Stochastic Lp string stability analysis in predecessor-following platoons under packet losses
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In this paper, we study (homogeneous) predecessor-following platoons in which the vehicle-to-vehicle (V2V) communications are affected by random packet losses. We model the overall platoon as a stochastic hybrid system and analyse its string stability via a small-gain approach. For nonlinear platoons, we illustrate how the different elements of the platoon have an impact on string stability, such as platoon topology and vehicle scheduling. For linear time-invariant platoons, we provide an explicit string stability condition that illustrates the interplay between the channel success probability, transmission rate, and time headway constant. Lastly, we illustrate our results by numerical simulations.
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Expected String Stability of Human-Led Vehicle Platoons under Stochastic Communication Delays (Full Version)
Derives expected L2 string stability conditions for human-led platoons under stochastic delays via integral inequalities in a stochastic hybrid system model.
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