In this paper, a person-delay-based optimization method is proposed for an intelligent TSP logic that enables bus/signal cooperation and coordination among consecutive signals under the Connected Vehicle environment. This TSP logic, called TSPCV-C, provides a method to secure the mobility benefit generated by the intelligent TSP logic along a corridor so that the bus delay saved at an upstream intersection is not wasted at downstream intersections. The problem is formulated as a Binary Mixed Integer Linear Program (BMILP) which is solved by standard branch-and-bound method. Minimizing per person delay has been adopted as the criterion for the model. The TSPCV-C is also designed to be conditional. That is, TSP is granted only when the bus is...
This research presents the implementation of two different transit signal priority strategies and as...
2016PDFTech ReportEIN: 54-6001805Bus transit operationsDelaysField testsTest bedsAlgorithmsTraffic s...
Summarization: This paper presents a person-based traffic responsive signal control system for trans...
In this research, a person-delay-based optimization method is proposed for an intelligent Transit Si...
Transit signal priority (TSP) has been studied as a control strategy that offers preference to trans...
PDFTech ReportUVA-2012-04DTRT12-G-UTC03140735-BTraffic signal preemptionIntelligent vehiclesBus tran...
Transit signal priority (TSP) is a common strategy to improve bus right-of-way at signalized interse...
Connected vehicle (CV) technologies enable safe and interoperable wireless communication among vehic...
Transit signal priority (TSP) can be used to improve bus operations at intersections. However, imple...
Connected vehicles give more precise and detailed information on vehicle movements, thus can be bene...
Aiming at reducing per person delay, this paper presents an optimization method for Transit Signal P...
Multiaccess edge computing (MEC) and connected vehicle (CV) technologies have shown great potential ...
Traffic responsive signal control with Transit Signal Priority (TSP) is a strategy that is increasin...
Mixed road users on most urban arterials are controlled by the same set of signals and must compete ...
Transit Signal Priority (TSP) is an effective strategy for providing preferential treatment to move ...
This research presents the implementation of two different transit signal priority strategies and as...
2016PDFTech ReportEIN: 54-6001805Bus transit operationsDelaysField testsTest bedsAlgorithmsTraffic s...
Summarization: This paper presents a person-based traffic responsive signal control system for trans...
In this research, a person-delay-based optimization method is proposed for an intelligent Transit Si...
Transit signal priority (TSP) has been studied as a control strategy that offers preference to trans...
PDFTech ReportUVA-2012-04DTRT12-G-UTC03140735-BTraffic signal preemptionIntelligent vehiclesBus tran...
Transit signal priority (TSP) is a common strategy to improve bus right-of-way at signalized interse...
Connected vehicle (CV) technologies enable safe and interoperable wireless communication among vehic...
Transit signal priority (TSP) can be used to improve bus operations at intersections. However, imple...
Connected vehicles give more precise and detailed information on vehicle movements, thus can be bene...
Aiming at reducing per person delay, this paper presents an optimization method for Transit Signal P...
Multiaccess edge computing (MEC) and connected vehicle (CV) technologies have shown great potential ...
Traffic responsive signal control with Transit Signal Priority (TSP) is a strategy that is increasin...
Mixed road users on most urban arterials are controlled by the same set of signals and must compete ...
Transit Signal Priority (TSP) is an effective strategy for providing preferential treatment to move ...
This research presents the implementation of two different transit signal priority strategies and as...
2016PDFTech ReportEIN: 54-6001805Bus transit operationsDelaysField testsTest bedsAlgorithmsTraffic s...
Summarization: This paper presents a person-based traffic responsive signal control system for trans...