Transit Signal Priority The Importance of AVL Data

Transit Signal Priority: The Importance of AVL Data David T. Crout Tri-County Metropolitan Transportation District of Oregon (Tri. Met) Presented at Transportation Research Board 83 rd Annual Meeting Workshop on Signal Control Priority for Transit Vehicles January 11, 2004 Transit Signal Priority: The Importance of AVL Data

Project Partners Transit Signal Priority: The Importance of AVL Data 2

Tri-Met’s TSP Goals • Increase person trips through selected traffic corridors while minimizing impacts on minor movements. • Reduce transit running times. • Improve transit schedule reliability: – Reduce running time variability. – Reduce excess time built into schedule to offset variability. • Defer providing additional transit capacity. Transit Signal Priority: The Importance of AVL Data 3

Project Status • Five traffic corridors now activated within the City of Portland. – 180 signals activated. • Now focusing on individual intersection “hot spots. ” – Intersections analyzed for disproportionate delays to transit. – Anticipate approximately 120 additional intersections by early 2004. Transit Signal Priority: The Importance of AVL Data 4

Tri. Met AVL System Two Types of Data Collected • Stops Data (Automatically Collected) - Information collected at each bus stop - Approximately 500, 000 records per day • Event Data (Operator Generated Data) - Special events at various locations - Approximately 25, 000 records per day Transit Signal Priority: The Importance of AVL Data 5

Stops Data • Bus Stop Location • • • Actual Arrive Time Actual Leave Time Scheduled Time Dwell Door Opened Ons & Offs (APCs) Passenger Load Lift Usage Operator ID Maximum Speed Event Data • • • Pass up Overload Traffic Delay Train/Bridge Delay Fare Evasion Graffiti/Vandalism 6

Tri. Met TSP Overview • AVL System tracks bus location and schedule status. • If conditions are met, bus emitter (Opticom) communicates priority request to signal. • Signal controller then grants priority request. Transit Signal Priority: The Importance of AVL Data 7

Emitter Activation Conditions Transit Signal Priority: The Importance of AVL Data 8

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Evaluation Methodology • Comparison of transit performance from before TSP activation to after. • Relies on AVL: – Locational and temporal performance data is currently collected for all bus routes and at every bus stop. – Schedule adherence as well as travel time between stops can easily be determined. – Since distance between stops is known, gross speeds (i. e. , including stops) can be calculated. Transit Signal Priority: The Importance of AVL Data 10

Evaluation Methodology • Location & time bus starts and stops meeting TSP thresholds is also recorded. • TSP analysis segments defined as bus stop pairs in the vicinity of one or more signalized intersections. – Performance in areas affected by signal(s) can then be analyzed. – Separate segments are necessary for each direction. – Means of incorporating TSP analysis into GIS. Transit Signal Priority: The Importance of AVL Data 11

Intersection Analysis Route 4 – Division, SE 82 nd Ave. & SE Division St. Transit Signal Priority: The Importance of AVL Data 12

Intersection Analysis Route 4 – Division, SE 82 nd Ave. & SE Division St. Transit Signal Priority: The Importance of AVL Data 13

Trip-Level Analysis *Prior to Implementation of TSP. Transit Signal Priority: The Importance of AVL Data 14

Preliminary Results • Travel time reduction of 2 -3 minutes achieved after TSP implementation on Line 12, a high frequency trunk line. – Potential annual operating cost saving of $13, 000. • June 2002 schedule re-written to remove one bus on Line 4 due to travel time and variability reductions. – Estimated annual operating cost savings of $60, 000. – Estimated one-time capital cost savings of $300, 000. Transit Signal Priority: The Importance of AVL Data 15

Any Questions? David T. Crout croutd@trimet. org http: //www. trimet. org Transit Signal Priority: The Importance of AVL Data 16