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FBG-based Kalman Filtering and Control of Tool Insertion Depth For Safe Robot-assisted Vitrectomy.
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Adaptive Control of Sclera Force and Insertion Depth for Safe Robot-Assisted Retinal Surgery.
IEEE Int Conf Robot Autom. 2019 May;2019:9073-9079. doi: 10.1109/ICRA.2019.8793658. Epub 2019 Aug 12.
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Force-based Safe Vein Cannulation in Robot-assisted Retinal Surgery: A Preliminary Study.
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User Behavior Evaluation in Robot-Assisted Retinal Surgery.
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Real Time Prediction of Sclera Force with LSTM Neural Networks in Robot-Assisted Retinal Surgery.
Achiev Solut Mech Eng II (2019). 2020 Feb;896:183-194. doi: 10.4028/www.scientific.net/AMM.896.183.
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Force-based Control for Safe Robot-assisted Retinal Interventions: Evaluation in Animal Studies.
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A Novel Dual Force Sensing Instrument with Cooperative Robotic Assistant for Vitreoretinal Surgery.
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A novel robot-assisted subretinal injection system: preliminary validation in ex vivo porcine eyes.
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Evaluation of the Hand Motion and Peeling Force in Inner Limiting Membrane Peeling.
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A Dexterous Robotic System for Autonomous Debridement of Osteolytic Bone Lesions in Confined Spaces: Human Cadaver Studies.
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Spotlight-based 3D Instrument Guidance for Autonomous Task in Robot-assisted Retinal Surgery.
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Adaptive Control Improves Sclera Force Safety in Robot-Assisted Eye Surgery: A Clinical Study.
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本文引用的文献

1
Hybrid Robot-assisted Frameworks for Endomicroscopy Scanning in Retinal Surgeries.
IEEE Trans Med Robot Bionics. 2020 May;2(2):176-187. doi: 10.1109/TMRB.2020.2988312. Epub 2020 Apr 16.
2
Sclera Force Control in Robot-assisted Eye Surgery: Adaptive Force Control vs. Auditory Feedback.
Int Symp Med Robot. 2019 Apr;2019. doi: 10.1109/ISMR.2019.8710205. Epub 2019 May 9.
3
Adaptive Control of Sclera Force and Insertion Depth for Safe Robot-Assisted Retinal Surgery.
IEEE Int Conf Robot Autom. 2019 May;2019:9073-9079. doi: 10.1109/ICRA.2019.8793658. Epub 2019 Aug 12.
4
Toward Safe Retinal Microsurgery: Development and Evaluation of an RNN-Based Active Interventional Control Framework.
IEEE Trans Biomed Eng. 2020 Apr;67(4):966-977. doi: 10.1109/TBME.2019.2926060. Epub 2019 Jul 1.
5
User Behavior Evaluation in Robot-Assisted Retinal Surgery.
ROMAN. 2018 Aug;2018:174-179. doi: 10.1109/ROMAN.2018.8525638. Epub 2018 Nov 8.
6
Preliminary study of an RNN-based active interventional robotic system (AIRS) in retinal microsurgery.
Int J Comput Assist Radiol Surg. 2019 Jun;14(6):945-954. doi: 10.1007/s11548-019-01947-9. Epub 2019 Mar 18.
7
Techniques for robot-aided intraocular surgery using monocular vision.
Int J Rob Res. 2018 Jul;37(8):931-952. doi: 10.1177/0278364918778352. Epub 2018 Jul 13.
8
First-in-human study of the safety and viability of intraocular robotic surgery.
Nat Biomed Eng. 2018 Jun 18;2:649-656. doi: 10.1038/s41551-018-0248-4.
9
In-Human Robot-Assisted Retinal Vein Cannulation, A World First.
Ann Biomed Eng. 2018 Oct;46(10):1676-1685. doi: 10.1007/s10439-018-2053-3. Epub 2018 May 24.
10
Motorized Micro-Forceps with Active Motion Guidance based on Common-Path SSOCT for Epiretinal Membranectomy.
IEEE ASME Trans Mechatron. 2017 Dec;22(6):2440-2448. doi: 10.1109/TMECH.2017.2749384. Epub 2017 Sep 5.

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