Litcius/Paper detail

On Structural and Safety Properties of Head-to-Tail String Stability in Mixed Platoons

Di Liu, Bart Besselink, Simone Baldi, Wenwu Yu, Harry L. Trentelman

2022IEEE Transactions on Intelligent Transportation Systems38 citationsDOIOpen Access PDF

Abstract

The interaction between automated and human-driven vehicles in mixed (human/automated) platoons is far from understood. To study this interaction, the notion of head-to-tail string stability was proposed in the literature. Head-to-tail string stability is an extension of the standard string stability concept where, instead of asking every vehicle to achieve string stability, a lack of string stability is allowed due to human drivers, provided it can be suitably compensated by automated vehicles sparsely inserted in the platoon. This work introduces a theoretical framework for the problem of head-to-tail string stability of mixed platoons: it discusses a suitable vehicle-following human driver model to study mixed platoons, and it gives a reduced-order design strategy for head-to-tail string stability only depending on three gains. The work further discusses the safety limitations of the head-to-tail string stability notion, and it shows that safety improvements can be attained by an appropriate reduced-order design strategy only depending on two additional gains. To validate the effectiveness of the design, linear and nonlinear simulations show that the string stability/safety trade-offs of the proposed reduced-order design are comparable with those resulting from full-order designs.

Topics & Concepts

PlatoonString (physics)Stability (learning theory)Head (geology)Computer scienceWork (physics)Control theory (sociology)EngineeringMathematicsArtificial intelligenceMechanical engineeringControl (management)GeomorphologyMathematical physicsGeologyMachine learningTraffic control and managementTraffic and Road SafetyAutonomous Vehicle Technology and Safety