Title :
Sensorless force estimation using a neuro-vision-based approach for robotic-assisted surgery
Author :
Aviles, Angelica I. ; Alsaleh, Samar ; Sobrevilla, Pilar ; Casals, Alicia
Author_Institution :
Intell. Robot. & Syst. Group, Univ. Politec. de Cataluya, Barcelona, Spain
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 :
biological tissues; biomedical measurement; displacement measurement; force measurement; medical robotics; neurophysiology; sensors; surgery; add-on sensors; biocompatibility; force feedback; geometric-visual relation; intra-operative complications; neurovision based force estimation approach; robotic-assisted minimal invasive surgery; sensorless force estimation; tissue damage; tissue surface displacement; Estimation; Force; Minimally invasive surgery; Robot sensing systems; Three-dimensional displays;
Conference_Titel :
Neural Engineering (NER), 2015 7th International IEEE/EMBS Conference on
Conference_Location :
Montpellier
DOI :
10.1109/NER.2015.7146566
