Laser-based geometric modeling using cooperative multiple mobile robots

In order to construct three-dimensional shape models of large-scale architectural structures using a laser range finder, a number of range images are taken from various viewpoints. These images are aligned using post-processing procedures such as the ICP algorithm. However, in general, before applyi...

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Hauptverfasser:	Kurazume, Ryo, Noda, Yusuke, Tobata, Yukihiro, Lingemann, Kai, Iwashita, Yumi, Hasegawa, Tsutomu
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Cultural differences Humans Image converters Iterative closest point algorithm Large-scale systems Laser modes Mobile robots Position measurement Shape Solid modeling
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creator	Kurazume, Ryo Noda, Yusuke Tobata, Yukihiro Lingemann, Kai Iwashita, Yumi Hasegawa, Tsutomu
description	In order to construct three-dimensional shape models of large-scale architectural structures using a laser range finder, a number of range images are taken from various viewpoints. These images are aligned using post-processing procedures such as the ICP algorithm. However, in general, before applying the ICP algorithm, these range images must be aligned roughly by a human operator in order to converge to precise positions. The present paper proposes a new modeling system using a group of multiple robots and an on-board laser range finder. Each measurement position is identified by a highly precise positioning technique called Cooperative Positioning System (CPS), which utilizes the characteristics of the multiple-robot system. Thus, the proposed system can construct 3D shapes of large-scale architectural structures without any post-processing procedure or manual registration. ICP is applied optionally for a subsequent refinement of the model. Measurement experiments in unknown and large indoor/outdoor environments are carried out successfully using the newly developed measurement system consisting of three mobile robots named CPS-V. Generating a model of Dazaifu Tenmangu, a famous cultural heritage, for its digital archive completes the paper.
doi_str_mv	10.1109/ROBOT.2009.5152237
format	Conference Proceeding
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subjects	Cultural differences Humans Image converters Iterative closest point algorithm Large-scale systems Laser modes Mobile robots Position measurement Shape Solid modeling
title	Laser-based geometric modeling using cooperative multiple mobile robots
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