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Mission Street Project Update Voyage 2070 Advance Operation Systems

Mission Street Project Update Voyage 2070 Advance Operation Systems. Using ASTRO Proactive Plan Selection Average and Split Variant operations Prepared By: Roger W. Boettcher ODOT Traffic Signal Control Specialist April 10, 2013. Key Concept for ASTRO Functions.

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Mission Street Project Update Voyage 2070 Advance Operation Systems

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  1. Mission Street Project Update Voyage 2070 Advance Operation Systems Using ASTRO Proactive Plan Selection Average and Split Variant operations Prepared By: Roger W. Boettcher ODOT Traffic Signal Control Specialist April 10, 2013

  2. Key Concept for ASTRO Functions SVO uses the same cycle length and offset for the guest plans as that of the hosts. This means no transitions and results in a smooth re-allocation of cycle time to serve higher demand phases! This is a very important concept to note. No transition means the system stays in coordination even while making “on the fly adjustments” Voyage ASTRO reviews the V+KO data every 4 minutes and can make a plans selection every 5 minutes.

  3. Presentation Outline Existing conditions History Goals Project steps and installations Results and observations Conclusions

  4. Existing Conditions InboundAM Problem Intersections Problem intersection Problem intersection Critical Intersection OutboundPM

  5. Existing Conditions Peak period travel times: 8 to 11 min. After installation of Voyage 2070 controllers travel times reduced to 4 to 4.5 minutes A reduction between 50-60%

  6. History Originally conceived as a proof of product test facility for NWS Voyage Advanced Features firmware and as a 2070 controller training grounds 7 new 2070 controllers since January 2010

  7. Goals Improve existing failed timing operations Resolve traffic flow issues at 3 major intersections: - 25th Avenue - Airport / Turner Road - Hawthorne Avenue

  8. Project Steps andInstallations Step 1: replace 170 controllers and revise existing timing for 2070 operations Step 2: revise coordination offset reference to start of main street green Step 3: update Pedestrian and Red, Yellow clearance times to current standards

  9. Project Steps andInstallations Step 4: Gather background Volume, Occupancy and MOE data Step 5: Generate basic ‘Host’ timing plans optimized using Synchro Step 6: Observe operations of ‘Host’ timing plans using standard TOD operations

  10. Project Steps andInstallations Step 7: Continue to collect background Volume, Occupancy and MOE data for analysis Step 8: Develop additional ‘Guest’ plans for SVO operations Step 9: Install and activate Guest plans (SVO and SVI)

  11. Project Steps andInstallations Step 10: Adjust activation thresholds for optimal operations Step 11: Activate PPA operations for shoulder time of day Step 12: Adjust guest plan Splits for optimal performance (current operations) Step 13: Dynamic operations overlays to ASTRO

  12. Project Steps andInstallations Step 14: Compare NWS Voyage ASTRO operations to other similar systems Step 15: Publish findings and repeat successful processes on similar systems

  13. Results and Observations Steps 1 through 3 yielded nearly 20% improvement - increased through put volumes - Reduced travel time delays for entire system

  14. Results and Observations These reductions are believed to be due to the inclusion of POM and the use of “Fast-way mode” for transition recovery The use of “Fast way” transition seeking in 2070’s avoids dwell and transitions quicker than the 170’s Minor revisions were made to the red, yellow and pedestrian transition times bringing them to current standards

  15. Results and Observations Steps 4-14 all rely on the identification of Master system Detectors Master System Detectors were determined for optimal flows What are Master System Detectors?

  16. What are Master System Detectors? Require free flow for operations Part of local system detection at intersections Determine control thresholds for PPS, PPA and SVO operations

  17. Results and Observations Free Flowing Volumes not easily found Three configurations were assessed The best fit

  18. Results and Observations Best Fit Layout Two inbound master system detectors  Inbound flow Three outbound master system detectors Outbound flow Two inbound master system detectors

  19. Results and Observations The plans library was populated with 16 ASTRO ‘host’ and ‘guest’ plans V+KO data resulted in appropriate TOD Operations

  20. Results and Observations V+KO: flow rate over a detector, adjusted for occupancy Volume + (K * Occupancy)

  21. Results and Observations

  22. Results and Observations Steps 7 through 10 were accomplished using the background data provided from volume logs -MOE termination graphs -Splits have been adjusted for Guest Plans

  23. Results and Observations Typical Monday on Mainline Mission Phase 2 (EB) no periods that could leave the phase early • MOE Graph (Before)

  24. Results and Observations • MOE Graph (After) After PPA and SVO is operational we see a better use of the split times and a reduction in Mainline Max-out

  25. Results and Observations After additional minor adjustments we see even better results • MOE Graph (After)

  26. Results and Observations • MOE Graph (Before)

  27. Results and Observations After additional minor adjustments we see even better results • MOE Graph (After)

  28. Results and Observations Capture fluctuations in the morning rush and make appropriate adjustments to the normal operational splits that the host plan is using The system responds nearly as quickly as the rise in the values and selects an appropriate plan Once the event passes the system makes a quick adjustment to the lower host plan and then to the low volume guest plan

  29. Results and Observations AM Event @ 07:55 AM event captured and plan selection made by SVO operations

  30. Results and Observations SVO off/ PPA on TOD Free SVI on/ TOD Host P8 TOD Host P15 SVI off/ SVO on Host P12 TOD Host P5 Inbound Heavy Triad Plans 7, 8 and 9 Outbound Heavy Triad Plans 14, 15 and 16 P9 P6 P16 P8 P8 P5 P13 P15 P4 P7 P7 P12 P2 P14 P11 P1 Free

  31. Mission St. TOD Table

  32. Results and Observations Steps 11 and 12 are currently in operation -Adjust guest plan splits for optimal -Currently fully activated using PPA and SVA - PPA is working on shoulder times in the evenings and mornings after mid-night an example of this operation is shown in the following slide

  33. Results and Observations PPA allows extension of Plan coordination beyond TOD events and is operational on the shoulder times in the evenings and early morning after mid-night. 19:00 call to Free operations Free operations start here +/-

  34. Step 13 Dynamic operations overlays to ASTRO features: Not yet Deployed - Auto-Max - Dynamic Phase Length - Dynamic Phase Reversal -Actuated Coordinated Operations - Coordinated Late Left Turn

  35. Step 14Comparison of Similar Systems Master System Detectors 16 entries req’d. PPS not currently active PPA 2 entries required SVO 16 entries required

  36. Step 14 Traffic Responsive TransSuite Equivalent to PPA Operations Data

  37. Conclusions Relatively easy process Very good results with any or all of these features PAA is probably the most useful out of the box feature SVO estimated 5 to 10 percent improvement for short term conditions Other features may be added as overlays These features may be installed with very little added cost to your systems

  38. Thank You!Are there Any Questions?

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