Design and Control of a Highly Redundant Rigid-flexible Coupling Robot to Assist the COVID-19 Oropharyngeal-Swab Sampling

Design and Control of a Highly Redundant Rigid-flexible Coupling Robot to Assist the COVID-19 Oropharyngeal-Swab Sampling

The outbreak of novel coronavirus pneumonia (COVID-19) has caused mortality and morbidity worldwide. Oropharyngeal-swab (OP-swab) sampling is widely used for the diagnosis of COVID-19 in the world. To avoid the clinical staff from being affected by the virus, we developed a 9-degree-of-freedom (DOF)...

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Veröffentlicht in:IEEE robotics and automation letters 2022-04, Vol.7 (2), p.1856-1863
Hauptverfasser: Hu, Yingbai, Li, Jian, Chen, Yongquan, Wang, Qiwen, Chi, Chuliang, Zhang, Heng, Gao, Qing, Lan, Yuanmin, Li, Zheng, Mu, Zonggao, Sun, Zhenglong, Knoll, Alois
Format: Artikel
Sprache:eng
Schlagworte:
Actuators
Coronaviruses
Coupling
Couplings
COVID-19
Deep learning for visual perception
Degrees of freedom
Force
Kinematics
medical robots and systems
Motion planning
Neural networks
Optimization
redundant robots
Risk management
Robot arms
Robot sensing systems
Robots
Sampling
task and motion planning
Viral diseases
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Zusammenfassung:The outbreak of novel coronavirus pneumonia (COVID-19) has caused mortality and morbidity worldwide. Oropharyngeal-swab (OP-swab) sampling is widely used for the diagnosis of COVID-19 in the world. To avoid the clinical staff from being affected by the virus, we developed a 9-degree-of-freedom (DOF) rigid-flexible coupling (RFC) robot to assist the COVID-19 OP-swab sampling. This robot is composed of a visual system, UR5 robot arm, micro-pneumatic actuator and force-sensing system. The robot is expected to reduce risk and free up the clinical staff from the long-term repetitive sampling work. Compared with a rigid sampling robot, the developed force-sensing RFC robot can facilitate OP-swab sampling procedures in a safer and softer way. In addition, a varying-parameter zeroing neural network-based optimization method is also proposed for motion planning of the 9-DOF redundant manipulator. The developed robot system is validated by OP-swab sampling on both oral cavity phantoms and volunteers.
ISSN:2377-3766
2377-3766
DOI:10.1109/LRA.2021.3062336