Advanced search

Loading...

Advanced search    

Search: authors:"Quanquan Liu"

5 papers found.
Use AND, OR, NOT, +word, -word, "long phrase", (parentheses) to fine-tune your search.

Development of a New Robotic Ankle Rehabilitation Platform for Hemiplegic Patients after Stroke

Zhengzhi Wu; moc.361@100zzwzs Received 26 April 2017; Accepted 13 November 2017; Published 15 March 2018 Academic Editor: Saverio Affatato Copyright © 2018 Quanquan Liu et al. This is an open access ... ’ Contributions Quanquan Liu, Chunbao Wang, and JianJun Long contributed equally to this work. Acknowledgments The authors would like to thank C. Wei, A. Hou, P. Chen, and Z. Lu for the prototype manufacture and

Development of a New Robotic Ankle Rehabilitation Platform for Hemiplegic Patients after Stroke

Zhengzhi Wu; moc.361@100zzwzs Received 26 April 2017; Accepted 13 November 2017; Published 15 March 2018 Academic Editor: Saverio Affatato Copyright © 2018 Quanquan Liu et al. This is an open access ... ’ Contributions Quanquan Liu, Chunbao Wang, and JianJun Long contributed equally to this work. Acknowledgments The authors would like to thank C. Wei, A. Hou, P. Chen, and Z. Lu for the prototype manufacture and

Development of a New Robotic Ankle Rehabilitation Platform for Hemiplegic Patients after Stroke

Zhengzhi Wu; moc.361@100zzwzs Received 26 April 2017; Accepted 13 November 2017; Published 15 March 2018 Academic Editor: Saverio Affatato Copyright © 2018 Quanquan Liu et al. This is an open access ... ’ Contributions Quanquan Liu, Chunbao Wang, and JianJun Long contributed equally to this work. Acknowledgments The authors would like to thank C. Wei, A. Hou, P. Chen, and Z. Lu for the prototype manufacture and

Inertial Sensor-Based Motion Analysis of Lower Limbs for Rehabilitation Treatments

rehabilitation robot domains. Conflicts of Interest There is no conflict of interests in this paper. Authors’ Contributions Tongyang Sun, Hua Li, and Quanquan Liu contributed equally to this work. Acknowledgments

An image processing method for changing endoscope direction based on pupil movement

Increased attention has been focused on laparoscopic surgery because of its minimal invasiveness and improved cosmetic properties. However, the procedure of laparoscopic surgery is considerably difficult for surgeons, thus paving the way for the introduction of robotic technology to reduce the surgeon’s burden. Thus, we have developed a single-port surgery assistive robot with a...