Proceedings ArticleDOI
Path planning of mobile robot using neural network
Il-kyun Jung,Ki-Bum Hong,Suk-Kyo Hong,Soon-Chan Hong +3 more
- Vol. 3, pp 979-983
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TLDR
In this article, the authors present an effective method to achieve both obstacle-avoidance and target-tracking for an autonomous mobile robot in an indoor environment, which employs a wall following algorithm using neural network pattern recognition to avoid obstacles.Abstract:
In this paper, the authors present an effective method to achieve both obstacle-avoidance and target-tracking for an autonomous mobile robot in an indoor environment. They employ a wall following algorithm using neural network pattern recognition to avoid obstacles. An autonomous mobile robot reaches a given goal target by tracking algorithm. In case obstacles are detected by sonar sensors, an autonomous mobile robot avoids collision with obstacles by wall following algorithm. They propose a simple making method to avoid being trapped in a local minima which was a serious problem in local path planning. Simulation results using mobile robot demonstrate that the proposed algorithms are well suited to the obstacle-avoidance using wall-following and the path planning task for target-tracking.read more
Citations
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Parallel Elite Genetic Algorithm and Its Application to Global Path Planning for Autonomous Robot Navigation
TL;DR: This PEGA, consisting of two parallel EGAs along with a migration operator, takes advantages of maintaining better population diversity, inhibiting premature convergence, and keeping parallelism in comparison with conventional GAs, thus significantly expediting computation speed.
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A Mobile Robot Path Planning Using Genetic Algorithm in Static Environment
TL;DR: The proposed controlling algorithm allows four-neighbor movements, so that path-planning can adapt with complicated search spaces with low complexities, and the results are promising.
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Fuzzy target tracking control of autonomous mobile robots by using infrared sensors
TL;DR: The theme of this paper is to design a real-time fuzzy target tracking control scheme for autonomous mobile robots by using infrared sensors, which consists of a behavior network and a gate network.
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Global path planning for autonomous robot navigation using hybrid metaheuristic GA-PSO algorithm
Hsu-Chih Huang,Ching-Chih Tsai +1 more
TL;DR: A hybrid metaheuristic GA (genetic algorithm)-PSO (particle swarm optimization) algorithm for autonomous robot navigation to find an optimal path between a starting and ending point in a grid environment to avoid the premature convergence and time complexity in conventional GA and PSO algorithms.
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SoPC-Based Parallel ACO Algorithm and its Application to Optimal Motion Controller Design for Intelligent Omnidirectional Mobile Robots
TL;DR: Results indicate that the proposed PACO-based embedded optimal controller outperforms the nonoptimal controllers and the conventional genetic algorithm optimal controllers in polar coordinates.
References
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Journal ArticleDOI
The dynamic window approach to collision avoidance
TL;DR: This approach, designed for mobile robots equipped with synchro-drives, is derived directly from the motion dynamics of the robot and safely controlled the mobile robot RHINO in populated and dynamic environments.
Proceedings ArticleDOI
The sonar ring: Obstacle detection for a mobile robot
TL;DR: A method for quickly obtaining multiple sonar range readings is presented for obstacle detection in commercial automatic guided vehicles (AGVs) and ultrasonic pulse-echo devices.
Proceedings ArticleDOI
Following a wall by an autonomous mobile robot with a sonar-ring
Yoshinobu Ando,S. Yuta +1 more
TL;DR: The proposed wall-following algorithm makes a robot able to follow a wall in various shapes such as a square wall, a circular wall etc.
Proceedings ArticleDOI
Wall-following control of a mobile robot
TL;DR: The feedback controller has been set up in such a way that it can handle both the observer data and dead-reckoning data and the results show a good performance with an absolute error of a few millimeters from the desired distance to the wall.
Proceedings ArticleDOI
Following A Wall With A Mobile Robot Using Ultrasonic Sensors
P. van Turennout,G. Honderd +1 more
TL;DR: The wall-following control of a mobile robot without a sensor system is discussed and the results show a good performance with emrs of a few millimetres from the desired distance to the wall.