LAUSR

This article develops a reservation-based cooperative transit signal priority (RCTSP) mechanism for a bus rapid transit (BRT) system with connected vehicle technology. The RCTSP mechanism is proposed to optimize multiple TSP requests within the same phase in a rolling horizon framework. The overall RCTSP architecture consists of three essential submodules: a bus dwell time guidance application, a bus speed guidance application, and a signal scheme optimization application. Thus, the proposed RCTSP strategy enables bus/signal cooperation in a connected vehicle environment. This problem is formulated as a binary mixed-integer nonlinear program that can be solved using the branch-and-bound algorithm. The proposed control method is verified and assessed using three actual signalized intersections along the Guangzhou BRT corridor. The simulation evaluation results show that the proposed model can reduce average person delays by approximately 6.0–18.6%. The sensitivity analysis indicates that the proposed method has no negative impact on general traffic users even in a saturated condition.