Title :
Development of a tactile robot for tumor detection and localization in biological liver tissue
Author :
Farahnak, M. ; Keshavarz, M. ; Mojra, A. ; Sadati, S.H.
Abstract :
In this paper we developed an automatic examiner robot for improving the process of cancer detection and tumor localization. Variation of mechanical stress on the surface of the tissue was selected as the indicative factor of tumor existence. The experimental examinations were performed on a lamb liver. A compression test was used to extract viscoelastic properties of tissue. Viscoelastic coefficients were used in finite element modeling and capability of robotic-assisted tumor detection was validated. Finally to localize the tumor embedded in the tissue, two sinusoidal and step paths were generated which was followed by the robot. The mean errors of path following of the automatic examiner robot for sinusoidal and step paths were 3.26% and 0.76% respectively which shows high accuracy and reliability of the Cartesian mechanism in soft tissue scanning.
Keywords :
cancer; compressive testing; end effectors; finite element analysis; liver; medical robotics; stress analysis; tumours; viscoelasticity; Cartesian mechanism; automatic examiner robot; biological liver tissue; cancer detection process improvement; compression test; finite element modeling; lamb liver; mechanical stress; path mean errors; robotic-assisted tumor detection; sinusoidal paths; soft tissue scanning; step paths; tactile robot development; tissue surface; tissue viscoelastic property extraction; tumor localization process improvement; viscoelastic coefficients; Biological tissues; Finite element analysis; Liver; Robot sensing systems; Stress; Tumors;
Conference_Titel :
Robotics and Mechatronics (ICRoM), 2014 Second RSI/ISM International Conference on
Conference_Location :
Tehran
DOI :
10.1109/ICRoM.2014.6990901
