Safety control strategy for vertebral lamina milling task | Zendy

Luping Fan | Zendy; Peng Gao | Zendy; Baoliang Zhao | Zendy; Yu Sun | Zendy; Xiaoxiao Xin | Zendy; Ying Hu | Zendy; Shoubin Liu | Zendy; Jianwei Zhang | Zendy

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Safety control strategy for vertebral lamina milling task

Author(s) -

Luping Fan,

Peng Gao,

Baoliang Zhao,

Yu Sun,

Xiaoxiao Xin,

Ying Hu,

Shoubin Liu,

Jianwei Zhang

Publication year - 2016

Publication title -

caai transactions on intelligence technology

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.613

H-Index - 15

eISSN - 2468-6557

pISSN - 2468-2322

DOI - 10.1016/j.trit.2016.10.005

Subject(s) - lamina , task (project management) , computer science , biomedical engineering , engineering , medicine , anatomy , systems engineering

Vertebral lamina milling task is one of the high-risk operations in spinal surgeries. The operation is to remove part of vertebral lamina and release the pressure on the spinal nerve. Because many important vessels and nerves are under the vertebral lamina, any incorrect operation may cause irreparable damage to patients. To improve the safety of lamina milling task, a fuzzy force control strategy is proposed in this paper. Primary experiments have been conducted on bone samples from different animals. The results show that, with the fuzzy force control strategy, the bone milling system can recognize all surgery states and halt the tool at the proper location, achieving satisfactory surgery performance

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