A People-Localization Method for Multi-Robot Systems First Approach for Guiding-Tours

A People-Localization Method for Multi-Robot Systems First Approach for Guiding-Tours

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Throughout this article we present a methodology to localize multiple people in a group by a multi-robot system (MRS). The aim of the MRS is to conduct people through hallways in indoors as a guided-tour service task. However, further than guidance process, we detail a method for humans' locali...

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Bibliographic Details
Main Authors: Edgar Martinez-Garcia, Akihisa Ohya, Shinichi Yuta
Format: Article
Language:English
Published: SAGE Publishing 2004-09-01
Series:International Journal of Advanced Robotic Systems
Online Access:https://doi.org/10.5772/5633
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spelling doaj-e0050353d7dc43cc9e2a631542034b732020-11-25T03:43:30ZengSAGE PublishingInternational Journal of Advanced Robotic Systems1729-88142004-09-01110.5772/563310.5772_5633A People-Localization Method for Multi-Robot Systems First Approach for Guiding-ToursEdgar Martinez-GarciaAkihisa OhyaShinichi YutaThroughout this article we present a methodology to localize multiple people in a group by a multi-robot system (MRS). The aim of the MRS is to conduct people through hallways in indoors as a guided-tour service task. However, further than guidance process, we detail a method for humans' localization by sharing distributed sensor data arising from the team of robots instrumented with stereo vision. The robustness of the method is presented, and by matching the real environment against the computed results, error in human localization is showed as well. As a first approach of the entire MRS goal, this paper explains from a task approach the way for environment ranging, spatial noise filtering, distributed sensor data fusion and clustering based segmentation. Likewise, through the paper experimental results are shown to verify the feasibility of the method.https://doi.org/10.5772/5633
collection DOAJ
language English
format Article
sources DOAJ
author Edgar Martinez-Garcia
Akihisa Ohya
Shinichi Yuta
spellingShingle Edgar Martinez-Garcia
Akihisa Ohya
Shinichi Yuta
A People-Localization Method for Multi-Robot Systems First Approach for Guiding-Tours
International Journal of Advanced Robotic Systems
author_facet Edgar Martinez-Garcia
Akihisa Ohya
Shinichi Yuta
author_sort Edgar Martinez-Garcia
title A People-Localization Method for Multi-Robot Systems First Approach for Guiding-Tours
title_short A People-Localization Method for Multi-Robot Systems First Approach for Guiding-Tours
title_full A People-Localization Method for Multi-Robot Systems First Approach for Guiding-Tours
title_fullStr A People-Localization Method for Multi-Robot Systems First Approach for Guiding-Tours
title_full_unstemmed A People-Localization Method for Multi-Robot Systems First Approach for Guiding-Tours
title_sort people-localization method for multi-robot systems first approach for guiding-tours
publisher SAGE Publishing
series International Journal of Advanced Robotic Systems
issn 1729-8814
publishDate 2004-09-01
description Throughout this article we present a methodology to localize multiple people in a group by a multi-robot system (MRS). The aim of the MRS is to conduct people through hallways in indoors as a guided-tour service task. However, further than guidance process, we detail a method for humans' localization by sharing distributed sensor data arising from the team of robots instrumented with stereo vision. The robustness of the method is presented, and by matching the real environment against the computed results, error in human localization is showed as well. As a first approach of the entire MRS goal, this paper explains from a task approach the way for environment ranging, spatial noise filtering, distributed sensor data fusion and clustering based segmentation. Likewise, through the paper experimental results are shown to verify the feasibility of the method.
url https://doi.org/10.5772/5633
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AT edgarmartinezgarcia peoplelocalizationmethodformultirobotsystemsfirstapproachforguidingtours
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AT shinichiyuta peoplelocalizationmethodformultirobotsystemsfirstapproachforguidingtours
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