TY - JOUR AB - Purpose– This paper aims to develop a novel miniature 3-axis force sensor which can detect the interaction forces during tissue palpation in MIS (minimally invasive surgery). MIS offers many significant merits compared with traditional open surgery, the wound to the patients and the postoperative pains are alleviated and reduced dramatically. However, the inherent drawback due to lack of force feedback still exists while conducting some operation procedures. For example, tissue palpation performed easily during open surgery could not be realized in an MIS manner. Design/methodology/approach– The force sensor is based on the resistive-based sensing method that utilizes strain gauges to measure the strain when the external loads are acting on the tip of the sensor. A novel flexible tripod structure with bending and compression deformations is designed to discriminate the magnitudes and directions of the three orthogonal force components. A linear characteristic matrix is derived to disclose the relationship between the sensitivity and the geometric parameters of the structure, and a straightforward geometric parameterized optimization method considering the sensitivity isotropy is proposed to provide the sensor structure with high sensitivity and adequate stiffness. Findings– The sensor prototype can perform force measurement with sensing ranges of ± 3.0 N in axial direction and ± 1.5 N in radial direction, and the resolutions are 5 per cent and 1 per cent, respectively. It is concluded that this force sensor is compatible with MIS instruments and the ex-vivo experiment shows that the sensor can be used to perform tissue palpation during MIS procedures. Originality/value– This paper is intended to address the significant role of force sensing and force feedback during MIS operations, and presents a new application of the resistive-based sensing method in MIS. A tripod structure is designed and a straightforward optimization method considering the sensitivity isotropy of the sensor is proposed to determine geometric parameters suited for the given external loads. VL - 35 IS - 2 SN - 0260-2288 DO - 10.1108/SR-04-2014-632 UR - https://doi.org/10.1108/SR-04-2014-632 AU - Li Kun AU - Pan Bo AU - Zhan Juncheng AU - Gao Wenpeng AU - Fu Yili AU - Wang Shuguo PY - 2015 Y1 - 2015/01/01 TI - Design and performance evaluation of a 3-axis force sensor for MIS palpation T2 - Sensor Review PB - Emerald Group Publishing Limited SP - 219 EP - 228 Y2 - 2024/09/22 ER -