<title>Development and evaluation of distributed control algorithms for the mobile robot Nomad200</title>

In the paper, we present the mobile robot “MAX” developed at the Systems Engineering Laboratory, Hochschule Ravensburg-Weingarten, which serves as a mock-up of an automated guided vehicle intended for transportation of materials, and connection between different parts of a production line in industry. The subject of the paper is autonomous robot motion along a specified track formed with a one-colored insulation tape marked on the surface, on which the robot moves. The paper focuses on track detection provided by real-time processing of the video stream from an installed on the front of the robot web-camera that is the key feature of this work. In the paper, brief overview on the construction of the mobile robot “MAX” is introduced, the task of line following and motion criteria are formulated, some approaches to track detection and its presentation with mean points are proposed. Three motion control algorithms which are ensued are also presented and verified with experiments on the mobile robot “MAX” to show their real appropriateness.

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Distributed Embedded Control Architecture of a Leader-Follower Mobile Robot Formation

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.779.201 ◽

2015 ◽

Vol 779 ◽

pp. 201-204

Author(s):

Ran Li ◽

Yun Hua Li

Keyword(s):

Control System ◽

Mobile Robot ◽

Mobile Robots ◽

Distributed Control ◽

Electronic System ◽

Control Architecture ◽

Distributed Control System ◽

Embedded Control ◽

Data Bus ◽

Robot Cooperation

Mobile robots have been widely used for the good adaptability, payload capability. Robot cooperation brings benefits for the task in a multi-robot team. In this paper, the modular hardware design of a leader-follower mobile robot team is discussed, including the distributed control architecture and the electronic system of each robot of the team. The basic idea behind this paper is to introduce the design of the hardware and distributed control architecture, which mainly manages the distributed control system, consisting of microcontroller modules connected through a data bus. The research has a potential applying prospect in mobile robot tracing and locating in the future.

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Path Following Control Algorithms Implemented in a Mobile Robot with OMNI Wheels

Giroskopiya i Navigatsiya ◽

10.17285/0869-7035.2016.24.3.131-142 ◽

2016 ◽

Vol 24 (3) ◽

pp. 131-142

Author(s):

J. Wang ◽

◽

A.Yu. Krasnov ◽

Yu.A. Kapitanyuk ◽

S.A. Chepinskiy ◽

...

Keyword(s):

Mobile Robot ◽

Path Following ◽

Control Algorithms ◽

Path Following Control

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On the Tracking Control of Differentially Steered Wheeled Mobile Robots

Journal of Dynamic Systems Measurement and Control ◽

10.1115/1.2801278 ◽

1997 ◽

Vol 119 (3) ◽

pp. 455-461 ◽

Cited By ~ 19

Author(s):

Y. L Zhang ◽

S. A. Velinsky ◽

X. Feng

Keyword(s):

Mobile Robot ◽

Tracking Control ◽

Control Algorithms ◽

Position Tracking ◽

Wheeled Mobile Robots ◽

Tracking Ability ◽

Exact Position ◽

Position And Orientation ◽

Robot Configuration ◽

Tracking Point

Fundamental tracking control algorithms of a differentially steered wheeled mobile robot with two conventional driven wheels are studied through analyzing the robot’s inherent kinematics. This includes the tracking variable assignment as well as the tracking singularity and position-orientation tracking decoupling problems. Globally convergent tracking control algorithms are proposed, which can exactly track any differentiable reference path. A fundamental motion orientation equation under the condition of exact position tracking is developed, and it is shown that it is not possible to exactly track both position and orientation concurrently for this kind of mobile robot configuration if the tracking point is not on the baseline. Examples are provided illustrating the tracking ability of the developed control algorithms.

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