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Scan matching online cell decomposition for coverage path planning in an unknown environment
by
Chong, Nak Young
, Kim, Donghan
, Dugarjav, Batsaikhan
, Lee, Soon-Geul
, Kim, Jong Hyeong
in
Algorithms
/ Decomposition
/ Matching
/ Path planning
/ Representations
/ Robots
/ Unknown environments
2013
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Scan matching online cell decomposition for coverage path planning in an unknown environment
by
Chong, Nak Young
, Kim, Donghan
, Dugarjav, Batsaikhan
, Lee, Soon-Geul
, Kim, Jong Hyeong
in
Algorithms
/ Decomposition
/ Matching
/ Path planning
/ Representations
/ Robots
/ Unknown environments
2013
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Scan matching online cell decomposition for coverage path planning in an unknown environment
Journal Article
Scan matching online cell decomposition for coverage path planning in an unknown environment
2013
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Overview
This paper presents a novel sensor-based online coverage path-planning algorithm that guarantees the complete coverage of an unknown rectilinear workspace for the task of a mobile robot. The proposed algorithm divides the workspace of the robot into cells at each scan sample. This division can be classified as an exact cell decomposition method, which incrementally constructs cell decomposition while the robot covers an unknown workspace. To guarantee complete coverage, a closed map representation based on a feature extraction that consists of a set of line segments called critical edges is proposed. In this algorithm, cell boundaries are formed by extended critical edges, which are the sensed partial contours of walls and objects in the workspace. The robot uses a laser scanner to sense the critical edges. Sensor measurement is sampled twice in each cell. Scan matching is performed to merge map information between the reference scan and the current scan. At each scan sample, a two-direction oriented rectilinear decomposition is achieved in the workspace and presented by a closed map representation. The construction order of the cells is very important in this incremental cell decomposition algorithm. To choose the next target cell from candidate cells, the robot checks for redundancy in the planned path and for possible positions of the ending points of the current cell. The key point of the algorithm is memorizing the covered space to define the next target cell from possible cells. The path generation within the defined cell is determined to minimize the number of turns, which is the main factor in saving time during the coverage. Therefore, the cell’s long boundary should be chosen as the main path of the robot. This algorithm is verified by an experiment under the LABVIEW environment.
Publisher
Springer Nature B.V
Subject
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