Journal ArticleDOI
Toward energy-efficient online Complete Coverage Path Planning of a ship hull maintenance robot based on Glasius Bio-inspired Neural Network
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In this paper , the authors proposed a novel energy-efficient Complete Coverage Path Planning (CCPP) method based on Glasius Bioinspired Neural Network (GBNN) for a ship hull inspection robot.Abstract:
Regular Ship hull maintenance is an essential for sustainability. The maintenance work of ship hulls that involve human labor suffers from many shortcomings. Maintenance robots have been introduced for drydocks to eliminate these shortcomings. An energy-efficient Complete Coverage Path Planning (CCPP) is a crucial requirement from a ship hull maintenance robot. This paper proposes a novel energy-efficient CCPP method based on Glasius Bioinspired Neural Network (GBNN) for a ship hull inspection robot. The proposed method accounts for a comprehensive energy model for path planning. This energy model reflects the energy usage of a ship hull maintenance robot due to changes in direction, distance, and vertical position. Furthermore, the proposed method is effective for dynamic workspaces since it performs online path planning. These are the major contributions made to state of the art by the work proposed in this paper. The behavior and the performance of the proposed method have been compared against state of the art through simulations considering Hornbill, a multipurpose ship hull maintenance robot. The validation confirms the ability of the proposed in realizing a complete coverage of a given dynamic workspace. According to the statistical outcomes of the comparison, the performance of the proposed method significantly surpasses that of the state-of-the-art methods in terms of energy usage. Therefore, the proposed method contributes to the development of energy-efficient CCPP methods for a ship hull maintenance robot. read more
Citations
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Neural Network Non-Singular Terminal Sliding Mode Control for Target Tracking of Underactuated Underwater Robots with Prescribed Performance
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A survey on coverage path planning for robotics
Enric Galceran,Marc Carreras +1 more
TL;DR: A review of the most successful CPP methods, focusing on the achievements made in the past decade, is presented, providing links to the most interesting and successful works.
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An improved ant colony algorithm for robot path planning
TL;DR: To solve the problems of convergence speed in the ant colony algorithm, an improved ant colony optimization algorithm is proposed for path planning of mobile robots in the environment that is expressed using the grid method.
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Climbing robots for maintenance and inspections of vertical structures-A survey of design aspects and technologies
Daniel Schmidt,Karsten Berns +1 more
TL;DR: Based on a given set of requirements these principles are examined and in terms of a comprehensive state-of-the-art more than hundred climbing robots are presented and this schematics is applied to design aspects of a wall-climbing robot which should be able to inspect large concrete buildings.
Journal ArticleDOI
Biologically Inspired Self-Organizing Map Applied to Task Assignment and Path Planning of an AUV System
TL;DR: An integrated biologically inspired self-organizing map (SOM) algorithm is proposed for task assignment and path planning of an autonomous underwater vehicle (AUV) system in 3-D underwater environments with obstacle avoidance.