This paper presents the design of a robust distributed state-feedback controller in the discrete-time domain for homogeneous vehicle platoons with undirected topologies, whose dynamics are subjected to external disturbances and under random single packet drop scenario. A linear matrix inequality (LMI) approach is used for devising the control gains such that a bounded H∞ norm is guaranteed. Furthermore, a lower bound of the robustness measure, denoted as γ gain, is derived analytically for two platoon communication topologies, i.e., the bidirectional predecessor following (BPF) and the bidirectional predecessor leader following (BPLF). It is shown that the γ gain is highly affected by the communication topology and drastically reduces when ...
This paper aims to study and compare the effect of limited-output information in various directed to...
Cooperative driving is an essential component of future intelligent road systems. It promises greate...
This paper presents a novel vehicle platoon control algorithm using Vehicle to Vehicle (V2V) and Veh...
—This paper presents the design of a robust distributed state-feedback controller in the discrete-ti...
This paper proposes a distributed control strategy for homogeneous platoon systems with external dis...
This paper investigates the analysis and synthesis of networked vehicle platoons with communication ...
Automated and coordinated vehicles' driving (platooning) is very challenging due to the multi-body c...
Abstract With an aim to improve the performances of intelligent‐connected electric vehicle platoon w...
This paper revisits the robustness analysis and distributed ${ H}_\infty$ controller design for the ...
This paper is concerned with the design problem of distributed cooperative longitudinal controller a...
In addition to decentralized controllers, the information flow among vehicles can significantly affe...
In this paper, we study the longitudinal controlproblem for a platoon of vehicles with unknown nonli...
Connected and autonomous driving technology is a current research hotspot, which can effectively eas...
Automated and coordinated vehicles' driving (platooning) is gaining more and more attention today an...
Automated and coordinated vehicles' driving (platooning) is gaining more and more attention today an...
This paper aims to study and compare the effect of limited-output information in various directed to...
Cooperative driving is an essential component of future intelligent road systems. It promises greate...
This paper presents a novel vehicle platoon control algorithm using Vehicle to Vehicle (V2V) and Veh...
—This paper presents the design of a robust distributed state-feedback controller in the discrete-ti...
This paper proposes a distributed control strategy for homogeneous platoon systems with external dis...
This paper investigates the analysis and synthesis of networked vehicle platoons with communication ...
Automated and coordinated vehicles' driving (platooning) is very challenging due to the multi-body c...
Abstract With an aim to improve the performances of intelligent‐connected electric vehicle platoon w...
This paper revisits the robustness analysis and distributed ${ H}_\infty$ controller design for the ...
This paper is concerned with the design problem of distributed cooperative longitudinal controller a...
In addition to decentralized controllers, the information flow among vehicles can significantly affe...
In this paper, we study the longitudinal controlproblem for a platoon of vehicles with unknown nonli...
Connected and autonomous driving technology is a current research hotspot, which can effectively eas...
Automated and coordinated vehicles' driving (platooning) is gaining more and more attention today an...
Automated and coordinated vehicles' driving (platooning) is gaining more and more attention today an...
This paper aims to study and compare the effect of limited-output information in various directed to...
Cooperative driving is an essential component of future intelligent road systems. It promises greate...
This paper presents a novel vehicle platoon control algorithm using Vehicle to Vehicle (V2V) and Veh...