Lesson

Plan for operational challenges such as the need for data verification and number of parking spaces when implementing performance parking.

Operational lessons learned from the City of Boston’s performance parking pilot.


Boston; Massachusetts; United States


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Lesson Learned

The report found that performance parking is an effective tool to increase parking availability, lower congestion, and improve road safety. However, there were operational challenges such as parking sensor reliability, multiple parking vendor platforms, and lack of consensus on number of parking spaces per block.  
The report described the following operational lessons learned: 

Consider upgrading or relying on data collection techniques other than a sensor at every meter. The City used sensors mounted on parking meters as one method to count occupancy. However, the City found many problems with the data’s accuracy and it took significant staff time to calibrate the equipment and confirm the data’s accuracy. To scale the performance parking pilot, the City would need to rely on data collection techniques other than a sensor at every meter.  

Consider operational challenges to frequently changing meter prices. The City of Boston uses three different vendors for its parking payments. Boston Transportation Department staff found it difficult to coordinate the price changes with the different technology systems that vendors use. The Boston Transportation Department had to send out staff to manually check the meters to confirm the new prices were shown.  

Conduct a census of parking meter spaces prior to implementing a performance parking pilot. The City does not currently demarcate individual parking spaces at locations with multispace meters, and therefore does not know the exact number of vehicles that can fit onto a block at these locations. As a result, staff spent significant time counting the number of parking spaces on each block in these areas, information needed to compute occupancy in the pilot areas. 

The report describes considerations for scaling to other neighborhoods: 
  • Staff capacity. For every 3-5 performance parking zones created, a dedicated full-time project manager and a part-time data analyst would be needed. 
  • Street closures and occupancy permits. An integrated system needs to be developed to automatically alert the performance parking team of changes in the number of available spaces due to street closures, occupancy permits, new Hubway stations, or changes in parking regulations.  
  • Resident and business owner engagement. It is critical that the community is engaged in the process, has the opportunity to ask questions on the methodology behind the program, and receives clear feedback on progress.  
  • Back-end technology integration. Scaling to other neighborhoods would mean resolving the back-end technology issues for the new sites. These include: extracting the needed data to analyze the results of the pilots from the different back-end systems of the City’s three parking payment vendors as well as publishing the new meter prices and times with the vendors. 


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Source

PERFORMANCE PARKING Final Report

Published By: City of Boston

URL: https://www.boston.gov/sites/default/files/embed/p/performance_parking_final_report_-_web_1.pdf

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Aaron Sessions


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States

Massachusetts

Countries

United States

Systems Engineering

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Goal Areas

Mobility
Efficiency

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Lesson ID: 2020-00936