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Hauptverfasser: Mohaghegh, Mahsa, Jafarpourdavatgar, Hedieh, Saeedinia, Samaneh Alsadat
Format: Preprint
Veröffentlicht: 2024
Schlagworte:
Online-Zugang:https://arxiv.org/abs/2405.01794
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author Mohaghegh, Mahsa
Jafarpourdavatgar, Hedieh
Saeedinia, Samaneh Alsadat
author_facet Mohaghegh, Mahsa
Jafarpourdavatgar, Hedieh
Saeedinia, Samaneh Alsadat
contents Robotic applications across industries demand advanced navigation for safe and smooth movement. Smooth path planning is crucial for mobile robots to ensure stable and efficient navigation, as it minimizes jerky movements and enhances overall performance Achieving this requires smooth collision-free paths. Partial Swarm Optimization (PSO) and Potential Field (PF) are notable path-planning techniques, however, they may struggle to produce smooth paths due to their inherent algorithms, potentially leading to suboptimal robot motion and increased energy consumption. In addition, while PSO efficiently explores solution spaces, it generates long paths and has limited global search. On the contrary, PF methods offer concise paths but struggle with distant targets or obstacles. To address this, we propose Smoothed Partial Swarm Optimization with Improved Potential Field (SPSO-IPF), combining both approaches and it is capable of generating a smooth and safe path. Our research demonstrates SPSO-IPF's superiority, proving its effectiveness in static and dynamic environments compared to a mere PSO or a mere PF approach.
format Preprint
id arxiv_https___arxiv_org_abs_2405_01794
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle New design of smooth PSO-IPF navigator with kinematic constraints
Mohaghegh, Mahsa
Jafarpourdavatgar, Hedieh
Saeedinia, Samaneh Alsadat
Robotics
Systems and Control
Robotic applications across industries demand advanced navigation for safe and smooth movement. Smooth path planning is crucial for mobile robots to ensure stable and efficient navigation, as it minimizes jerky movements and enhances overall performance Achieving this requires smooth collision-free paths. Partial Swarm Optimization (PSO) and Potential Field (PF) are notable path-planning techniques, however, they may struggle to produce smooth paths due to their inherent algorithms, potentially leading to suboptimal robot motion and increased energy consumption. In addition, while PSO efficiently explores solution spaces, it generates long paths and has limited global search. On the contrary, PF methods offer concise paths but struggle with distant targets or obstacles. To address this, we propose Smoothed Partial Swarm Optimization with Improved Potential Field (SPSO-IPF), combining both approaches and it is capable of generating a smooth and safe path. Our research demonstrates SPSO-IPF's superiority, proving its effectiveness in static and dynamic environments compared to a mere PSO or a mere PF approach.
title New design of smooth PSO-IPF navigator with kinematic constraints
topic Robotics
Systems and Control
url https://arxiv.org/abs/2405.01794