Leveraging Multiple Connected Traffic Light Signals in an Energy-Efficient Speed Planner

• Published in: IEEE control systems letters Vol. 5; no. 6
• Main Authors: Han, Jihun, Shen, Daliang, Karbowski, Dominik, Rousseau, Aymeric
• Format: Journal Article
• Language: English
• Published: United States IEEE 28.12.2020
• Subjects: automotive control; autonomous vehicle; connected and automated vehicle; eco-driving; ENERGY CONSERVATION, CONSUMPTION, AND UTILIZATION; optimal control; optimization; optimization algorithms
• ISSN: 2475-1456; 2475-1456

Connecting automated vehicles to traffic lights can lead to significant energy savings by enabling them to pass through intersections in an energy-efficient way without unnecessary stops. A cellular-based communication system connecting multiple traffic lights can help realize the full potential of energy-efficient driving at intersections. Thus, we propose a hierarchical speed planner that can leverage information from multiple connected traffic lights. The proposed speed planner consists of two modules: a green window selector and a reference trajectory generator. The green window selector, based on Dijkstra’s algorithm, finds a series of "green windows" for connected traffic lights that builds an energy-optimal path for vehicles to follow. The reference trajectory generator finds optimal entering times, based on the selected green window at each intersection, and then computes reference trajectories. Deriving and using analytical optimal entering speeds as a function of entering times allows us to guarantee the computational simplicity suitable for real-time implementation. We also demonstrate how to balance energy and traffic flow perspectives in the reference trajectory generator. Lastly, a high-fidelity simulation framework is used to evaluate the proposed speed planner and quantify the extent to which it can save energy in various real-world urban route scenarios.