Fuzzy Analytic Hierarchy Process-Based Mobile Robot Path Planning

Kim, Changwon; Kim, Yeesock; Yi, Hak

doi:10.3390/electronics9020290

Cited by 26 publications

(28 citation statements)

References 31 publications

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“…In order to maximize the utilization of the mobile robot, it is essential to generate a path for the dynamic environment. FAHP has the ability to respond to dynamic aspects, such as unknown obstacles and moving targets, as shown in [36,38]. FAHP originated form analytic hierarchy process (AHP), which is one of the most famous multi-purpose decision-making tools and is used in various fields.…”

Section: A Hybrid Path Planning Algorithmmentioning

confidence: 99%

“…Then, Chang [41] proposed the extent analysis method, thereby replacing Saaty's nine-point pairwise scale to triangular fuzzy numbers. References [36,38] applied FAHP on mobile robot path planning considering multi-objectives such as the travel distance to the target, collision safety with obstacles, and the rotation of the robot to face the target. However, due to the nature of the algorithm, FAHP, which is an online path planning algorithm, cannot guarantee optimal path generation.…”

Section: A Hybrid Path Planning Algorithmmentioning

confidence: 99%

“…In this section, a hybrid path planning algorithm is proposed. Recently, reference [36,38] developed an FAHP-based path planning algorithm while applying a single robot and multi-robot navigation scenarios, respectively. From these studies, FAHP considered multi-objectives such as distance to the target, safety, and rotation to the target simultaneously.…”

Section: The A* and Fuzzy Analytic Hierarchy Process-based Hybrid Patmentioning

confidence: 99%

“…Additionally, the A* algorithm is a well-known algorithm. Therefore, in this paper, two algorithms are briefly introduced, and more detailed descriptions of FAHP and A * are replaced by a reference [36,38,48].…”

Section: Offline Onlinementioning

confidence: 99%

“…By means of FAHP, the best candidate was selected as the solution for the robot to move. The implementation of the FAHP follows the procedure below (the following were reduced from [38]).…”

Section: Fahp Based Path Planningmentioning

confidence: 99%

See 4 more Smart Citations

Development of a Hybrid Path Planning Algorithm and a Bio-Inspired Control for an Omni-Wheel Mobile Robot

Kim

Suh

Han

2020

Sensors

Self Cite

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This research presents a control structure for an omni-wheel mobile robot (OWMR). The control structure includes the path planning module and the motion control module. In order to secure the robustness and fast control performance required in the operating environment of OWMR, a bio-inspired control method, brain limbic system (BLS)-based control, was applied. Based on the derived OWMR kinematic model, a motion controller was designed. Additionally, an optimal path planning module is suggested by combining the advantages of A* algorithm and the fuzzy analytic hierarchy process (FAHP). In order to verify the performance of the proposed motion control strategy and path planning algorithm, numerical simulations were conducted. Through a point-to-point movement task, circular path tracking task, and randomly moving target tracking task, it was confirmed that the suggesting motion controller is superior to the existing controllers, such as PID. In addition, A*–FAHP was applied to the OWMR to verify the performance of the proposed path planning algorithm, and it was simulated based on the static warehouse environment, dynamic warehouse environment, and autonomous ballet parking scenarios. The simulation results demonstrated that the proposed algorithm generates the optimal path in a short time without collision with stop and moving obstacles.

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Section: A Hybrid Path Planning Algorithmmentioning

confidence: 99%

Section: A Hybrid Path Planning Algorithmmentioning

confidence: 99%

Section: The A* and Fuzzy Analytic Hierarchy Process-based Hybrid Patmentioning

confidence: 99%

Section: Offline Onlinementioning

confidence: 99%

“…By means of FAHP, the best candidate was selected as the solution for the robot to move. The implementation of the FAHP follows the procedure below (the following were reduced from [38]).…”

Section: Fahp Based Path Planningmentioning

confidence: 99%

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Development of a Hybrid Path Planning Algorithm and a Bio-Inspired Control for an Omni-Wheel Mobile Robot

Kim

Suh

Han

2020

Sensors

Self Cite

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Path Planning of E-puck Mobile Robots Using Braitenberg Algorithm

Gogoi

Mohanty

2022

Lecture Notes in Electrical Engineering

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Real-time path planning for autonomous vehicle based on teaching–learning-based optimization

Sabiha

Kamel

Said

et al. 2022

Intel Serv Robotics

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This paper presents an online path planning approach for an autonomous tracked vehicle in a cluttered environment based on teaching–learning-based optimization (TLBO), considering the path smoothness, and the potential collision with the surrounding obstacles. In order to plan an efficient path that allows the vehicle to be autonomously navigated in cluttered environments, the path planning problem is solved as a multi-objective optimization problem. First, the vehicle perception is fully achieved by means of inertial measurement unit (IMU), wheels odometry, and light detection and ranging (LiDAR). In order to compensate the sensors drift to achieve more reliable data and improve the localization estimation and corrections, data fusion between the outputs of wheels odometry, LiDAR, and IMU is made through extended Kalman filter (EKF). Then, TLBO is proposed and applied to determine the optimum online path, where the objectives are to find the shortest path to reach the target destination, and to maximize the path smoothness, while avoiding the surrounding obstacles, and taking into account the vehicle dynamic and algebraic constraints. To check the performance of the proposed TLBO algorithm, it is compared in simulation to genetic algorithm (GA), particle swarm optimization (PSO), and a hybrid GA–PSO algorithm. Finally, real-time experiments based on robot operating system (ROS) implementation are conducted to validate the effectiveness of the proposed path planning algorithm.

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Fuzzy Analytic Hierarchy Process-Based Mobile Robot Path Planning

Cited by 26 publications

References 31 publications

Development of a Hybrid Path Planning Algorithm and a Bio-Inspired Control for an Omni-Wheel Mobile Robot

Development of a Hybrid Path Planning Algorithm and a Bio-Inspired Control for an Omni-Wheel Mobile Robot

Path Planning of E-puck Mobile Robots Using Braitenberg Algorithm

Real-time path planning for autonomous vehicle based on teaching–learning-based optimization

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