Abstract
A general-purpose scheme that works with global Advanced Traveler Information Systems (ATIS) strategies is introduced for real-time traffic signal control. The system is (1) applicable under modern data technologies, (2) flexible in response to variations of traffic flows due to its non-cyclic feature, (3) operable on a network-wide and real-time basis, and (4) capable of conforming global ATIS strategies in the form of desired longer period green time ratios for intersection movement. The proposed system has a two-level hierarchical architecture: (1) strategy level and (2) control level. Considering the optimal states for a long-term period found in the strategy level, the optimal signal timings for a short-term period are calculated in the control level which consists of two steps: (1) queue weight update and (2) signal optimization. Based on the ratio of the cumulative green time to the desired green time is the first step to update the queue weights, which are then used in the optimization to find signal timings for minimum total delay. A parametric queue weight function is developed, discussed and evaluated. Numerical experiments demonstrate that the proposed system performs effectively and the resultant signal plans are close to the global ATIS strategies.