GAO H Y, AI X J, SUN Z L, et al. Progress in force-sensing techniques for surgical robots [J]. Journal of Shanghai Jiao Tong University (Science), 2023, 28(3): 370–381.

MATH  Google Scholar 

DENG T. Development of a soft robotic system for minimally invasive cardiac surgery [D]. Shanghai: Shanghai Jiao Tong University, 2014 (in Chinese).

MATH  Google Scholar 

TANG A L, CAO Q X, TAN H B, et al. Motion control of a master–slave minimally invasive surgical robot based on the hand-eye-coordination [M]//Computer Aided Surgery. Tokyo: Springer, 2016: 57–71.

Chapter  MATH  Google Scholar 

SHENNIB H, BASTAWISY A, MCLOUGHLIN J, et al. Robotic computer-assisted telemanipulation enhances coronary artery bypass [J]. The Journal of Thoracic and Cardiovascular Surgery, 1999, 117(2): 310–313.

Article  Google Scholar 

KAZANZIDES P, CHEN Z H, DEGUET A, et al. An open-source research kit for the da Vinci® Surgical System [C]//2014 IEEE International Conference on Robotics and Automation. Hong Kong: IEEE, 2014: 6434–6439.

MATH  Google Scholar 

FANFANI F, MONTEROSSI G, FAGOTTI A, et al. The new robotic TELELAP ALF-X in gynecological surgery: Single-center experience [J]. Surgical Endoscopy, 2016, 30(1): 215–221.

Article  MATH  Google Scholar 

RUMOLO V, ROSATI A, TROPEA A, et al. Senhance robotic platform for gynecologic surgery: A review of literature [J]. Updates in Surgery, 2019, 71(3): 419–427.

Article  MATH  Google Scholar 

LIM J H, LEE W J, CHOI S H, et al. Cholecystectomy using the Revo-i robotic surgical system from Korea: The first clinical study [J]. Updates in Surgery, 2021, 73(3): 1029–1035.

Article  MATH  Google Scholar 

ATALLAH S, PARRA-DAVILA E, MELANI A G F. Assessment of the versius surgical robotic system for dual-field synchronous transanal total mesorectal excision (taTME) in a preclinical model: Will tomorrow’s surgical robots promise newfound options? [J]. Techniques in Coloproctology, 2019, 23(5): 471–477.

Article  Google Scholar 

LIATSIKOS E, TSATURYAN A, KYRIAZIS I, et al. Market potentials of robotic systems in medical science: Analysis of the avatera robotic system [J]. World Journal of Urology, 2022, 40(1): 283–289.

Article  MATH  Google Scholar 

NAKAUCHI M, SUDA K, NAKAMURA K, et al. Establishment of a new practical telesurgical platform using the hinotori™ surgical robot system: A preclinical study [J]. Langenbeck’s Archives of Surgery, 2022, 407(8): 3783–3791.

Article  MATH  Google Scholar 

YI B, WANG G H, LI J M, et al. The first clinical use of domestically produced Chinese minimally invasive surgical robot system “Micro Hand S” [J]. Surgical Endoscopy, 2016, 30(6): 2649–2655.

Article  MathSciNet  MATH  Google Scholar 

FAN S B, ZHANG Z Y, WANG J, et al. Robotassisted radical prostatectomy using the KangDuo surgical robot-01 system: A prospective, single-center, single-arm clinical study [J]. The Journal of Urology, 2022, 208(1): 119–127.

Article  Google Scholar 

WANG J Y, JIANG L, LI Z J, et al. AutoSurg-research and implementation of automatic target resection key technologies via Toumai surgical robot system [C]//2023 International Conference on Advanced Robotics and Mechatronics. Sanya: IEEE, 2023: 1194–1198.

Chapter  MATH  Google Scholar 

DUPONT P E, NELSON B J, GOLDFARB M, et al. A decade retrospective of medical robotics research from 2010 to 2020 [J]. Science Robotics, 2021, 6(60): eabi8017.

Article  Google Scholar 

LI R, CHEN F, YU W W, et al. A novel cable-driven soft robot for surgery [J]. Journal of Shanghai Jiao Tong University (Science), 2024, 29(1): 60–72.

MATH  Google Scholar 

MIURA S, SEKINE R. Configuration of drive mechanisms with fewer wires in a surgical robot considering operation trajectory and delay [J]. Advanced Robotics, 2023, 37(20): 1318–1328.

Article  MATH  Google Scholar 

MARESCAUX J, LEROY J, GAGNER M, et al. Transatlantic robot-assisted telesurgery [J]. Nature, 2001, 413(6854): 379–380.

Article  Google Scholar 

DARIO P, HANNAFORD B, MENCIASSI A. Smart surgical tools and augmenting devices [J]. IEEE Transactions on Robotics and Automation, 2003, 19(5): 782–792.

Article  MATH  Google Scholar 

EWERTON M, ARENZ O, PETERS J. Assisted teleoperation in changing environments with a mixture of virtual guides [J]. Advanced Robotics, 2020, 34(18): 1157–1170.

Article  MATH  Google Scholar 

BAEK Y M, KOZUKA Y, SUGITA N, et al. Highly precise master-slave robot system for super micro surgery [C]//2010 3rd IEEE RAS & EMBS International Conference on Biomedical Robotics and Biomechatronics. Tokyo: IEEE, 2010: 740–745.

Chapter  Google Scholar 

MITSUISHI M, MORITA A, SUGITA N, et al. Master–slave robotic platform and its feasibility study for micro-neurosurgery [J]. The International Journal of Medical Robotics and Computer Assisted Surgery, 2013, 9(2): 180–189.

MATH  Google Scholar 

YANG Y K, KONG K, LI J M, et al. Design and implementation of a hand-held robot-assisted minimally invasive surgical device with enhanced intuitive manipulability and stable grip force [J]. The International Journal of Medical Robotics and Computer Assisted Surgery, 2021, 17(4): e2286.

Google Scholar