[1] 1王田苗， 郝雨飞， 杨兴帮， 等. 软体机器人： 结构、驱动、传感与控制［J］. 机械工程学报， 2017， 53（13）： 1-13. doi: 10.3901/jme.2017.13.001WANGT M， HAOY F， YANGX B， et al. Soft robotics： structure， actuation， sensing and control［J］. Journal of Mechanical Engineering， 2017， 53（13）： 1-13.（in Chinese）. doi: 10.3901/jme.2017.13.001

[2] M T TOLLEY. Design， fabrication and control of origami robots. Nature Reviews Materials, 3, 101-112(2018).

[3] H C ZHAO, K O'BRIEN, S LI et al. Optoelectronically innervated soft prosthetic hand via stretchable optical waveguides. Science Robotics, 1(2016).

[4] 4肖琳芬. 王耀南院士： 智能机器人感知与控制技术应用及发展趋势［J］. 高科技与产业化， 2021， 27（10）： 16-19.XIAOL F. Academician Wang Yaonan： application and development trend of intelligent robot sensing and control technology［J］. High-Technology & Commercialization， 2021， 27（10）： 16-19.（in Chinese）

[5] 5张森浩， 邱东海， 衣宁， 等. 可穿戴柔性电子的快速制备与医疗应用［J］. 光学 精密工程， 2019， 27（6）： 1362-1369. doi: 10.3788/ope.20192706.1362ZHANGS H， QIUD H， YIN， et al. Rapid preparation and medical application of wearable Flexible electronics［J］. Opt. Precision Eng.， 2019， 27（6）： 1362-1369.（in Chinese）. doi: 10.3788/ope.20192706.1362

[6] 6周建辉， 曹建国， 程春福， 等. 新型高柔弹性导电薄膜电极层的制备与性能研究［J］. 光学 精密工程， 2019， 27（9）： 2062-2069. doi: 10.3788/ope.20192709.2062ZHOUJ H， CAOJ G， CHENGCH F， et al. Preparation and properties of novel highly flexible and stretchable conductive film electrode［J］. Opt. Precision Eng.， 2019， 27（9）： 2062-2069.（in Chinese）. doi: 10.3788/ope.20192709.2062

[7] 7周建辉， 曹建国， 程春福， 等. 高柔弹性电子皮肤压力触觉传感器的研究［J］. 哈尔滨工业大学学报， 2020， 52（7）： 1-10. doi: 10.11918/201911058ZHOUJ H， CAOJ G， CHENGCH F， et al. Research on highly flexible and stretchable pressure tactile sensor for electronic skin［J］. Journal of Harbin Institute of Technology， 2020， 52（7）： 1-10.（in Chinese）. doi: 10.11918/201911058ZHOUJ H， CAO， J G， CHENGC F， et al.. Research on highly flexible and stretchable pressure tactile sensor for electronic skin［J］. Journal of Harbin Institute of Technology， 2020， 52（7）：10. （in Chinese）. doi: 10.11918/201911058

[8] H B WANG, M TOTARO, L BECCAI. Toward perceptive soft robots： progress and challenges. Advanced Science （Weinheim， Baden-Wurttemberg， Germany）, 5, 1800541(2018).

[9] T KIM, S D LEE, T HONG et al. Heterogeneous sensing in a multifunctional soft sensor for human-robot interfaces. Science Robotics, 5(2020).

[10] R L TRUBY, M WEHNER, A K GROSSKOPF et al. Soft somatosensitive actuators via embedded 3D printing. Advanced Materials （Deerfield Beach， Fla）, 30(2018).

[11] SITONG， LU, SITONG， LU. Design， fabrication and characterization of soft sensors through EGaIn for soft pneumatic actuators. Measurement, 164, 107996(2020).

[12] S T LU, D S CHEN, M WANG. Strain and pressure sensing tubes based on conductive fluids and their applications on a flexible finger. Journal of Micromechanics and Microengineering, 30, 105010(2020).

[13] 13彭保进， 李连琴， 马倩倩， 等. 微纳光纤耦合应变传感器［J］. 光学 精密工程， 2021， 29（5）： 958-966. doi: 10.37188/OPE.20212905.0958PENGB J， LIL Q， MAQ Q， et al. Micro-nano optical fiber coupled strain sensor［J］. Opt. Precision Eng.， 2021， 29（5）： 958-966.（in Chinese）. doi: 10.37188/OPE.20212905.0958

[14] 14郭永兴， 杨跃辉， 熊丽. 双层正交的光纤布拉格光栅柔性形状传感技术［J］. 光学 精密工程， 2021， 29（10）： 2306-2315. doi: 10.37188/OPE.20212910.2306GUOY X， YANGY H， XIONGL. Double-layer orthogonal fiber Bragg gratings flexible shape sensing technology［J］. Opt. Precision Eng.， 2021， 29（10）： 2306-2315.（in Chinese）. doi: 10.37188/OPE.20212910.2306

[15] T ZHANG, L JIANG, H LIU. A novel grasping force control strategy for multi-fingered prosthetic hand. Journal of Central South University, 19, 1537-1542(2012).

[16] K S NARKHEDE, S M HAZARIKA. Bionic reflex control strategy for robotic finger with kinematic constraints, 1-5(14).

[17] Q W GAO, H LI, J J ZHANG et al. Microchannel structural design for a room-temperature liquid metal based super-stretchable sensor. Scientific Reports, 9, 5908(2019).

[18] J CHEN, J J ZHANG, Z B LUO et al. Superelastic， sensitive， and low hysteresis flexible strain sensor based on wave-patterned liquid metal for human activity monitoring. ACS Applied Materials & Interfaces, 12, 22200-22211(2020).

[19] P WON, S JEONG, C MAJIDI et al. Recent advances in liquid-metal-based wearable electronics and materials. iScience, 24, 102698(2021).

[20] WANG JINGJING. A stretchable self-powered triboelectric tactile sensor with EGaIn alloy electrode for ultra-low-pressure detection. Nano Energy, 89, 106320(2021).

[21] J SHINTAKE, Y PISKAREV. Liquid metal-based soft actuators and sensors for biomedical applications. Metal Oxides for Biomedical and Biosensor Applications, 585-594(2022).

[22] Y J GAO, E W SCHALER et al. Wearable microfluidic diaphragm pressure sensor for health and tactile touch monitoring. Advanced Materials （Deerfield Beach， Fla）, 29, 1701985(2017).

[23] J C YEO, Z J LIU, Z Q ZHANG et al. Wearable mechanotransduced tactile sensor for haptic perception. Advanced Materials Technologies, 2, 1700006(2017).

[24] W PARK, S KIM et al. A soft sensor-based three-dimensional （3-D） finger motion measurement system. Sensors （Basel， Switzerland）, 17, 420(2017).

[25] V WALL, G ZÖLLER, O BROCK. A method for sensorizing soft actuators and its application to the RBO hand 2, 4965-4970(2017).

[26] 26刘会聪， 杨梦柯， 袁鑫， 等. 液态金属柔性感知的人机交互软体机械手［J］. 中国机械工程， 2021， 32（12）： 1470-1478. doi: 10.3969/j.issn.1004-132X.2021.12.011LIUH C， YANGM K， YUANX， et al. Liquid metal based flexible sensors for soft manipulator towards human-machine interaction［J］. China Mechanical Engineering， 2021， 32（12）： 1470-1478.（in Chinese）. doi: 10.3969/j.issn.1004-132X.2021.12.011

[27] 27姚建涛， 张弘， 勾栓栓， 等. 基于微孔抽丝成型工艺的软体力/位传感器［J］. 机械工程学报， 2019， 55（2）： 33-41. doi: 10.3901/jme.2019.02.033YAOJ T， ZHANGH， GOUS S， et al. Software force and displacement sensor based on microporous WireDrawing molding method［J］. Journal of Mechanical Engineering， 2019， 55（2）： 33-41.（in Chinese）. doi: 10.3901/jme.2019.02.033

[28] L SHENG, J LIU. Liquid-metal-painted stretchable capacitor sensors for wearable healthcare electronics. Journal of Medical and Biological Engineering, 36, 265-272(2016).