2022
DOI: 10.3390/s22145181
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Improved Dynamic Window Approach for Unmanned Surface Vehicles’ Local Path Planning Considering the Impact of Environmental Factors

Abstract: The aim of local path planning for unmanned surface vehicles (USVs) is to avoid unknown dynamic or static obstacles. However, current relative studies have not fully considered the impact of ocean environmental factors which significantly increase the control difficulty and collision risk of USVs. Therefore, this work studies two ocean environmental factors, namely, wave and current, given that they both have a significant impact on USVs. Furthermore, we redesign a kinematic model of an USV and the evaluation … Show more

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Cited by 21 publications
(9 citation statements)
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“…This inclusion aids in the assessment of predicted trajectories. In [47], because previous research in this field had not completely taken into account the influence of oceanic environmental elements, which notably amplify the challenges to controlling USVs and the potential for collisions, this study therefore focused on investigating the effects of two specific oceanic environmental factors-waves and currents-recognizing their substantial impact on USVs. Moreover, they authors reconfigure a kinematic representation for a USV and revise the assessment criterion for a traditional and pragmatic local route planning technique grounded in the dynamic window approach (DWA).…”
Section: Dynamic Window Approach Algorithmmentioning
confidence: 99%
“…This inclusion aids in the assessment of predicted trajectories. In [47], because previous research in this field had not completely taken into account the influence of oceanic environmental elements, which notably amplify the challenges to controlling USVs and the potential for collisions, this study therefore focused on investigating the effects of two specific oceanic environmental factors-waves and currents-recognizing their substantial impact on USVs. Moreover, they authors reconfigure a kinematic representation for a USV and revise the assessment criterion for a traditional and pragmatic local route planning technique grounded in the dynamic window approach (DWA).…”
Section: Dynamic Window Approach Algorithmmentioning
confidence: 99%
“…The parameters corresponding to this expression are as follows: Using the wave load formula in [19], and using the current load formula [3] which is similar to the wind load formula in [14]. The wave load is represented by Equation ( 3), the current load is represented according to Equation ( 4), and the wind load is represented by Equation ( 5).…”
Section: Model Of Ship Motionmentioning
confidence: 99%
“…In a dynamic obstacle environment, it can ensure that the robot reaches the target point smoothly and shortens the time spent on the entire process. Wang et al [17] have redesigned the kinematic model of the underwater vehicle and the evaluation function for local path planning based on DWA to ensure that the vehicle can adjust to the target point and avoid obstacles promptly during navigation. Jin et al [18] propose a fusion algorithm RACO in complex dynamic environments, improves ant colony optimization, and proposes a two-level safety distance determination rule to handle unknown obstacles.…”
Section: Introductionmentioning
confidence: 99%