Development and applications of rescue robots for explosion accidents in coal mines

It is essential to provide disaster relief assistance after coal mine explosions. Often, it is life‐threatening for rescuers to enter an accident scene blindly; therefore, a coal mine rescue robot (CMRR) has been developed. However, the application of the CMRR has not proven satisfactory after decad...

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Veröffentlicht in:	Journal of field robotics 2020-04, Vol.37 (3), p.466-489
Hauptverfasser:	Li, Yutan, Li, Menggang, Zhu, Hua, Hu, Eryi, Tang, Chaoquan, Li, Peng, You, Shaoze
Format:	Artikel
Sprache:	eng
Schlagworte:	Accidents Coal mines Coal mining Communications systems construction Data transmission Disaster relief extreme environments Field tests Mine explosions mining Performance tests Robots subterranean robotics Support systems Underground explosions Walking
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container_title	Journal of field robotics
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creator	Li, Yutan Li, Menggang Zhu, Hua Hu, Eryi Tang, Chaoquan Li, Peng You, Shaoze
description	It is essential to provide disaster relief assistance after coal mine explosions. Often, it is life‐threatening for rescuers to enter an accident scene blindly; therefore, a coal mine rescue robot (CMRR) has been developed. However, the application of the CMRR has not proven satisfactory after decades of development. To solve this problem, we summarize the reasons for this disappointing state and address the technical challenges of the CMRR. Based on these reasons and the associated technical challenges, two generations of tracked robots have been developed. The China University of Mining Technology‐V (CUMT‐V) (A) robot was first developed and its walking system, body support system, communication system, environmental awareness system, and control system are described in detail. A performance test was performed on the CUMT‐V (A) robot and some problems were encountered. To address these problems, we designed the CUMT‐V (B) robot. The field test was conducted in Shanxi province, China, in August 2016. The application results show that the robot has good adaptability to complex terrain and high reliability in terms of environmental awareness and data transmission. In conclusion, the robot is nearing practical applications.
doi_str_mv	10.1002/rob.21920
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Often, it is life‐threatening for rescuers to enter an accident scene blindly; therefore, a coal mine rescue robot (CMRR) has been developed. However, the application of the CMRR has not proven satisfactory after decades of development. To solve this problem, we summarize the reasons for this disappointing state and address the technical challenges of the CMRR. Based on these reasons and the associated technical challenges, two generations of tracked robots have been developed. The China University of Mining Technology‐V (CUMT‐V) (A) robot was first developed and its walking system, body support system, communication system, environmental awareness system, and control system are described in detail. A performance test was performed on the CUMT‐V (A) robot and some problems were encountered. To address these problems, we designed the CUMT‐V (B) robot. The field test was conducted in Shanxi province, China, in August 2016. 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subjects	Accidents Coal mines Coal mining Communications systems construction Data transmission Disaster relief extreme environments Field tests Mine explosions mining Performance tests Robots subterranean robotics Support systems Underground explosions Walking
title	Development and applications of rescue robots for explosion accidents in coal mines
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