scholarly journals Mobile Robot Path Navigation in Static Indoor Environment via AOR 9-Point Laplacian Iteration Numerical Technique

2020 ◽  
Vol 15 (2) ◽  
pp. 231-242
Author(s):  
W.K. Ling ◽  
A.A. Dahalan ◽  
A. Saudi
Keyword(s):  
Mobile Robot ◽  
Indoor Environment ◽  
Numerical Technique ◽  
Path Navigation ◽  
Robot Path

scholarly journals Convolutional Neural Network Based Path Navigation of a Differential Drive Robot in an Indoor Environment

2019 ◽  
Vol 8 (2S3) ◽  
pp. 547-549
Keyword(s):  
Neural Network ◽  
Neural Networks ◽  
Mobile Robot ◽  
Indoor Environment ◽  
Robot Navigation ◽  
Differential Drive ◽  
Multiple Datasets ◽  
Computation Process ◽  
Differential Drive Robot ◽  
Path Navigation

The current work illustrates a vision-guided approach to a real-time robot navigation system and the implementation of Faster Convolutional Neural Networks (FCNN) to train and detect objects with multiple datasets of the mobile robot and obstacles. The algorithm keeps monitoring the distance between the obstacles and generates way points inbetween the obstacles in such a way that a path is created towards the target. Thus, the shortest path for navigation is created which checks for possible errors and update the path during execution, making it an AI system. This approach reduces the need for incorporating multiple EMU sensors on the mobile robot and transfers the computation process to a remote processor. The processor and mobile robot communicate wirelessly for simultaneous localization and path planning. While the algorithm is being executed, trained objects are detected from each frame captured by the camera which is used to develop path by avoiding the obstacles. The performance of the system is evaluated by conducting multiple experiments with different mapping regions

scholarly journals Path planning for mobile robot using an enhanced ant colony optimization and path geometric optimization

2021 ◽  
Vol 18 (3) ◽  
pp. 172988142110192
Author(s):  
Songcan Zhang ◽  
Jiexin Pu ◽  
Yanna Si ◽  
Lifan Sun
Keyword(s):  
Path Planning ◽  
Convergence Rate ◽  
Mobile Robot ◽  
Local Optimization ◽  
Ant Colony ◽  
Ant Colony System ◽  
Geometric Features ◽  
Robot Path Planning ◽  
Computation Efficiency ◽  
Robot Path

Path planning of mobile robots in complex environments is the most challenging research. A hybrid approach combining the enhanced ant colony system with the local optimization algorithm based on path geometric features, called EACSPGO, has been presented in this study for mobile robot path planning. Firstly, the simplified model of pheromone diffusion, the pheromone initialization strategy of unequal allocation, and the adaptive pheromone update mechanism have been simultaneously introduced to enhance the classical ant colony algorithm, thus providing a significant improvement in the computation efficiency and the quality of the solutions. A local optimization method based on path geometric features has been designed to further optimize the initial path and achieve a good convergence rate. Finally, the performance and advantages of the proposed approach have been verified by a series of tests in the mobile robot path planning. The simulation results demonstrate that the presented EACSPGO approach provides better solutions, adaptability, stability, and faster convergence rate compared to the other tested optimization algorithms.

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