Connected vehicles give more precise and detailed information on vehicle movements, thus can be beneficial to provide priority to public transportation. This paper proposes a transit signal priority algorithm using connected vehicle information for multimodal traffic control. The algorithm can also be adapted to scenarios with near-side or far-side bus stops. Moreover, it can minimize either signal delay or schedule delay for buses while minimizing additional car delays. Simulation is conducted for different volume to capacity ratios, bus arrivals, bus occupancies, and penetration rates. Results show that this algorithm successfully reduces the total passenger delay. It is also shown that this algorithm is not sensitive to the assumed bus p...
Traffic responsive signal control with Transit Signal Priority (TSP) is a strategy that is increasin...
AbstractThis paper presents a transit signal priority (TSP) model designed to benefit both bus rider...
Bus bunching affects transit operations by increasing passenger waiting time and variability. To tac...
Connected vehicles give more precise and detailed information on vehicle movements, thus can be bene...
Transit signal priority (TSP) has been studied as a control strategy that offers preference to trans...
Transit signal priority (TSP) is a common strategy to improve bus right-of-way at signalized interse...
Aiming at reducing per person delay, this paper presents an optimization method for Transit Signal P...
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...
PDFTech ReportUVA-2012-04DTRT12-G-UTC03140735-BTraffic signal preemptionIntelligent vehiclesBus tran...
In this research, a person-delay-based optimization method is proposed for an intelligent Transit Si...
Multiaccess edge computing (MEC) and connected vehicle (CV) technologies have shown great potential ...
In this paper, a person-delay-based optimization method is proposed for an intelligent TSP logic tha...
Transit signal priority is a useful way to improve transit operations in urban networks. Most of the...
Several methods have been developed to allow bus priority with respect to general traffic in urban a...
Traffic responsive signal control with Transit Signal Priority (TSP) is a strategy that is increasin...
AbstractThis paper presents a transit signal priority (TSP) model designed to benefit both bus rider...
Bus bunching affects transit operations by increasing passenger waiting time and variability. To tac...
Connected vehicles give more precise and detailed information on vehicle movements, thus can be bene...
Transit signal priority (TSP) has been studied as a control strategy that offers preference to trans...
Transit signal priority (TSP) is a common strategy to improve bus right-of-way at signalized interse...
Aiming at reducing per person delay, this paper presents an optimization method for Transit Signal P...
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...
PDFTech ReportUVA-2012-04DTRT12-G-UTC03140735-BTraffic signal preemptionIntelligent vehiclesBus tran...
In this research, a person-delay-based optimization method is proposed for an intelligent Transit Si...
Multiaccess edge computing (MEC) and connected vehicle (CV) technologies have shown great potential ...
In this paper, a person-delay-based optimization method is proposed for an intelligent TSP logic tha...
Transit signal priority is a useful way to improve transit operations in urban networks. Most of the...
Several methods have been developed to allow bus priority with respect to general traffic in urban a...
Traffic responsive signal control with Transit Signal Priority (TSP) is a strategy that is increasin...
AbstractThis paper presents a transit signal priority (TSP) model designed to benefit both bus rider...
Bus bunching affects transit operations by increasing passenger waiting time and variability. To tac...