; and, • Costs for land acquisi on (if needed) are not included. The cost es mate assumes the construc on of a fully func onal but standard level of infrastructure at Portage and Main. This would be comparable to recent roadworks on St. Ma hews Avenue near Empress Street as shown on Figure 30. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 67 Figure 30 – Recent Roadworks – St. Matthews Avenue and Empress Street Given the prominence of Portage and Main as both the symbolic and prac cal centre of downtown and Winnipeg as a whole, considera on should be given to incorpora ng decora ve and signature elements into the reconfigura on of the intersec on. Heritage light fixtures, street furniture, and public art could be considered in order to transform Portage and Main into a signature focal point. This could include an aesthe c con nua on of the heritage themed streetscaping on Portage Avenue and Main Street west and north of the intersec on, or a different theme akin to the Sports, Hospitality, and Entertainment District (SHED) around the MTS Centre. Some of these features are illustrated on Figure 31. In either case, the cost es mates do not account for aesthe c treatments or features such as these. The focus of the current assignment was on provision of quick and least cost solu ons to enable the project to proceed on an accelerated meline. Figure 31 – Potential Streetscape Elements City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 68 10.0 Schedule A high level aggressive schedule for detailed design and construc on of the preferred alterna ve is shown on Figure 32. The schedule assumes a start date of November 1, 2016 and u lizes a tradi onal Design-Bid-Build approach, which is typical of most City of Winnipeg projects. The meframes of the component tasks were determined based on the past experience of the project team working on similar infrastructure projects for the City of Winnipeg. The en re project is an cipated to take 12.5 months from commencement un l comple on. The north and west crosswalks would be able to open a month earlier than the south and east crosswalks due to the more extensive structural work required on the southeast corner. Note the following regarding the schedule: • The design and construc on meframe for third-party u li es such as Manitoba Hydro or MTS is unknown. There is schedule risk as these meframes (and costs) are outside the City’s control. The short lead me illustrated adds risk as the u li es may not have the resources to meet the schedule. • It is assumed that the curb lanes and all sidewalks can be closed simultaneously on all four quadrants of Portage & Main. Pedestrians would be able to access the concourse excluding the SE (BMO) external staircase for most of the construc on meframe. • The schedule does not account for addi onal me needed to obtain construc on permits, nego a on or staging to accommodate adjacent businesses and private property • There is schedule risk in that repairs or waterproofing may be required for the concourse roof a er excava on begins and it can be inspected. • As with the cost es mate, the schedule assumes the construc on of a fully func onal but standard level of infrastructure at Portage and Main. Heritage elements, street furniture, and public art, if included, would add me to the overall project schedule in order to design, source and order/construct custom fixtures and appurtenances. Winnipeg Transit provided the following addi onal informa on on the schedule: • In order for Winnipeg Transit to implement changes to schedules of routes travelling through Portage and Main, lead me of a minimum of five months is required. • In order for Winnipeg Transit to order and purchase addi onal buses, lead me of a minimum of six months is required. Transit also does not currently have garage space to store addi onal buses. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 69 There is poten al to shorten the meframe required to complete the project. Strategies to speed the comple on could include: • Strike a steering commi ee comprised of all adjacent building owners, City Departments, and third party u li es. Members must be empowered to make decisions and direct staff to focus on project and “fast track” all aspects. • Use an alterna ve delivery model such as a “cost plus” assignment to a consultant and same to a contractor. This would allow for demoli on to begin while the structural/road design is s ll underway. • Authorize the City manager to fast track all processes and reviews. Allow the Manager or Department Director to direct assign work (versus compe ve bid) and approve addi onal expenditures as necessary. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 70 Figure 32 – Design and Construction Schedule City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 71 11.0 Conclusions Under the exis ng condi on at Portage and Main pedestrians are currently prohibited to cross the intersec on at ground level via signage and physical barriers. They must instead make their way through an underground concourse via a series of circuitous paths to return to grade on the other side. This is an inconvenient situa on for both able-bodied and mobility-challenged residents alike. Those with mobility issues are especially disadvantaged due to the need to use several elevators and li s (or nego ate several staircases). These facili es are located inside of the underground concourse, which is not always open or the devices some mes suffer mechanical breakdowns, rendering it impossible for those with mobility issues to cross the street. To analyse the effects of restoring the pedestrian crossings on the auto, truck, bus, and pedestrian travel modes in the area, Dillon created a detailed and accurate transporta on microsimula on model. Dillon worked with the City of Winnipeg’s assembled TSC to determine a set of comprehensive, but not overly complex set of measures of effec veness with which to analyse the effects of the changes across mul ple alterna ves. Analysis of alterna ves for the intersec on was performed in two phases. Phase 1 examined three Cityproposed alterna ves that presented alterna ves for the crossings and signal controls at the intersec on. The TSC selected a preferred alterna ve from this first set of three alterna ves, which included full opening of all pedestrian crossings and allowed for permi ed right turns by vehicles. The Phase 2 alterna ves built upon the Phase 1 preferred alterna ve and examined physical changes to the intersec on and realloca on of turning movement lanes. Two alterna ve treatments were created by Dillon for analysis. The TSC examined the results of the model runs and selected a preferred alterna ve. The preferred alterna ve eliminates the northbound right turn at Portage and Main and also removes the curb lane from the depar ng direc on of the eastern leg of the intersec on. The alloca on of the turning movements for eastbound vehicles was also slightly adjusted. Sensi vity analysis for the preferred alterna ve was performed with respect to changes in the forecasted pedestrian volume crossing at Portage and Main. The sensi vity tests reduced and increased the pedestrian crossing volume to create five separate scenarios (-10%, +10%, +25%, and +50%) for comparison. As can be expected, increases in pedestrian volume will generally increase the travel me for vehicles making le or right turn movements at the intersec on. Overall roadway opera ons are rela vely unaffected with increases generally contained to the individual turning movements. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 72 A qualita ve review of safety at the intersec on was undertaken and produced a number of points worthy of considera on by the City: • Leading Pedestrian Intervals will be a benefit to the safety and comfort of pedestrians traversing the intersec on. These have been implemented elsewhere in the City. As of the me of this wri ng, the City is conduc ng tests on the signal controller equipment at Portage and Main to judge its suitability for use of LPIs. • The interac on of pedestrians in the crosswalks and turning vehicles is poten al safety risk. The City should take care to protect pedestrians and lengthen sight lines for vehicles wherever possible. • Consistency with driver expecta ons is important to maintain. Having all crosswalks open at Portage and Main (as opposed to none or some) will serve to make the intersec on consistent with all other intersec ons in the city and reduce unexpected elements for drivers. • Even with some reduc ons in the number of lanes on the eastern leg of the intersec on, Portage and Main is s ll a very large intersec on. The City should keep pedestrians with mobility issues in mind when designing the intersec on and implemen ng signal phasing/ ming in the field. • The underground concourse presents some concern for late night use in crossing Portage and Main currently. The paths through the underground facili es are circuitous and may not always be open or func onal, which presents inconvenience and risk for late night pedestrians or those with mobility issues. Restora on of the at-grade crosswalks will reduce these risks and inconveniences. • There will be an increase in travel me through the area a er the crosswalks are restored, primarily to the turning movements at the Portage and Main intersec on as they must yield to pedestrians. This poses a risk to cross-city travel as conges on and variability will increase on average. This, however, should be balanced with the improvements to mobility for non-auto users and progress towards the City’s goals of a mul -modal and sustainable transporta on system. Note also, that the two major automobile movements - northbound and southbound through, represen ng 50% of automobiles – are unaffected by the changes with no difference in travel me through the study area a er the change. • Transit service will be impacted during the PM peak hour with clear increases in travel me for buses moving through the area, par cularly those that make turning movements at Portage and Main. As pedestrian volumes increase in the future at Portage and Main, the sensi vity tes ng showed that the buses proceeding southbound through at the intersec on would also see an increase in travel me due to delays to southbound right turning automobiles in a shared lane. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 73 A base plan of exis ng condi ons was created through the applica on of background data received from the City (e.g., rights-of-way, u li es, underground structures) for use in the crea on of conceptual design alterna ves for the intersec on. A total of five conceptual design alterna ves were created; Alterna ve 4 was selected as the preferred. An examina on of the structural challenges in the area was also undertaken using the 1976 construc on drawings and verified with a field visit. It was determined that the depressed pa o area in front of the BMO building is cri cal to the reconstruc on of the intersec on. Class 4 cost es mates were created for the preferred conceptual design. Class 4 es mates vary from 30% to +60% of the final construc on cost as there are s ll a number of elements needed for confirma on to further solidify the actual cost of construc on. The Class 4 cost es mate was determined to be $6,130,000 for the construc on costs and $5,500,000 for the Transit capital costs, for a total project cost of $11,630,000. This considers func onal but basic infrastructure and urban design elements. As an important focal point for the city, considera on should be given to decora ve and signature design elements for Portage and Main. Given the understanding of the design and structural elements involved in reconstruc ng the intersec on to include pedestrians, a me for construc on of 12.5 months was es mated, with a start date of November 1, 2016. This es mate assumed a tradi onal Design-Bid-Build approach to construc on and was based on the understanding of the area and the experience of the project team on similar projects. City of Winnipeg can poten ally shorten the construc on meframe with the crea on of a steering commi ee of adjacent land owners, City departments, and third party u li es; considering alternate delivery methods for the project; and/or authorising the City Manager to fast track all processes and reviews, recognizing all legal processes must be followed. City of Winnipeg Portage and Main Transportation Study September 2017 – FINAL – 16-3623 A-1 Appendix A A Volume Balancing City of Winnipeg Portage and Main Transportation StudyPortage and Main Transportation Study September 2017 – FINAL – 16-3623 Donald Street 2016 AM Peak Hour Smith Street Garry Street Fort Street Main Street Legend: Original Volumes Adjustment Volumes Total # 1 2,200 0 235 James Avenue 0 10 2,190 2,200 215 20 # 2 0 0 Market Avenue # 0 2,220 0 230 1,965 2,195 55 55 235 1,975 2,210 3 55 35 William Avenue # # # 15 # 1,135 -95 135 1,095 1,325 135 1,000 0 1,300 0 -15 1,310 1,295 5 5 1,005 Portage Avenue 0 0 1,190 1,040 150 0 1,190 0 0 0 1,295 14 # 0 0 1,190 1,295 0 0 Pioneer Avenue # 1,130 100 85 15 1,125 1,020 105 0 0 0 0 1,225 5 95 100 65 930 90 1,285 55 1,140 1,195 65 930 90 0 0 1,085 0 24 35 0 0 0 0 0 0 0 0 0 0 William Stephenson Way # 19 0 0 0 1,005 0 90 915 1,005 0 0 0 0 1,005 # 0 0 0 0 0 0 0 0 0 0 13 # 0 0 0 18 0 0 0 0 0 0 0 0 0 0 0 545 0 0 # 1,085 0 0 0 35 1,085 180 35 1,085 180 0 180 1,225 1,285 35 35 60 290 350 160 160 0 15 1,090 1,105 30 150 180 560 23 30 0 0 560 30 30 30 415 445 1,300 0 # 1,300 0 0 0 0 1,300 1,300 1,300 0 0 0 0 0 17 0 0 85 85 0 0 0 445 0 445 0 30 415 445 0 0 0 0 445 0 0 1,190 1,225 -35 30 30 0 1,220 0 0 0 1,265 0 0 1,220 1,265 # 22 0 0 0 0 0 0 0 0 0 0 0 0 85 # 0 0 21 120 0 # 0 0 0 0 0 0 0 0 0 # 0 0 16 0 0 0 20 1,340 0 945 345 365 -20 1,120 1,190 -70 0 0 0 0 1,465 0 100 600 60 1,325 55 1,210 1,265 105 600 50 0 -5 10 0 760 0 0 0 760 0 0 0 0 0 0 0 0 0 760 0 0 0 760 0 0 760 0 0 0 760 0 0 0 0 0 0 0 0 120 760 180 180 0 120 760 180 0 0 1,060 0 0 0 1,060 220 210 10 0 0 0 0 0 220 0 0 840 25 25 0 740 15 0 100 10 0 865 0 0 0 865 330 350 -20 1,215 1,215 0 0 0 0 1,545 0 125 535 0 0 0 125 655 0 -120 0 660 0 0 0 # 0 7 # 8 # 0 0 0 0 170 1,845 2,015 10 220 25 0 0 0 0 0 0 2,240 0 2,240 15 210 225 0 0 0 2,015 0 2,015 15 220 1,780 220 1,795 15 10 # 0 700 435 190 1,800 0 1,800 10 1,790 1,800 9 0 0 0 0 0 0 2,310 0 2,310 415 700 1,195 1,465 700 1,610 1,325 700 -5 440 190 0 0 50 50 80 230 135 2,310 0 2,310 415 1,895 2,310 0 # St. Mary Avenue 12 0 0 0 0 2,225 0 2,225 -415 2,590 2,175 80 230 135 6 0 0 Lombard Avenue 0 0 0 35 2,245 0 2,245 -275 140 2,380 140 2,105 5 0 445 McDermot Avenue Graham Avenue 4 785 0 Bannatyne Avenue 25 25 0 0 0 2,265 0 2,265 35 # 0 215 0 20 2,220 11 50 105 580 1,070 1,545 630 1,175 0 0 15 0 10 1,805 0 1,805 0 0 0 0 1,175 1,735 0 0 0 0 1,520 1,490 30 1,520 0 0 1,520 15 15 0 70 70 0 1,505 105 1,480 100 25 5 1,610 0 1,610 0 0 0 0 1,610 1,585 25 1,610 0 1,610 90 95 360 360 120 120 285 1,520 285 1,680 -160 1,805 0 0 0 1,825 30 30 0 0 0 1,795 180 1,855 180 -60 1,975 0 1,285 80 80 0 440 440 0 1,205 1,365 -160 1,205 0 1,295 0 0 0 915 1,295 915 1,410 -115 2,210 0 0 570 0 0 380 30 180 -45 70 70 0 1,205 0 0 0 0 1,205 105 1,045 105 160 1,310 0 1,310 0 0 0 0 1,295 1,265 30 1,295 0 85 130 -5 1,805 0 0 0 0 1,725 100 1,735 100 -10 1,825 0 1,975 60 60 765 810 0 0 1,215 1,250 -35 1,285 0 0 0 825 505 520 0 0 330 0 0 0 0 0 0 Donald Street 2016 PM Peak Hour Smith Street Garry Street Fort Street Main Street Legend: Original Volumes Adjustment Volumes Total # 1 1,870 0 710 James Avenue 0 35 1,835 1,870 670 40 # 2 0 0 Market Avenue # 3 60 115 William Avenue 0 110 1,800 1,910 60 60 120 1,850 1,970 # # Lombard Avenue # 15 # 1,095 0 -50 0 130 1,015 1,045 1,040 1,175 130 965 0 0 1,345 0 0 0 -100 1,445 1,345 0 965 0 0 Portage Avenue 14 # 0 5 0 1,045 1,345 0 0 Pioneer Avenue # 1,045 1,345 0 0 0 -10 10 0 45 1,300 1,345 0 0 1,100 0 24 0 20 0 0 0 0 20 0 20 0 0 0 William Stephenson Way # 0 19 0 0 0 965 0 50 915 965 0 0 0 0 965 # 0 0 0 0 0 0 0 0 0 0 0 0 18 0 0 895 55 955 0 90 90 0 0 0 0 0 0 0 0 0 50 915 5 40 840 840 1,010 170 1,515 165 5 0 # 700 5 265 1,010 270 1,515 0 -10 1,420 1,410 105 105 505 30 30 0 0 # 1,100 50 50 0 0 0 1,030 1,030 13 50 0 10 390 400 23 0 60 0 505 0 505 505 60 1,030 0 # 1,030 0 0 0 0 1,030 1,030 1,030 0 0 0 0 0 17 0 0 0 0 0 60 625 0 625 0 625 625 0 0 0 0 625 0 0 980 0 0 10 0 980 1,680 0 0 980 1,680 # 22 0 0 0 0 0 0 0 60 0 60 0 0 60 0 # 0 0 0 0 0 0 0 0 0 0 0 0 -25 1,705 1,680 0 0 0 0 0 0 21 0 120 # 0 0 0 0 0 # 0 970 0 0 0 0 120 16 0 0 0 120 0 0 0 0 0 0 0 20 860 0 0 0 0 0 0 0 0 0 # St. Mary Avenue 12 0 0 0 0 0 0 0 0 0 0 0 0 0 0 925 255 830 0 150 150 255 820 670 600 70 10 0 70 -70 1,085 1,680 0 0 80 80 -350 2,355 2,005 0 10 -230 2,300 2,070 275 375 230 820 175 0 0 0 0 345 1,955 2,300 7 10 340 575 1,375 1,085 585 1,715 1,680 65 770 45 555 20 225 8 0 1,960 645 645 0 175 0 0 0 0 1,960 1,960 525 525 0 0 0 9 0 0 # 70 450 450 0 285 1,845 2,130 10 75 45 0 0 75 45 75 75 20 2,035 2,055 30 15 495 0 # 375 225 775 270 270 11 -20 0 980 0 0 0 980 0 240 240 0 0 0 2,130 0 2,130 5 45 35 10 0 0 0 0 2,370 0 2,370 525 0 495 225 755 0 105 105 0 835 600 245 1,960 175 # 525 75 0 0 0 0 0 0 0 2,300 0 2,300 645 0 645 0 0 0 0 60 60 285 375 230 2,300 0 2,300 820 0 # 0 0 0 0 2,130 0 2,130 6 0 0 0 0 0 115 2,085 0 2,085 5 0 890 McDermot Avenue Graham Avenue 4 495 0 Bannatyne Avenue 0 1,910 -5 5 0 0 0 0 2,030 0 2,030 115 # 0 670 0 40 1,910 0 30 0 15 2,070 0 2,070 40 350 1,680 350 1,720 0 0 0 0 1,720 3,110 0 0 0 0 2,440 2,535 -95 0 0 0 2,440 0 2,440 45 0 120 0 45 110 2,395 2,315 80 10 65 65 2,460 2,380 80 0 165 65 2,460 0 2,460 0 0 0 0 0 0 2,460 0 2,460 120 215 125 200 200 120 215 135 2,340 2,215 125 -10 460 0 0 2,540 0 2,540 0 0 0 0 2,255 2,510 -255 40 40 35 5 0 475 2,295 0 2,295 40 0 0 0 2,255 2,085 170 40 130 130 125 5 2,385 0 2,385 125 500 0 0 115 520 10 -20 1,425 1,300 125 45 45 625 645 1,470 0 1,470 55 0 410 0 55 435 1,415 1,300 115 -25 465 0 0 1,415 0 1,415 0 0 0 0 1,415 1,170 245 0 250 490 250 1,665 0 1,665 0 0 0 0 1,635 1,415 220 0 0 0 1,635 1,420 215 0 0 0 1,635 0 1,635 0 0 0 630 630 2,265 B-1 Appendix B B Model Calibration Results City of Winnipeg Portage and Main Transportation StudyPortage and Main Transportation Study September 2017 – FINAL – 16-3623 2016 AM Peak Hour TURNING VOLUME LINKS VOLUME STATISTICS Location Movement From To COUNT MODEL DIFF % DIFF GEH 1 NBT 18 17 1570 1514 -56 -3.6 1.4 1 1 1 2 2 2 2 2 2 3 3 3 4 4 4 4 4 4 4 5 5 5 5 5 5 5 6 6 6 7 7 7 7 7 7 7 7 7 8 8 8 8 9 9 9 9 10 10 10 10 10 10 11 11 11 11 12 12 12 12 12 12 13 13 SBT EBL EBR NBT NBR SBL SBT WBL WBR SBT SBR EBR NBL NBT SBT SBR WBL WBT WBR NBT NBR SBL SBT EBL EBT EBR NBT NBR WBR NBT NBR SBT SBR EBL EBT EBR WBT WBR NBT SBT WBL WBR NBT NBR SBL SBT NBL NBT SBT SBR EBL EBR NBL NBT SBT SBR NBL NBT NBR EBT WBT WBR SBL SBT 16 15 15 102 102 12 12 99 99 109 109 49 20 20 262 262 94 94 94 104 104 7 7 55 55 55 105 105 91 264 264 24 24 42 42 42 52 52 32 30 122 259 34 34 31 31 36 36 33 33 71 71 6 6 263 263 62 62 62 43 108 108 88 88 13 17 13 18 96 96 109 109 18 110 50 110 10 103 8 10 8 10 103 21 92 92 24 21 92 24 104 90 104 105 25 27 107 105 25 27 107 105 26 31 31 26 32 117 117 33 70 34 106 70 34 106 63 38 4 63 53 5 42 42 53 5 43 133 2250 220 25 1550 105 25 2250 90 20 2255 120 45 290 1560 2165 145 120 365 95 1765 100 50 2235 85 235 145 1830 190 35 1225 70 1655 725 725 450 210 795 70 1210 1865 450 85 1210 110 245 2070 0 1305 1850 220 15 10 940 1305 1220 640 115 615 70 1315 1155 365 165 355 2253 220 25 1492 102 25 2254 90 20 2282 66 30 271 1500 2165 145 126 363 95 1726 97 52 2240 85 234 145 1790 185 35 1181 80 1663 721 727 436 211 790 71 1175 1874 450 86 1174 101 244 2081 0 1267 1849 235 27 10 898 1267 1224 631 110 601 59 1314 1140 371 167 314 3 0 0 -58 -3 0 4 0 0 27 -54 -15 -19 -60 0 0 6 -2 0 -39 -3 2 5 0 -1 0 -40 -5 0 -44 10 8 -4 2 -14 1 -5 1 -35 9 0 1 -36 -9 -1 11 0 -38 -1 15 12 0 -42 -38 4 -9 -5 -14 -11 -1 -15 6 2 -41 0.1 0.0 0.0 -3.7 -2.9 0.0 0.2 0.0 0.0 1.2 -45.0 -33.3 -6.6 -3.8 0.0 0.0 5.0 -0.5 0.0 -2.2 -3.0 4.0 0.2 0.0 -0.4 0.0 -2.2 -2.6 0.0 -3.6 14.3 0.5 -0.6 0.3 -3.1 0.5 -0.6 1.4 -2.9 0.5 0.0 1.2 -3.0 -8.2 -0.4 0.5 0.0 -2.9 -0.1 6.8 80.0 0.0 -4.5 -2.9 0.3 -1.4 -4.3 -2.3 -15.7 -0.1 -1.3 1.6 1.2 -11.5 0.1 0.0 0.0 1.5 0.3 0.0 0.1 0.0 0.0 0.6 5.6 2.4 1.1 1.5 0.0 0.0 0.5 0.1 0.0 0.9 0.3 0.3 0.1 0.0 0.1 0.0 0.9 0.4 0.0 1.3 1.2 0.2 0.1 0.1 0.7 0.1 0.2 0.1 1.0 0.2 0.0 0.1 1.0 0.9 0.1 0.2 0.0 1.1 0.0 1.0 2.6 0.0 1.4 1.1 0.1 0.4 0.5 0.6 1.4 0.0 0.4 0.3 0.2 2.2 2016 AM Peak Hour TURNING VOLUME Location 13 13 13 13 13 14 14 14 14 14 14 14 15 15 15 15 15 16 16 16 16 16 17 18 19 20 20 20 20 21 21 21 21 22 22 23 23 23 23 23 24 24 24 24 24 Movement SBR EBT EBR WBL WBT NBL NBT NBR EBL EBT WBT WBR SBT SBR EBT EBR WBT NBT NBR WBR NBT WBR SBT NBT SBT NBL NBT WBT WBR NBL NBT NBR EBL NBT WBR SBL SBT SBR EBR WBL NBL NBT NBR EBL WBR LINKS From 88 266 266 56 56 268 268 268 47 47 265 265 112 112 273 273 45 69 69 70 69 70 134 73 80 66 66 63 63 135 135 29 142 135 137 65 65 22 130 132 123 123 123 125 128 VOLUME To 57 43 133 133 57 45 74 59 74 59 45 74 80 48 46 80 48 135 71 135 29 29 85 123 113 67 68 67 68 141 138 136 138 138 140 131 134 129 65 134 126 124 127 124 124 COUNT 35 1150 185 30 1240 65 935 90 100 1245 1175 100 1020 135 1345 5 1240 755 25 165 125 55 455 1305 1025 125 550 1225 355 120 800 180 0 800 0 85 455 30 0 0 35 1090 180 0 0 MODEL 35 1149 195 35 1216 61 934 94 100 1246 1141 109 1017 126 1343 9 1202 708 37 175 117 59 440 1295 1026 126 556 1177 310 117 767 176 0 767 0 78 440 28 0 0 35 1084 179 0 0 STATISTICS DIFF 0 -1 10 5 -24 -4 -1 4 0 1 -34 9 -3 -9 -2 4 -38 -47 12 10 -8 4 -15 -10 1 1 6 -48 -45 -3 -33 -4 0 -33 0 -7 -15 -2 0 0 0 -6 -1 0 0 % DIFF 0.0 -0.1 5.4 16.7 -1.9 -6.2 -0.1 4.4 0.0 0.1 -2.9 9.0 -0.3 -6.7 -0.1 80.0 -3.1 -6.2 48.0 6.1 -6.4 7.3 -3.3 -0.8 0.1 0.8 1.1 -3.9 -12.7 -2.5 -4.1 -2.2 0.0 -4.1 0.0 -8.2 -3.3 -6.7 0.0 0.0 0.0 -0.6 -0.6 0.0 0.0 GEH 0.0 0.0 0.7 0.9 0.7 0.5 0.0 0.4 0.0 0.0 1.0 0.9 0.1 0.8 0.1 1.5 1.1 1.7 2.2 0.8 0.7 0.5 0.7 0.3 0.0 0.1 0.3 1.4 2.5 0.3 1.2 0.3 0.0 1.2 0.0 0.8 0.7 0.4 0.0 0.0 0.0 0.2 0.1 0.0 0.0 2016 PM Peak Hour TURNING VOLUME LINKS VOLUME STATISTICS Location Movement From To COUNT MODEL DIFF % DIFF GEH 1 NBT 18 17 2490 2477 -13 -0.5 0.3 1 1 1 2 2 2 2 2 2 3 3 3 4 4 4 4 4 4 4 5 5 5 5 5 5 5 6 6 6 7 7 7 7 7 7 7 7 7 8 8 8 8 9 9 9 9 10 10 10 10 10 10 11 11 11 11 12 12 12 12 12 12 13 13 SBT EBL EBR NBT NBR SBL SBT WBL WBR SBT SBR EBR NBL NBT SBT SBR WBL WBT WBR NBT NBR SBL SBT EBL EBT EBR NBT NBR WBR NBT NBR SBT SBR EBL EBT EBR WBT WBR NBT SBT WBL WBR NBT NBR SBL SBT NBL NBT SBT SBR EBL EBR NBL NBT SBT SBR NBL NBT NBR EBT WBT WBR SBL SBT 16 15 15 102 102 12 12 99 99 109 109 49 20 20 262 262 94 94 94 104 104 7 7 23 23 23 105 105 91 264 264 24 24 42 42 42 52 52 32 30 122 259 34 34 31 31 36 36 33 33 71 71 6 6 263 263 62 62 62 43 108 108 88 88 13 17 13 18 96 96 109 109 18 110 50 110 10 103 8 10 8 10 103 21 92 92 24 21 92 24 104 90 104 105 25 27 107 105 25 27 107 105 26 31 31 26 32 117 117 33 70 34 106 70 34 106 63 38 4 63 53 5 42 42 53 5 43 133 1885 675 45 2440 65 0 1930 145 50 2010 65 120 200 2385 2045 80 130 220 120 2295 45 60 2115 290 380 240 2300 130 40 1440 45 1750 605 860 610 280 520 130 1430 2030 420 55 1430 255 265 2185 0 1655 2105 80 0 0 655 1655 1755 365 170 695 5 1745 850 275 275 410 1829 694 50 2428 63 0 1879 150 51 1965 65 120 193 2362 2012 74 151 215 127 2255 44 54 2109 301 374 285 2255 129 42 1402 48 1837 561 837 602 333 538 142 1386 2169 417 65 1385 216 194 2391 0 1601 2305 79 0 0 595 1605 1928 353 177 675 5 1769 849 250 317 398 -56 19 5 -12 -2 0 -51 5 1 -45 0 0 -7 -23 -33 -6 21 -5 7 -40 -1 -6 -6 11 -6 45 -45 -1 2 -38 3 87 -44 -23 -8 53 18 12 -44 139 -3 10 -45 -39 -71 206 0 -54 200 -1 0 0 -60 -50 173 -12 7 -20 0 24 -1 -25 42 -12 -3.0 2.8 11.1 -0.5 -3.1 0.0 -2.6 3.4 2.0 -2.2 0.0 0.0 -3.5 -1.0 -1.6 -7.5 16.2 -2.3 5.8 -1.7 -2.2 -10.0 -0.3 3.8 -1.6 18.8 -2.0 -0.8 5.0 -2.6 6.7 5.0 -7.3 -2.7 -1.3 18.9 3.5 9.2 -3.1 6.8 -0.7 18.2 -3.1 -15.3 -26.8 9.4 0.0 -3.3 9.5 -1.3 0.0 0.0 -9.2 -3.0 9.9 -3.3 4.1 -2.9 0.0 1.4 -0.1 -9.1 15.3 -2.9 1.3 0.7 0.7 0.2 0.3 0.0 1.2 0.4 0.1 1.0 0.0 0.0 0.5 0.5 0.7 0.7 1.8 0.3 0.6 0.8 0.1 0.8 0.1 0.6 0.3 2.8 0.9 0.1 0.3 1.0 0.4 2.1 1.8 0.8 0.3 3.0 0.8 1.0 1.2 3.0 0.1 1.3 1.2 2.5 4.7 4.3 0.0 1.3 4.3 0.1 0.0 0.0 2.4 1.2 4.0 0.6 0.5 0.8 0.0 0.6 0.0 1.5 2.4 0.6 2016 PM Peak Hour TURNING VOLUME Location 13 13 13 13 13 14 14 14 14 14 14 14 15 15 15 15 15 16 16 16 16 16 17 18 19 20 20 20 20 21 21 21 21 22 22 23 23 23 23 23 24 24 24 24 24 Movement SBR EBT EBR WBL WBT NBL NBT NBR EBL EBT WBT WBR SBT SBR EBT EBR WBT NBT NBR WBR NBT WBR SBT NBT SBT NBL NBT WBT WBR NBL NBT NBR EBL NBT WBR SBL SBT SBR EBR WBL NBL NBT NBR EBL WBR LINKS From 88 266 266 56 56 268 268 268 47 47 265 265 112 112 55 55 45 69 69 70 69 70 134 73 80 66 66 63 63 135 135 29 142 135 137 65 65 22 130 132 123 123 123 125 128 VOLUME To 57 43 133 133 57 45 74 59 74 59 45 74 80 48 46 80 48 135 71 135 29 29 85 123 113 67 68 67 68 141 138 136 138 138 140 131 134 129 65 134 126 124 127 124 124 COUNT 35 1470 105 0 1020 95 855 170 0 1405 1000 55 980 130 1405 0 1095 495 0 80 0 0 635 1050 980 110 290 770 250 0 575 0 120 695 175 0 515 0 60 60 0 1050 0 20 50 MODEL 36 1453 94 0 1025 96 833 205 0 1344 996 63 973 141 1343 9 1090 472 0 79 0 0 611 1066 982 107 255 731 216 0 550 0 126 550 180 0 551 0 60 60 0 1067 0 20 51 STATISTICS DIFF 1 -17 -11 0 5 1 -22 35 0 -61 -4 8 -7 11 -62 9 -5 -23 0 -1 0 0 -24 16 2 -3 -35 -39 -34 0 -25 0 6 -145 5 0 36 0 0 0 0 17 0 0 1 % DIFF 2.9 -1.2 -10.5 0.0 0.5 1.1 -2.6 20.6 0.0 -4.3 -0.4 14.5 -0.7 8.5 -4.4 100.0 -0.5 -4.6 0.0 -1.3 0.0 0.0 -3.8 1.5 0.2 -2.7 -12.1 -5.1 -13.6 0.0 -4.3 0.0 5.0 -20.9 2.9 0.0 7.0 0.0 0.0 0.0 0.0 1.6 0.0 0.0 2.0 GEH 0.2 0.4 1.1 0.0 0.2 0.1 0.8 2.6 0.0 1.6 0.1 1.0 0.2 0.9 1.7 4.2 0.2 1.0 0.0 0.1 0.0 0.0 1.0 0.5 0.1 0.3 2.1 1.4 2.2 0.0 1.1 0.0 0.5 5.8 0.4 0.0 1.6 0.0 0.0 0.0 0.0 0.5 0.0 0.0 0.1 2016 AM Peak Hour LINK VOLUMES Approach VOLUME STATISTICS Location Approach Link COUNT MODEL DIFF % DIFF GEH 1 NB 18 1570 1514 -56 -3.6 1.4 1 1 2 2 2 3 3 4 4 4 5 5 5 6 6 7 7 7 7 8 8 8 9 9 10 10 10 11 11 12 12 12 13 13 13 14 14 14 15 15 15 16 16 17 18 19 SB EB NB SB WB SB EB NB SB WB NB SB EB NB WB NB SB EB WB NB SB WB NB SB NB SB EB NB SB NB EB WB SB EB WB NB EB WB SB EB WB NB WB SB NB SB 16 15 102 12 99 109 49 20 262 94 104 7 55 105 91 264 24 42 52 32 30 122 34 31 36 33 71 6 263 62 43 108 88 266 56 268 47 265 112 273 45 69 70 134 73 80 2250 245 1655 2275 110 2375 45 1850 2310 580 1865 2285 465 2020 35 1295 2380 1385 865 1210 1865 535 1320 2315 1305 2070 25 2245 1860 800 1315 1520 555 1335 1270 1090 1345 1275 1155 1350 1240 905 220 455 1305 1025 2253 245 1594 2279 110 2348 30 1771 2310 584 1823 2292 464 1975 35 1261 2384 1374 861 1175 1874 536 1275 2325 1267 2084 37 2165 1855 770 1314 1511 516 1344 1251 1089 1346 1250 1143 1352 1202 862 234 440 1295 1026 3 0 -61 4 0 -27 -15 -79 0 4 -42 7 -1 -45 0 -34 4 -11 -4 -35 9 1 -45 10 -38 14 12 -80 -5 -30 -1 -9 -39 9 -19 -1 1 -25 -12 2 -38 -43 14 -15 -10 1 0.1 0.0 -3.7 0.2 0.0 -1.1 -33.3 -4.3 0.0 0.7 -2.3 0.3 -0.2 -2.2 0.0 -2.6 0.2 -0.8 -0.5 -2.9 0.5 0.2 -3.4 0.4 -2.9 0.7 48.0 -3.6 -0.3 -3.8 -0.1 -0.6 -7.0 0.7 -1.5 -0.1 0.1 -2.0 -1.0 0.1 -3.1 -4.8 6.4 -3.3 -0.8 0.1 0.1 0.0 1.5 0.1 0.0 0.6 2.4 1.9 0.0 0.2 1.0 0.1 0.0 1.0 0.0 1.0 0.1 0.3 0.1 1.0 0.2 0.0 1.2 0.2 1.1 0.3 2.2 1.7 0.1 1.1 0.0 0.2 1.7 0.2 0.5 0.0 0.0 0.7 0.4 0.1 1.1 1.4 0.9 0.7 0.3 0.0 2016 AM Peak Hour LINK VOLUMES Location 20 20 21 21 22 22 23 23 23 24 24 24 Approach NB WB NB EB NB WB SB EB WB NB EB WB Approach Link 66 63 135 142 135 137 65 130 132 123 125 128 VOLUME COUNT 675 1580 1100 0 800 0 570 0 0 1305 0 0 MODEL 682 1487 1060 0 767 0 546 0 0 1298 0 0 STATISTICS DIFF 7 -93 -40 0 -33 0 -24 0 0 -7 0 0 % DIFF 1.0 -5.9 -3.6 0.0 -4.1 0.0 -4.2 0.0 0.0 -0.5 0.0 0.0 GEH 0.3 2.4 1.2 0.0 1.2 0.0 1.0 0.0 0.0 0.2 0.0 0.0 2016 PM Peak Hour LINK VOLUMES Approach VOLUME STATISTICS Location Approach Link COUNT MODEL DIFF % DIFF GEH 1 NB 18 2490 2477 -13 -0.5 0.3 1 1 2 2 2 3 3 4 4 4 5 5 5 6 6 7 7 7 7 8 8 8 9 9 10 10 10 11 11 12 12 12 13 13 13 14 14 14 15 15 15 16 16 17 18 19 SB EB NB SB WB SB EB NB SB WB NB SB EB NB WB NB SB EB WB NB SB WB NB SB NB SB EB NB SB NB EB WB SB EB WB NB EB WB SB EB WB NB WB SB NB SB 16 15 102 12 99 109 49 20 262 94 104 7 23 105 91 264 24 42 52 32 30 122 34 31 36 33 71 6 263 62 43 108 88 266 56 268 47 265 112 55 45 69 70 134 73 80 1885 720 2505 1930 195 2075 120 2585 2125 470 2340 2175 910 2430 40 1485 2355 1750 650 1430 2030 475 1685 2450 1655 2185 0 2310 2120 870 1745 1125 720 1575 1020 1120 1405 1055 1110 1405 1095 495 80 635 1050 980 1829 744 2491 1879 201 2030 120 2555 2086 493 2299 2163 960 2384 42 1450 2398 1772 680 1386 2169 482 1601 2585 1601 2384 0 2200 2281 857 1769 1099 751 1547 1025 1134 1344 1059 1114 1352 1090 472 79 611 1066 982 -56 24 -14 -51 6 -45 0 -30 -39 23 -41 -12 50 -46 2 -35 43 22 30 -44 139 7 -84 135 -54 199 0 -110 161 -13 24 -26 31 -28 5 14 -61 4 4 -53 -5 -23 -1 -24 16 2 -3.0 3.3 -0.6 -2.6 3.1 -2.2 0.0 -1.2 -1.8 4.9 -1.8 -0.6 5.5 -1.9 5.0 -2.4 1.8 1.3 4.6 -3.1 6.8 1.5 -5.0 5.5 -3.3 9.1 0.0 -4.8 7.6 -1.5 1.4 -2.3 4.3 -1.8 0.5 1.3 -4.3 0.4 0.4 -3.8 -0.5 -4.6 -1.3 -3.8 1.5 0.2 1.3 0.9 0.3 1.2 0.4 1.0 0.0 0.6 0.8 1.0 0.9 0.3 1.6 0.9 0.3 0.9 0.9 0.5 1.2 1.2 3.0 0.3 2.1 2.7 1.3 4.2 0.0 2.3 3.4 0.4 0.6 0.8 1.1 0.7 0.2 0.4 1.6 0.1 0.1 1.4 0.2 1.0 0.1 1.0 0.5 0.1 2016 PM Peak Hour LINK VOLUMES Location 20 20 21 21 22 22 23 23 23 24 24 24 Approach NB WB NB EB NB WB SB EB WB NB EB WB Approach Link 66 63 135 142 135 137 65 130 132 123 125 128 VOLUME COUNT 400 1020 575 120 695 175 515 60 60 1050 20 50 MODEL 362 947 550 126 550 180 551 60 60 1067 20 51 STATISTICS DIFF -38 -73 -25 6 -145 5 36 0 0 17 0 1 % DIFF -9.5 -7.2 -4.3 5.0 -20.9 2.9 7.0 0.0 0.0 1.6 0.0 2.0 GEH 1.9 2.3 1.1 0.5 5.8 0.4 1.6 0.0 0.0 0.5 0.0 0.1 C-i Appendix C C Detailed Cost Estimate City of Winnipeg Portage and Main Transportation StudyPortage and Main Transportation Study September 2017 – FINAL – 16-3623 C-2 PORTAGE AVENUE AND MAIN STREET TRANSPORTATION STUDY CLASS 4 CONSTRUCTION COST ESTIMATE - 2016 DOLLARS ITEM NO. A 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. 15. DESCRIPTION OF WORK UNIT UNIT COST EST. QTY. STRUCTURAL WORKS Cutting off barrier bases Removal of planter walls Concrete breaker Removal of planter walls Concrete loader Removal of planter walls Tandem per location $500 50 $25,000 hour $121 150 $18,200 hour $171 150 $25,600 hour $108 449 $48,500 Removal of soil Slab/topping cutting Slab/topping removal Slab waterproofing cubic ft $0.60 32,600 $19,600 sq ft $12 9,500 $114,000 sq ft $12 9,500 $114,000 sq ft $7.50 9,500 $71,300 sq ft $3.00 9,500 $28,500 sq ft $10.00 7,000 $70,000 cubic ft $28 12,000 $336,000 cubic ft $3.75 10,000 $37,500 Rigid insulation Form work for new slab/wall Concrete and reinforcement Dispose of concrete 6" Concrete Topping 2' Concrete piers for poles/signs (8' deep) Temporary shoring sq ft $20 0 $0 unit $1,100 31 $34,100 sq ft $200 2,000 $400,000 STRUCTURAL WORKS SUBTOTAL ITEM NO. AMOUNT DESCRIPTION OF WORK B ROADWORKS 1. Sidewalk Reconstruction City of Winnipeg Portage and Main Transportation Study September 2016 – 16-3623 $1,350,000 UNIT UNIT COST EST. QTY. AMOUNT C-3 2. NE corner sq m $130 480 $62,400 3. SE corner sq m $130 859 $111,700 4. SW corner sq m $130 442 $57,500 5. NW corner sq m $130 772 $100,400 sq m $130 141 $18,400 6. 7. Median renewal S Main St Rehabilitate Curb Lanes 8. NE corner sq m $160 413 $66,100 9. SE corner sq m $160 480 $76,800 10. SW corner sq m $160 263 $42,000 11. NW corner sq m $160 501 $80,100 ROADWORKS SUBTOTAL ITEM NO. DESCRIPTION OF WORK C LAND DRAINAGE SYSTEM 1. Catchbasins 2. Catchbasin lead pipe 3. Lowering NW corner manhole & misc. $620,000 UNIT UNIT COST EST. QTY. unit $5,000 8 $40,000 m $300.00 40 $12,000 $48,000.00 1 $48,000 lump LAND DRAINAGE SYSTEM SUBTOTAL ITEM NO. AMOUNT DESCRIPTION OF WORK $100,000 UNIT UNIT COST EST. QTY. AMOUNT D WATERMAINS 1. Fire hydrant replacement unit $10,000 4 $40,000 2. Fire protection standpipe relocation on SW corner unit $15,000 1 $15,000 3. Miscellaneous lump $30,000 1 $30,000 WATERMAINS SUBTOTAL ITEM NO. E DESCRIPTION OF WORK ELECTRICAL City of Winnipeg Portage and Main Transportation Study September 2016 – 16-3623 $85,000 UNIT UNIT COST EST. QTY. AMOUNT C-4 1. Disconnect existing electrical fixtures 2. Subtotal Electrical (Construction) lump $100,000 1 $100,000 $100,000 3. F UTILITIES 4. Traffic Services lump $30,000 1 $30,000 5. Traffic Signals lump $280,000 1 $280,000 6. Subtotal Traffic Services & Traffic Signals $310,000 7. 8. Underground power distribution lump $100,000 1 $100,000 9. Lower Hydro chamber in NW corner lump $50,000 1 $50,000 10. Subtotal Hydro - Power Distribution $150,000 11. 12. Galvanized standard streetlights 13. Subtotal Hydro - Street Lighting unit $5,500 16 $88,000 $90,000 14. 15. Underground natural gas distribution 16. Subtotal Hydro - Gas lump $50,000 1 $50,000 $50,000 17. 18. Underground telecom distribution 19. Subtotal MTS lump $100,000 1 $100,000 $100,000 20. 21. Underground cable distribution 22. Subtotal Shaw UTILITIES SUBTOTAL City of Winnipeg Portage and Main Transportation Study September 2016 – 16-3623 lump $50,000 1 $50,000 $50,000 $750,000