Formation Control of Mobile Robots Based on Pin Control of Complex Networks

Article Chemistry, Multidisciplinary

Differentially-Driven Robots Moving in Formation-Leader-Follower Approach

Marcin Kielczewski et al.

Summary: This paper focuses on the application and experimental verification of the leader-follower approach in controlling multiple mobile robots. The formation control is achieved by tracking a virtual leader and implementing collision avoidance between the robots. The effectiveness of this approach was demonstrated through experiments using MTracker mobile robots. The OptiTrack vision system was used for robot localization, and the Robot Operating System was used for software control algorithms and communication.

APPLIED SCIENCES-BASEL (2022)

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Article Chemistry, Multidisciplinary

Practical Formation Control for Multiple Anonymous Robots System with Unknown Nonlinear Disturbances

Peng Xu et al.

Summary: This paper investigates formation control problems for a group of anonymous mobile robots with unknown nonlinear disturbances, proposing a flexible distributed control law that can achieve various formation patterns and ensure no collisions between robots.

APPLIED SCIENCES-BASEL (2021)

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Article Mathematics

Learning Impulsive Pinning Control of Complex Networks

Alma Y. Alanis et al.

Summary: This paper presents an impulsive pinning control algorithm for discrete-time complex networks, using a linear algebra approach and neural network for identification to synthesize a learning control law. A numerical simulation is included to illustrate the system behavior under the developed controller.

MATHEMATICS (2021)

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Article Robotics