Real-Time Hybrid Navigation System-Based Path Planning and Obstacle Avoidance for Mobile Robots

Luan, Phan Gia; Thinh, Nguyen Truong

doi:10.3390/app10103355

Cited by 32 publications

(14 citation statements)

References 14 publications

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“…For future work arrangements, future research should focus on the kinematics and dynamic constraints of the vehicle [36][37][38] and the contribution of deep learning to dynamic obstacle avoidance [39][40][41]. Because the car is regarded as a particle simulation in this paper, the speed is unchanged, and the rotation angle is not limited, which is not beneficial to trajectory tracking in the later stage.…”

Section: Discussionmentioning

confidence: 99%

Global path guided vehicle obstacle avoidance path planning with artificial potential field method

Chen

Lin

Sun

2023

IET Cyber-Syst and Robotics

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An artificial potential field method based on global path guidance (G-APF) is proposed for target unreachability and local minima problems of the conventional artificial potential field (APF) method in complex environments with dynamic obstacles. First, for the target unreachability problem, the global path attraction is added to the APF; second, an obstacle detection optimisation method is proposed and the optimal virtual target point is selected by setting the evaluation function to improve the local minima problem; finally, based on the obstacle detection optimisation method, the gravitational and repulsive processes are improved so that the path can pass through the narrow channel smoothly and remain collision-free. Experiments show that the method optimises 40.8% of the total path corners, reduces 81.8% of the number of path oscillations, and shortens 4.3% of the path length in Map 1. It can be applied to the vehicle obstacle avoidance path planning problem in complex environments with dynamic obstacles.

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Section: Discussionmentioning

confidence: 99%

Global path guided vehicle obstacle avoidance path planning with artificial potential field method

Chen

Lin

Sun

2023

IET Cyber-Syst and Robotics

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“…The application of obstacle avoidance is also investigated for the case of mobile robots in [12], to meet the ever-growing use of such systems. This paper proposes some real-time algorithms for the navigation of an autonomous service robot in an indoor environment in the presence of moving obstacles.…”

Section: Motion Planningmentioning

confidence: 99%

Optimization of Motion Planning and Control for Automatic Machines, Robots and Multibody Systems

Boscariol¹,

Richiedei²

2020

Applied Sciences

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“…Consequently, the fundamental technology that allows a robot to perform autonomous navigation is path planning [2] . It can navigate an obstacle-filled environment and find the best route from the starting point to the destination while avoiding all obstacles [3][4] . Furthermore, path planning is separated into two categories: local planning and global planning [5] .…”

Section: Introductionmentioning

confidence: 99%

Path planning using A* algorithm and DWA

Duan

2024

Fourth International Conference on Machine Learning and Computer Application (ICMLCA 2023)

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Focusing on the issue that global path optimization and real-time obstacle avoidance cannot be combined while employing the A* algorithm or dynamic window technique alone in mobile robot navigation. A suggested mobile robot navigation algorithm combines the dynamic window approach with the enhanced A* algorithm. First, in the improved A* algorithm, the cost function is adaptively adjusted to improve the search efficiency of A* algorithm by introducing environmental information. In order to plan a global path with just key nodes, redundant nodes are removed and necessary path nodes are retained using a key node selection approach. Then, the evaluation function of dynamic window approach combined with key nodes information is constructed. The dynamic window approach is applied to plan the local path with the key nodes as the intermediate target points to improve the smoothness of the path, so as to achieve the global path optimization and real-time obstacle avoidance function. Finally, the viability and validity of the suggested navigation method is verified by demonstrating both simulation and real-world experiments simultaneously.

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Real-Time Hybrid Navigation System-Based Path Planning and Obstacle Avoidance for Mobile Robots

Cited by 32 publications

References 14 publications

Global path guided vehicle obstacle avoidance path planning with artificial potential field method

Global path guided vehicle obstacle avoidance path planning with artificial potential field method

Optimization of Motion Planning and Control for Automatic Machines, Robots and Multibody Systems

Path planning using A* algorithm and DWA

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