Fusing dexterity and perception for soft robot-assisted minimally invasive surgery: what we learnt from STIFF-FLOP
Fusing dexterity and perception for soft robot-assisted minimally invasive surgery: what we learnt from STIFF-FLOP
In recent years we have seen tremendous progress in the development of robotic solutions for minimally invasive surgery (MIS). Indeed, a number of robot-assisted MIS systems have been developed to product level and are now well-established clinical tools; Intuitive Surgical’s very successful da Vinci Surgical System a prime example. The majority of these surgical systems are based on the traditional rigid-component robot design that was instrumental in the third industrial revolution—especially within the manufacturing sector. However, the use of this approach for surgical procedures on or around soft tissue has come under increasing criticism. The dangers of operating with a robot made from rigid components both near and within a patient are considerable. The EU project STIFF-FLOP, arguably the first large-scale research programme on soft robots for MIS, signalled the start of a concerted effort among researchers to investigate this area more comprehensively. While soft robots have many advantages over their rigid-component counterparts, among them high compliance and increased dexterity, they also bring their own specific challenges when interacting with the environment, such as the need to integrate sensors (which also need to be soft) that can determine the robot’s position and orientation (pose). In this study, the challenges of sensor integration are explored, while keeping the surgeon’s perspective at the forefront of ourdiscussion. The paper critically explores a range of methods, predominantly those developed during the EU project STIFF-FLOP, that facilitate the embedding of soft sensors into articulate soft robot structures using flexible, optics-based lightguides. We examine different optics-based approaches to pose perception in a minimally invasive surgery settings, and methods of integration are also discussed.
Dawood, Abu Bakar
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Fras, Jan
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Aljaber, Faisal
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Mintz, Yoav
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Arezzo, Alberto
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Godaba, Hareesh
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Althoefer, Kaspar
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17 July 2021
Dawood, Abu Bakar
00a66f65-5d71-4c6f-ba80-f077da7115dc
Fras, Jan
fcd657b1-ee85-412d-ad26-3c16f2143164
Aljaber, Faisal
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Mintz, Yoav
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Arezzo, Alberto
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Godaba, Hareesh
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Althoefer, Kaspar
031c800b-bf48-4996-8c17-29f7408898c6
Dawood, Abu Bakar, Fras, Jan, Aljaber, Faisal, Mintz, Yoav, Arezzo, Alberto, Godaba, Hareesh and Althoefer, Kaspar
(2021)
Fusing dexterity and perception for soft robot-assisted minimally invasive surgery: what we learnt from STIFF-FLOP.
Applied Sciences, 11 (14), [6586].
(doi:10.3390/app11146586).
Abstract
In recent years we have seen tremendous progress in the development of robotic solutions for minimally invasive surgery (MIS). Indeed, a number of robot-assisted MIS systems have been developed to product level and are now well-established clinical tools; Intuitive Surgical’s very successful da Vinci Surgical System a prime example. The majority of these surgical systems are based on the traditional rigid-component robot design that was instrumental in the third industrial revolution—especially within the manufacturing sector. However, the use of this approach for surgical procedures on or around soft tissue has come under increasing criticism. The dangers of operating with a robot made from rigid components both near and within a patient are considerable. The EU project STIFF-FLOP, arguably the first large-scale research programme on soft robots for MIS, signalled the start of a concerted effort among researchers to investigate this area more comprehensively. While soft robots have many advantages over their rigid-component counterparts, among them high compliance and increased dexterity, they also bring their own specific challenges when interacting with the environment, such as the need to integrate sensors (which also need to be soft) that can determine the robot’s position and orientation (pose). In this study, the challenges of sensor integration are explored, while keeping the surgeon’s perspective at the forefront of ourdiscussion. The paper critically explores a range of methods, predominantly those developed during the EU project STIFF-FLOP, that facilitate the embedding of soft sensors into articulate soft robot structures using flexible, optics-based lightguides. We examine different optics-based approaches to pose perception in a minimally invasive surgery settings, and methods of integration are also discussed.
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applsci-11-06586
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Accepted/In Press date: 15 July 2021
Published date: 17 July 2021
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Local EPrints ID: 499153
URI: http://eprints.soton.ac.uk/id/eprint/499153
ISSN: 2076-3417
PURE UUID: d28ec09c-aaa0-4930-b018-602f48ca88af
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Date deposited: 11 Mar 2025 17:32
Last modified: 22 Aug 2025 02:46
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Author:
Abu Bakar Dawood
Author:
Jan Fras
Author:
Faisal Aljaber
Author:
Yoav Mintz
Author:
Alberto Arezzo
Author:
Hareesh Godaba
Author:
Kaspar Althoefer
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