Home /Research /Sensorless force estimation using a neuro-vision-based approach for robotic-assisted surgery
SURGICAL

Sensorless force estimation using a neuro-vision-based approach for robotic-assisted surgery

Angelica I. Avilés-Rivero, Samar M. Alsaleh, Pilar Sobrevilla, Alı́cia Casals

Year
2015
Citations
32

Abstract

This paper addresses the issue of lack of force feedback in robotic-assisted minimally invasive surgeries. Force is an important measure for surgeons in order to prevent intra-operative complications and tissue damage. Thus, an innovative neuro-vision based force estimation approach is proposed. Tissue surface displacement is first measured via minimization of an energy functional. A neuro approach is then used to establish a geometric-visual relation and estimate the applied force. The proposed approach eliminates the need of add-on sensors, carrying out biocompatibility studies and is applicable to tissues of any shape. Moreover, we provided an improvement from 15.14% to 56.16% over other approaches which demonstrate the potential of our proposal.

Keywords

Computer scienceDisplacement (psychology)Artificial intelligenceInvasive surgeryMinificationMedical roboticsRobotComputer visionSurgery

Related papers

Browse all SURGICAL papers