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Optimal control of connected automated vehicles with event/self-triggered control barrier functions

AuthorSabouni, Ehsan
AuthorCassandras, Christos G.
AuthorXiao, Wei
AuthorMeskin, Nader
Available date2025-02-17T09:52:19Z
Publication Date2024
Publication NameAutomatica
ResourceScopus
Identifierhttp://dx.doi.org/10.1016/j.automatica.2024.111530
ISSN51098
URIhttp://hdl.handle.net/10576/63139
AbstractWe address the problem of controlling Connected and Automated Vehicles (CAVs) in conflict areas of a traffic network subject to hard safety constraints. It has been shown that such problems can be solved through a combination of tractable optimal control problem formulations and the use of Control Barrier Functions (CBFs) that guarantee the satisfaction of all constraints. These solutions can be reduced to a sequence of Quadratic Programs (QPs) which are efficiently solved on-line over discrete time steps. However, the feasibility of each such QP cannot be guaranteed over every time step. To overcome this limitation, we develop both an event-triggered approach and a self-triggered approach such that the next QP is triggered by properly defined events. We show that both approaches, each in a different way, eliminate infeasible cases due to time-driven inter-sampling effects, thus also eliminating the need for selecting the size of time steps. Simulation examples are included to compare the two new schemes and to illustrate how overall infeasibilities can be significantly reduced while at the same time reducing the need for communication among CAVs without compromising performance.
SponsorFunding text 1: This work was supported in part by U.S. National Science Foundation under grants ECCS-1931600 , DMS-1664644 , CNS-1645681 , CNS-2149511 , by AFOSR, United States under grant FA9550-19-1-0158 , by ARPA-E, United States under grant DE-AR0001282 , by the MathWorks, United States , and by NPRP grant ( 12S-0228-190177 ) from the Qatar National Research Fund, a member of the Qatar Foundation (the statements made herein are solely the responsibility of the authors). The authors are with the Division of Systems Engineering and Center for Information and Systems Engineering, Boston University, Brookline, MA, 02446, USA, CSAIL, MIT, USA and Electrical Engineering Department, Qatar University, Doha, Qatar. ; Funding text 2: This work was supported in part by U.S. National Science Foundation under grants ECCS-1931600, DMS-1664644, CNS-1645681, CNS-2149511, by AFOSR, United States under grant FA9550-19-1-0158, by ARPA-E, United States under grant DE-AR0001282, by the MathWorks, United States, and by NPRP grant (12S-0228-190177) from the Qatar National Research Fund, a member of the Qatar Foundation (the statements made herein are solely the responsibility of the authors). The authors are with the Division of Systems Engineering and Center for Information and Systems Engineering, Boston University, Brookline, MA, 02446, USA, CSAIL, MIT, USA and Electrical Engineering Department, Qatar University, Doha, Qatar.
Languageen
PublisherElsevier
SubjectConnected and automated vehicles
Event-triggered control
Optimal control
Self-triggered control
TitleOptimal control of connected automated vehicles with event/self-triggered control barrier functions
TypeArticle
Volume Number162
dc.accessType Open Access


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