Maximizing Safety and Efficiency for Cooperative Lane-Changing: A Minimally Disruptive Approach

This paper addresses cooperative lane-changing maneuvers in mixed traffic, aiming to minimize traffic flow disruptions while accounting for uncooperative vehicles. The proposed approach adopts controllers combining Optimal control with Control Barrier Functions (OCBF controllers) which guarantee spa...

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Published in:arXiv.org 2023-05
Main Authors: Chavez Armijos, Andres S, Li, Anni, Cassandras, Christos G
Format: Article
Language:English
Subjects:
Controllers
Disturbances
Lane changing
Linear programming
Optimal control
Optimization
Traffic flow
Traffic safety
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Li, Anni
Cassandras, Christos G
description This paper addresses cooperative lane-changing maneuvers in mixed traffic, aiming to minimize traffic flow disruptions while accounting for uncooperative vehicles. The proposed approach adopts controllers combining Optimal control with Control Barrier Functions (OCBF controllers) which guarantee spatio-temporal constraints through the use of fixed-time convergence. Additionally, we introduce robustness to disturbances by deriving a method for handling worst-case disturbances using the dual of a linear programming problem. We present a near-optimal solution that ensures safety, optimality, and robustness to changing behavior of uncooperative vehicles. Simulations demonstrate the effectiveness of the proposed approach in enhancing efficiency and safety.
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subjects Controllers
Disturbances
Lane changing
Linear programming
Optimal control
Optimization
Traffic flow
Traffic safety
title Maximizing Safety and Efficiency for Cooperative Lane-Changing: A Minimally Disruptive Approach
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