Optimization Complete Area Coverage by Reconfigurable hTrihex Tiling Robot

Le, Anh Vu; Parween, Rizuwana; Mohan, Rajesh Elara; Nhan, Nguyen Huu Khanh; Abdulkader, Raihan Enjikalayil

doi:10.3390/s20113170

Cited by 29 publications

(33 citation statements)

References 24 publications

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“…In order to achieve autonomous propagation, it is critical to obtain an accurate robot's position on the hull surface. Conventional approaches estimating the global position of the robot are Lidar based simultaneous localization and mapping SLAM [24] and visual SLAM [25] and sensor fusion localization [26] and feature tracking [27]. These methods derive the features of objects inside the working environment to estimate the global location.…”

Section: Hornbill Autonomy By Sensor Fussionmentioning

confidence: 99%

Hornbill: A Self-Evaluating Hydro-Blasting Reconfigurable Robot for Ship Hull Maintenance

Veerajagadheswar

Kyaw

et al. 2020

IEEE Access

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Maintenance of ship hull involves routine tasks during dry-docking that includes inspection, paint stripping, and re-painting. Among those, paint stripping is always seen as harmful for human operators and a time-consuming task. To reduce human risk, cost, and environmental cleanliness, the shipping maintenance industries started using robotic solutions. However, most of such robotic systems cannot operate fully autonomous since it requires human in the loop to monitor the cleaning efficiency. To this end, a novel autonomous self-evaluating hull cleaning robot called Hornbill is presented in this paper. The proposed robot is capable of navigating autonomously on the hull surface and perform water jet blasting to strip off the paint coating. The robot is also enabled with a Deep Convolutional Neural Network (DCNN) based self-evaluating scheme that benchmarks cleaning efficiency. We evaluated the proposed robot's performance by conducting experimental trials on a metal plate under three different paint coatings. While performing the paint stripping task in every experimental trial, the self-evaluating scheme would generate the heat map that depicts the plate's cleanliness. The results indicate that the proposed self-evaluating system could successfully generate high accurate cleanliness heat maps in all considered scenarios, which simplifies the checkup process for paint inspectors. INDEX TERMS Benchmarking blasting quality, Hydro blasting, Paint stripping, Reconfigurable robotics, Robotics for ship maintenance industry.

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Section: Hornbill Autonomy By Sensor Fussionmentioning

confidence: 99%

Hornbill: A Self-Evaluating Hydro-Blasting Reconfigurable Robot for Ship Hull Maintenance

Veerajagadheswar

Kyaw

et al. 2020

IEEE Access

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“…C OVERAGE Path Planning (CPP) algorithms have been applied to several robotics applications in real-world such as floor-cleaning robots [1], [2], underwater operations [3], agricultural robots [4], tiling robotics [5]- [7], ship hull cleaning [8], benchmarking for inspection [9] and pavement sweeping [10], [11] to name a few. CPP describes an approach designed to determine a path that passes through all the workspace points while avoiding obstacles.…”

Section: Introductionmentioning

confidence: 99%

Coverage Path Planning for Decomposition Reconfigurable Grid-Maps Using Deep Reinforcement Learning Based Travelling Salesman Problem

et al. 2020

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“…An inter-reconfigurable robot consists of a congregation of homogeneous or heterogeneous modules and forms a variety of morphologies through assembly and disassembly process. Examples include chain-type systems like Tetriamond [13], CONRO [14], hTetro-Infi [15], hTrihex [16], Crystal [17], and M-Lattice [18]; as well as hybridtype robots like M-TRAN [19].…”

Section: Introductionmentioning

confidence: 99%

Multi-Objective Genetic Algorithm-Based Autonomous Path Planning for Hinged-Tetro Reconfigurable Tiling Robot

Elara

Nhan

et al. 2020

IEEE Access

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Reconfigurable robots have received broad research interest due to the high dexterity they provide and the complex actions they could perform. Robots with reconfigurability are perfect candidates in tasks like exploration or rescue missions in environments with complicated obstacle layout or with dynamic obstacles. However, the automation of reconfigurable robots is more challenging than fix-shaped robots due to the increased possible combinations of robot actions and the navigation difficulty in obstaclerich environments. This paper develops a systematic strategy to construct a model of hinged-Tetromino (hTetro) reconfigurable robot in the workspace and proposes a genetic algorithm-based method (hTetro-GA) to achieve path planning for hTetro robots. The proposed algorithm considers hTetro path planning as a multi-objective optimization problem and evaluates the performance of the outcome based on four customized fitness objective functions. In this work, the proposed hTetro-GA is tested in six virtual environments with various obstacle layouts and characteristics and with different population sizes. The algorithm generates Pareto-optimal solutions that achieve desire robot configurations in these settings, with O-shaped and I-shaped morphologies being the more efficient configurations selected from the genetic algorithm. The proposed algorithm is implemented and tested on real hTetro platform, and the framework of this work could be adopted to other robot platforms with multiple configurations to perform multi-objective based path planning. INDEX TERMS Reconfigurable robot, Tiling robotics, Multi-objective path planning, Genetic algorithm, NSGA-II.

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Optimization Complete Area Coverage by Reconfigurable hTrihex Tiling Robot

Cited by 29 publications

References 24 publications

Hornbill: A Self-Evaluating Hydro-Blasting Reconfigurable Robot for Ship Hull Maintenance

Hornbill: A Self-Evaluating Hydro-Blasting Reconfigurable Robot for Ship Hull Maintenance

Coverage Path Planning for Decomposition Reconfigurable Grid-Maps Using Deep Reinforcement Learning Based Travelling Salesman Problem

Multi-Objective Genetic Algorithm-Based Autonomous Path Planning for Hinged-Tetro Reconfigurable Tiling Robot

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