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Autores principales: Kasahara, Yuichiro, Akinari, Kota, Kouno, Tomoya, Sano, Noriko, Abe, Taro, Yamauchi, Genki, Endo, Daisuke, Hashimoto, Takeshi, Nagatani, Keiji, Kurazume, Ryo
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2412.00147
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author Kasahara, Yuichiro
Akinari, Kota
Kouno, Tomoya
Sano, Noriko
Abe, Taro
Yamauchi, Genki
Endo, Daisuke
Hashimoto, Takeshi
Nagatani, Keiji
Kurazume, Ryo
author_facet Kasahara, Yuichiro
Akinari, Kota
Kouno, Tomoya
Sano, Noriko
Abe, Taro
Yamauchi, Genki
Endo, Daisuke
Hashimoto, Takeshi
Nagatani, Keiji
Kurazume, Ryo
contents In recent years, labor shortages due to the declining birthrate and aging population have become significant challenges at construction sites in developed countries, including Japan. To address these challenges, we are developing an open platform called ROS2-TMS for Construction, a Cyber-Physical System (CPS) for construction sites, to achieve both efficiency and safety in earthwork operations. In ROS2-TMS for Construction, the system comprehensively collects and stores environmental information from sensors placed throughout the construction site. Based on these data, a real-time virtual construction site is created in cyberspace. Then, based on the state of construction machinery and environmental conditions in cyberspace, the optimal next actions for actual construction machinery are determined, and the construction machinery is operated accordingly. In this project, we decided to use the Open Platform for Earthwork with Robotics and Autonomy (OPERA), developed by the Public Works Research Institute (PWRI) in Japan, to control construction machinery from ROS2-TMS for Construction with an originally extended behavior tree. In this study, we present an overview of OPERA, focusing on the newly developed navigation package for operating the crawler dump, as well as the overall structure of ROS2-TMS for Construction as a Cyber-Physical System (CPS). Additionally, we conducted experiments using a crawler dump and a backhoe to verify the aforementioned functionalities.
format Preprint
id arxiv_https___arxiv_org_abs_2412_00147
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Development of CPS Platform for Autonomous Construction
Kasahara, Yuichiro
Akinari, Kota
Kouno, Tomoya
Sano, Noriko
Abe, Taro
Yamauchi, Genki
Endo, Daisuke
Hashimoto, Takeshi
Nagatani, Keiji
Kurazume, Ryo
Robotics
In recent years, labor shortages due to the declining birthrate and aging population have become significant challenges at construction sites in developed countries, including Japan. To address these challenges, we are developing an open platform called ROS2-TMS for Construction, a Cyber-Physical System (CPS) for construction sites, to achieve both efficiency and safety in earthwork operations. In ROS2-TMS for Construction, the system comprehensively collects and stores environmental information from sensors placed throughout the construction site. Based on these data, a real-time virtual construction site is created in cyberspace. Then, based on the state of construction machinery and environmental conditions in cyberspace, the optimal next actions for actual construction machinery are determined, and the construction machinery is operated accordingly. In this project, we decided to use the Open Platform for Earthwork with Robotics and Autonomy (OPERA), developed by the Public Works Research Institute (PWRI) in Japan, to control construction machinery from ROS2-TMS for Construction with an originally extended behavior tree. In this study, we present an overview of OPERA, focusing on the newly developed navigation package for operating the crawler dump, as well as the overall structure of ROS2-TMS for Construction as a Cyber-Physical System (CPS). Additionally, we conducted experiments using a crawler dump and a backhoe to verify the aforementioned functionalities.
title Development of CPS Platform for Autonomous Construction
topic Robotics
url https://arxiv.org/abs/2412.00147