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Group Coordinated Control of Networked Mobile Robots With Applications to Object Transportation

Junyan Hu, Parijat Bhowmick, Alexander Lanzon

2021IEEE Transactions on Vehicular Technology78 citationsDOIOpen Access PDF

Abstract

Inspired by the group activities of natural swarms (e.g., a flock of birds, a colony of ants, etc.), a fleet of mobile robots can be collaboratively put into work to accomplish complex real-world tasks. Depending on the nature and complexity of a problem, a multi-robot system (MRS) may need to be decomposed into several subgroups. This paper proposes a unified group coordinated control scheme for networked MRSs having multiple targets. A `discontinuous' cooperative control law is first developed for a networked MRS to achieve individual sub-formations surrounding the assigned targets. A `continuous' cooperative control protocol is then proposed to overcome the chattering phenomenon often caused by a discontinuous control action during hardware implementation. The closed-loop stability of the overall networked MRS is guaranteed via the Lyapunov theory and boundary-layer techniques. Finally, two hardware experiments (target-enclosing and object transportation) involving real mobile robots have been carried out to demonstrate the usefulness of the proposed scheme.

Topics & Concepts

Mobile robotRobotObject (grammar)Scheme (mathematics)Computer scienceLyapunov stabilityDistributed computingProtocol (science)Stability (learning theory)Control (management)Control engineeringEngineeringArtificial intelligenceMathematicsMachine learningPathologyAlternative medicineMathematical analysisMedicineDistributed Control Multi-Agent SystemsUAV Applications and OptimizationMobile Ad Hoc Networks
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