Map Explorations via Dynamic Tree Structured Graph

Rei Shu Shieh; Kuo Shih Tseng

doi:10.1109/LRA.2024.3387123

Map Explorations via Dynamic Tree Structured Graph

Rei Shu Shieh, Kuo Shih Tseng

Department of Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

Map exploration in unknown environments is the key to various robotics applications (e.g., 3D reconstruction, search and rescue). However, finding the optimal path to maximize the environmental coverage is NP-hard. To overcome this problem, this research proposes a dynamic generalized cost-benefit (DGCB) algorithm to explore unknown environments via utilizing submodularity and tree-Structured routing. Moreover, the theoretical guarantees at each time step are proved via submodularity. The experiments show that the proposed method outperforms benchmark methods (e.g., FUEL, GCB, GCB-MST).

Original language	English
Pages (from-to)	5062-5069
Number of pages	8
Journal	IEEE Robotics and Automation Letters
Volume	9
Issue number	6
DOIs	https://doi.org/10.1109/LRA.2024.3387123
State	Published - 1 Jun 2024

Keywords

3D map exploration
maximal coverage problem
Submodularity

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10.1109/LRA.2024.3387123

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title = "Map Explorations via Dynamic Tree Structured Graph",

abstract = "Map exploration in unknown environments is the key to various robotics applications (e.g., 3D reconstruction, search and rescue). However, finding the optimal path to maximize the environmental coverage is NP-hard. To overcome this problem, this research proposes a dynamic generalized cost-benefit (DGCB) algorithm to explore unknown environments via utilizing submodularity and tree-Structured routing. Moreover, the theoretical guarantees at each time step are proved via submodularity. The experiments show that the proposed method outperforms benchmark methods (e.g., FUEL, GCB, GCB-MST).",

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AU - Tseng, Kuo Shih

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N2 - Map exploration in unknown environments is the key to various robotics applications (e.g., 3D reconstruction, search and rescue). However, finding the optimal path to maximize the environmental coverage is NP-hard. To overcome this problem, this research proposes a dynamic generalized cost-benefit (DGCB) algorithm to explore unknown environments via utilizing submodularity and tree-Structured routing. Moreover, the theoretical guarantees at each time step are proved via submodularity. The experiments show that the proposed method outperforms benchmark methods (e.g., FUEL, GCB, GCB-MST).

AB - Map exploration in unknown environments is the key to various robotics applications (e.g., 3D reconstruction, search and rescue). However, finding the optimal path to maximize the environmental coverage is NP-hard. To overcome this problem, this research proposes a dynamic generalized cost-benefit (DGCB) algorithm to explore unknown environments via utilizing submodularity and tree-Structured routing. Moreover, the theoretical guarantees at each time step are proved via submodularity. The experiments show that the proposed method outperforms benchmark methods (e.g., FUEL, GCB, GCB-MST).

KW - 3D map exploration

KW - maximal coverage problem

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JO - IEEE Robotics and Automation Letters

JF - IEEE Robotics and Automation Letters

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Map Explorations via Dynamic Tree Structured Graph

Abstract

Keywords

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