姓 名:刘平 | |
职 称:副教授 | |
职 务:学院创新创业中心副主任 | |
所属系:电子科学与技术系 | |
邮 箱:liuping@hfut.edu.cn | |
电 话:15375399458 |
个人简介:
刘平,男,湖南娄底人,1983年生,2007年本科毕业于304永利集团官网入口理学院电子科学与技术专业,2010年硕士毕业于304永利集团官网入口电子科学与应用学院微电子学与固体电子学专业,2013博士毕业于中国科学技术大学自动化系检测技术与自动化装置专业。同年就职于304永利集团官网入口,加入学院柔性传感器研究黄英教授课题组,目前指导硕士研究生10名,以及参与科研项目的本科生10余人。
研究方向:
(1) 基于视觉-触觉多模态融合的机器智能技术,包含柔性触觉传感器设计、传感器信号处理电路、2D及3D图像处理算法、视觉-触觉多模态融合算法、目标跟踪及智能控制算法;
(2)基于柔性传感器件的前沿创新诊疗技术,包含柔性应变传感器设计、低功耗无线电子系统、人体生理参数特征提取与处理相关智能算法;
(3) 基于柔性电子技术的新能源汽车安全技术,包含柔性接近及接触传感器设计、车规级电子系统、人-车交互特征提取与标定、多传感器数据安全综合算法;
(4)基于可穿戴电子的虚拟现实人机交互技术,包含电阻及电容柔性传感器设计、交互式设备及电子系统开发、用于交互的人体关键特征提取与标定、虚拟现实交互实现。
开设课程:
传感器原理及应用;传感器工程学。
科研项目:
(1) 浙江省科学技术厅,领雁计划,2024C01150,高性能柔性透明导电薄膜研究及产业化制备,2024-01至2026-12
(2) 安徽省教育厅,协同创新项目,GXXT-2023-075,柔性电子皮肤多模态感知与智能传感技术研究,2024-01至2025-12
(3) 国家电网,横向委托类,B312M023000R,面向电力巡检机器人智能作业的视触觉融合研究与应用,2023-10至2024-09
(4) 国家电网,横向委托类,用于绞磨尾绳的自动收放装置,2023-08至2024-02
(5) 中国科学院自动化所&中国航发商用航空发动机有限责任公司,横向委托类,动态间隙检测系统,2023-07至2024-02
(6) 企业委托,符合II类医疗器械精度标准的可穿戴电子血压监测系统研制,2023-05至2025-04
(7) 浙江省科学技术厅,领雁计划,2022C03052,基于柔性传感技术的可穿戴人体健康监测设备研制与应用示范,2022-01至2024-12
(8) 企业委托,基于柔性传感技术的人体可穿戴脉搏波监测设备研制,2022-04至2023-10
(9) 国家电网,横向委托类,用于电力巡检机器人智能作业的柔性触觉末端研究及应用,2022-01至2022-12
(10) 安徽省教育厅,协同创新项目,GXXT-2021-30,面向高场强核磁共振医疗设备的跨尺度多模态医学图像处理技术,2021-06至2023-05
(11) 304永利集团官网入口,中央高校基本科研业务费,面向机器人抓取的全柔性力学协同感知与信息融合研究,2020-01至2021-12
(12) 中国科学院合肥物质科学研究院,横向委托类,基于力感知的肌肉硬度数据采集软件(下位机)开发,2020-12至2021-05
(13) 合肥学院,横向委托类,基于力感知的肌肉硬度数据采集软件(上位机)开发,2020-12至2021-05
(14) 浙江省科学技术厅,重点研发计划,2018C01041,面向可穿戴设备的柔性/可拉伸电极与触觉传感器研发及其产业化,2017-01至2019-12
(15) 国家自然科学基金委员会,面上项目,61471155,一种可实现全程感知的机器人皮肤研究,2015-01至2018-12
(16) 国家自然科学基金委员会,青年基金项目,61401141,两相碳填料型压力敏感复合导电材料中协同导电效应的量化研究,2015-01至2017-12
(17) 安徽省科学技术厅,青年基金项目,1508085QF115,碳填料并用型压力敏感复合导电材料的渗流模型研究,2015-06至2017-06
近五年代表性成果:
一、期刊论文
(1) Han Feng, Ping Liu *, Xu Guo, Junliang Li, Yifan Sun, Shunge Wu, Ruohai Hu, Zhi Liu, Helei Tian, Yuanming Ma, Caixia Liu, Houzhu Huang, Fei Teng, Xinyue Tang, Austin Yang,Aiguo Song, Xiaoming Yang, Ying Huang,PSS modified by 3-aminopropyltrimethoxysilane linking large-area GNPs/PSS to silicone rubber with stable interface combination for high sensitivity flexible resistive sensor,Chemical Engineering Journal, 2023.06.01, 420, 129881.
(2) Junliang Li, Ping Liu,* Qiusheng Hu, Wei Tong, Yifan Sun, Han Feng, Shunge Wu, Ruohai Hu, Caixia Liu, Austin Yang, Yubing Wang, Helei Tian, Kun Xing, Yi Bu, Yugang Zhang, Yuanming Ma, Fei Teng, Jian Liu, Xinxin Guo, Aiguo Song, Xiaoming Yang, Ying Huang, An ultra-sensitive flexibleresistive sensor with double strain layer and crack inspiredby the physical structure of human epidermis: design, fabrication and cuffless blood pressure monitoring application,Advanced Materials Technologies,2023.03.11,8:2201466.
(3) Caixia Liu,Yifan Sun,Ping Liu*,Fei Ma,Shunge Wu,Junliang Li,Shuai Li,Ruohai Hu,Zhenti Wang,Yubing Wang,Guiqian Liu,Kun Xing,Helei Tian,Houzhu Huang,Xinxin Guo,Chunyu Ge,Xiaoming Yang,Ying Huang,Fabrication and characterization of highly sensitive flexible strain sensor based on biodegradable gelatin nanocomposites and double strain layered structures with crack for gesture recognition,International Journal of Biological Macromolecules,2023.03.15,231:123568
(4) Shunge Wu,Ping Liu*,Wei Tong,Junliang Li,Guangyuan Xu,Fei Teng,Jian Liu,Han Feng,Ruohai Hu,Austin Yang,Caixia Liu,Kun Xing,Xiaoping Yang,Helei Tian,Aiguo Song,Xiaoming Yang,Ying Huang,An ultra-sensitive core-sheath fiber strain sensor based on double strain layered structure with cracks and modified MWCNTs/silicone rubber for wearable medical electronics,Composites Science and Technology,2023.01.05,231:109816.
(5) Pengfei Wang,Ping Liu*,Han Feng,Yuwen Li,Qian Zhang,Ruohai Hu,Caixia Liu,Kun Xing,Aiguo Song,Xiaoming Yang,and Ying Huang,Flexible and wireless normal-tangential force sensor based on resonant mechanism for robotic gripping applications,Advanced Materials Technologies,2022.03.11,7:2101385.
(6) Panpan Xia,Ping Liu*,Shunge Wu,Qian Zhang,Pengfei Wang,Ruohai Hu,Kun Xing,Caixia Liu,Aiguo Song,Xiaoming Yang,Ying Huang,Highly stretchable and sensitive flexible resistive strain sensor based on waterborne polyurethane polymer for wearable electronics,Composites Science and Technology,2022.02.17,221:109355.
(7) Ping Liu*,Yuwen Li,Chen Wu,Caixia Liu,Yuanming Ma,Yugang Zhang,Kun Xing*,Guangzhu Liu,Junfeng Wang,Ying Huang,Aiguo Song,Man Li,Xiaoming Yang,Theoretical estimation on electrical conductivity,synergy effect and piezoresistive behavior for nanocomposites with hybrid carbon nanotube/ graphene based on modified Bethe lattice method, Computational Materials Science, 2022.02.01, 202:110986.
(8) Qian Zhang,Liang Shen,Ping Liu*,Panpan Xia,Junliang Li,Han Feng,Caixia Liu,Kun Xing*,Aiguo Song,Man Li,Xiaoming Yang,Ying Huang,Highly sensitive resistance-type flexible pressure sensor for cuffless blood-pressure monitoring by using neural network techniques,Composites Part B: Engineering,2021.12.05,(226):109365.
(9) Chen Wu,Jiqing Tao,Junliang Li,Ping Liu*,Ruohai Hu,Junfeng Wang,Caixia Liu,Yang Gao,Ying Huang,Aiguo Song,The nonlinear synergistic enhancement electric conductive effect in polymer-matrix composites containing hybrid fillers of carbon nanotubes and graphene nanoplatelets,Computational Materials Science,2021.06.15,194:110458.
(10) JiawenJi,PanpanXia,XunZhu,PingLiu*,Chen Wu,JiqingTao,JiayanYan,XiaolingLiu,A simulation for the electrical conductivity of nanocomposites filled with carbon black based on the three-dimensional Monte Carlo Method,Polymer Science: Series A,2021,63(2):196-207.
(11) Caixia Liu,Mengdi Li,Baisheng Lu,Ying Huang*,Yangyang Zhang,Ping Liu,Xiaohui Guo,Yuanming Ma,Yugang Zhang,Shenyang Li,Wei Chen,Yunjian Ge,High-sensitivity crack-based flexible strain sensor with dual hydrogen bond-assisted structure for monitoring tiny human motions and writing behavior,Organic Electronics,2021.01.15,88:105977
(12) Xinli Wang,Qian Zhang,Ping Liu*,Xun Zhu,Chen Wu,Jinyu Wang,Caixia Liu,Junfeng Wang,Yang Gao,Aiguo Song,Ying Huang,An ultrafast response and precisely controllable soft electromagnet actuator based on Ecoflex rubber film filled with neodymium-iron-boron,Journal of Micromechanics and Microengineering,2021.01.08,31(2): 025010.
(13) Xun Zhu,Pengfei Wang,Xinli Wang,Ping Liu*,Chen Wu,Jiayan Yan,Xiaoling Liu,Caixia Liu,Ying Huang,Aiguo Song,Yunjian Ge,A study of the appropriateness,geometry,size,and fillers boundary restraint on representative volume element in electrical simulation for carbon-based nanocomposites,Materials Today Communications,2020.12.01,25:101639
(14) Yangyang Zhang,Ying Huang*,Xuehu Sun,Yunong Zhao,Xiaohui Guo,Ping Liu,Caixia Liu,Yugang Zhang,Static and dynamic human arm/hand gesture capturing and recognition via multiinformation fusion of flexible strain sensors,IEEE Sensors Journal,2020.06.15,20(12):6450-6459.
(15) Yangyang Zhang,Ying Huang*,Ping Liu,Caixia Liu,Xiaohui Guo,Yugang Zhang,Highly stretchable strain sensor with wide linear region via hydrogen bond-assisted dual-mode cooperative conductive network for gait detection,Composites Science and Technology,2020.05.03,191:108070.
(16) 张阳阳,黄英*,刘月,刘彩霞,刘平,张玉刚,基于多传感器信息融合的人类抓握特征学习及物体识别,机器人,2020.05.01,42(03):267-277.
(17) Ying Huang,Yang Wang,Xuehu Sun,Xiaohui Guo,Yangyang Zhang,Zhiqiang Wang,Ping Liu*,Caixia Liu,Jihong Qiu,Yugang Zhang,Superelastic and large-range pressure sensor with hollow-sphere architectures for wearable electronic skin,Smart Materials and Structures,2020.02.27,29(4):045014.
(18) Yangyang Zhang,Ying Huang*,Baisheng Lu,Yuanming Ma,Jihong Qiu,Yunong Zhao,Xiaohui Guo,Caixia Liu,Ping Liu,Yugang Zhang,Real-time sitting behavior tracking and analysis for rectification of sitting habits by strain sensor-based flexible data bands,Measurement Science and Technology,2020.02.06,31(5):055102.
(19) Yue Liu,Chen Wu,Huanfeng Zhou,Ping Liu*,Caixia Liu,Hao Wu,Junnan Zhao,Yugang Zhang,Yuanming Ma,Ying Huang,Aiguo Song,Yunjian Ge,Predictions of electrical percolation of graphene‐based nanocomposites by the three‐dimensional Monte Carlo simulation,Journal of Applied Polymer Science,2020.01.20,137:48999.
(20) Ying Huang,Zhiqiang Wang,Huanfeng Zhou,Xiaohui Guo,Yangyang Zhang,Yang Wang,Ping Liu*,Caixia Liu,Yuanming Ma,Yugang Zhang,Highly sensitive pressure sensor based on structurally modified tissue paper for human physiological activity monitoring,Journal of Applied Polymer Science,2020.01.14,137:48973.
(21) Caixia Liu,Wenjin Zhu,Mengdi Li,Xuehu Sun,Xiaohui Guo,Jian Liu,Ping Liu,Yangyang Zhang,Ying Huang*,Highly stable pressure sensor based on carbonized melamine sponge using fully wrapped conductive path for flexible electronic skin,Organic Electronics,2020.01.05,76:105447.
(22) Yingchun Lu,Hao Wu,Jian Liu,Yue Liu,Junnan Zhao,Ping Liu*,Junfeng Wang,Huaguo Liang,Ying Huang*,Aiguo Song,Electrical percolation of silicone rubber filled by carbon black and carbon nanotubes researched by the Monte Carlo simulation,Journal of Applied Polymer Science,2019.12.10,136(46):48222.
(23) Ying Huang*,Wei Hu,Xinli Wang,Xiaohui Guo,Chao Hao,Yunong Zhao,Xiao Zeng,Ping Liu,A low-voltage graphene/Ag-based phase transition-controlled force actuator,Composites Part B: Engineering,2019.10.01,174: 106912.
(24) Ping Liu*,Jian Liu,Xun Zhu,Chen Wu,Yue Liu,Weidong Pan,Junnan Zhao,Xiaohui Guo,Caixia Liu,Ying Huang,Aiguo Song,A highly adhesive flexible strain sensor based on ultra-violet adhesive filled by graphene and carbon black for wearable monitoring,Composites Science and Technology,2019.09.29,182:107771.
(25) 张阳阳,黄英*,刘家祥,刘平,张玉刚,面向手势动作捕捉的传感器设计及主从手运动映射,机器人,2019.03.15,41(02):156-164.
(26) Ying Huang,Chao Hao,Jian Liu,Xiaohui Guo,Yangyang Zhang,Ping Liu,Caixia Liu,Yugang Zhang,Xiaoming Yang,Highly stretchable,rapid-response strain sensor based on SWCNTs/CB nanocomposites coated on rubber/latex polymer for human motion tracking,Sensor Review,2019.03.07,39(2): 233-245.
(27) Yunong Zhao,Ying Huang*,Wei Hu,Xiaohui Guo,Yang Wang,Ping Liu,Caixia Liu,Yugang Zhang,Highly sensitive flexible strain sensor based on threadlike spandex substrate coating with conductive nanocomposites for wearable electronic skin,Smart Materials and Structures,2019.02.01,28(3): 0350004.
(28) Ying Huang*,Wendong Wang,Xiao Zeng,Xiaohui Guo,Yangyang Zhang,Ping Liu,Yuanming Ma,Yugang Zhang,Effects of the filler size on the electrical percolation threshold of carbon black–carbon nanotube–polymer composites,Journal of Applied Polymer Science,2018.08.20,135(32):46517.
(29) Ying Huang*,Xiao Zeng,Wendong Wang,Xiaohui Guo,Chao Hao,Weidong Pan,Ping Liu,Caixia Liu,Yuanming Ma,Yugang Zhang,Xiaoming Yang,High-resolution flexible temperature sensor based graphite-filled polyethylene oxide and polyvinylidene fluoride composites for body temperature monitoring,Sensors and Actuators A:Physical,2018.08.01,278:1-10.
(30) Ping Liu*,Weidong Pan,Yue Liu,Jian Liu,Wenrui Xu,Xiaohui Guo,Caixia Liu,Yugang Zhang,Yunjian Ge,Ying Huang,Fully flexible strain sensor from core-spun elastic threads withintegrated electrode and sensing cell based on conductive nanocomposite,Composites Science and Technology,2018.05.03,159:42-49.
(31) Caixia Liu,Can Wu,Chao Hao,Ping Liu,Xiaohui Guo,Yugang Zhang,Ying Huang*,Electrical conductivity transformation mechanism of GNPs/CB/SR nanocomposite foams,Journal of Applied Polymer Science,2018.03.15,135(11):45996.
(32) Ying Huang*,Yunong Zhao,Yang Wang,Xiaohui Guo,Yangyang Zhang,Ping Liu,Caixia Liu,Yugang Zhang,Highly stretchable strain sensor based on polyurethane substrate using hydrogen bond-assisted laminated structure for monitoring of tiny human motions,Smart Materials and Structures,2018.02.15,27(3):035013.
(33) Wenqing Kan,Ying Huang*,Xiao Zeng,Xiaohui Guo,Ping Liu,A dual-mode proximity sensor with combination of inductive and capacitive sensing units,Sensor Review,2018.01.15,38(2): 199-206.
(34) Ying Huang*,Le Gao,Yunong Zhao,Xiaohui Guo,Caixia Liu,Ping Liu,Highly flexible fabric strain sensor based on graphene nanoplatelet–polyaniline nanocomposites for human gesture recognition,Journal of Applied Polymer Science,2017.10.15,134(39):45340.
(35) 张阳阳,黄英*,郝超,郭小辉,刘平,基于织物拉伸传感器的手势映射系统,仪器仪表学报,2017.10.15,38(10):2422-2429.
(36) Xiaohui Guo,Ying Huang*,Yunong Zhao,Leidong Mao,Le Gao,Weidong Pan,Yugang Zhang,Ping Liu,Highly stretchable strain sensor based on SWCNTs/CB synergistic conductive network for wearable human-activity monitoring and recognition,Smart Materials and Structures,2017.09.09,26(9):095017.
(37) Ying Huang*,Xia Cai,Wenqing Kan,Shihua Qiu,Xiaohui Guo,Caixia Liu,Ping Liu,A flexible dual-mode proximity sensor based on cooperative sensing for robot skin applications,Review of Scientific Instruments,2017.08.21,88(8):085005.
(38) Ying Huang*,Xiaoyue He,Le Gao,Yue Wang,Caixia Liu,Ping Liu,Pressure-sensitive carbon black/graphene nanoplatelets-silicone rubber hybrid conductive composites based on a three-dimensional polydopamine-modified polyurethane sponge,Journal of Materials Science: Materials in Electronics,2017.07.15,28(13):9495-9504.
(39) Ying Huang*,Haitao Yuan,Wenqing Kan,Xiaohui Guo,Caixia Liu,Ping Liu,A flexible three‑axial capacitive tactile sensor with multilayered dielectric for artificial skin applications,Microsystem Technologies,2017.06. 15,23(6):1847-1852.
(40) Ying Huang*,Yue Wang,Le Gao,Xiaoyue He,Ping Liu,Caixia Liu,Characterization of stretchable SWCNTs/Lycra fabric electrode with dyeing process,Journal of Materials Science: Materials in Electronics,2017.03.15,28(05):4279-4287.
二、授权发明专利
(1) 刘平,童伟,郭旭,胡若海,刘彩霞,张玉刚,杨晓明,滕飞,刘健,黄英,基于PEDOT:PSS的柔性应变传感器及其制备方法,2023.06.06,中国,ZL20231 0031972.6
(2) 刘平,冯涵,吴顺哥,刘彩霞,黄英,一种基于柔性电子开关阵列的跳远测试系统,2022.05.10,中国,ZL202110526966.9
(3) 刘平,一种具有规则裂纹结构的柔性应变传感器及其制作方法,2021.08.17,中国,ZL201911136167.X
(4) 黄英,曾晓,朱文瑾,刘平,刘彩霞,杨晓明,一种用于监测人体体温的可穿戴柔性温度传感器及其制备方法,2021.06.08,中国,ZL201811061762.7
(5) 黄英,王志强,汪洋,刘平,刘彩霞,杨晓明,一种基于改性纸基的高灵敏度柔性压力传感器及其制备方法,2021.02.05,中国,ZL201910619124.0
(6) 黄英,胡伟,刘平,郭小辉,郝超,基于石墨烯/纳米银-乳胶膜的电热相变执行器及其制作方法,2020.10.02,中国,ZL201810744365.3
(7) 黄英,张阳阳,朱文瑾,刘平,刘彩霞,基于多信息融合的人手协同灵巧手的伺服操作系统及其方法,2020.06.26,中国,ZL201811549841.2
(8) 黄英,赵雨农,王志强,郭小辉,刘平,刘彩霞,一种基于聚氨酯纤维可拉伸应变传感器及其制备方法,2020.04.14,中国,ZL201711229196.1
(9) 黄英,郭小辉,汪洋,胡伟,刘彩霞,刘平,一种全柔性接近-触压觉传感器,2019.11.08,中国,ZL201710873706.2
(10) 黄英,汪月,何晓玥,刘平,刘彩霞,一种基于导电织物的可拉伸电极及其制备方法,2018.08.03,中国,ZL201610207740.1
(11) 黄英,郭小辉,马阳洋,刘彩霞,刘平,一种紧凑型2.45GHz柔性可穿戴石墨烯天线,2018.02.06,中国,ZL201510578329.0
(12) 黄英,汪卫华,汪月,何晓玥,郭小辉,刘彩霞,刘平,一种全柔性电阻式触压觉感知传感器及其制作方法,2017.12.28,中国,ZL201510282590.6
(13) 黄英,郭小辉,伍璨,邱世华,刘彩霞,刘平,一种共面波导馈电的2.45GHz柔性可穿戴天线,2017.12.26,中国,ZL201510801462.8
(14) 黄英,腾珂,郭小辉,马阳洋,刘平,一种可穿戴式多信息融合的步态分析系统及其方法,2017.12.26,中国,ZL201510971801.7
(15) 黄英,邱世华,刘彩霞,刘平,张玉刚,郭小辉,马阳洋,汪卫华,一种全柔性电容-电阻双模式接近觉传感器,2017.01.25,中国,ZL201510163579.8
(16) 黄英,郭小辉,方定,孙志广,刘彩霞,刘平,张玉刚,一种电容式触滑觉传感器装置,2016.05.11,中国,ZL201410513767.4
(17) 黄英,袁海涛,刘彩霞,刘平,张玉刚,郭小辉,李雷鸣,邱世华,一种变介质式电容柔性三维力触觉传感器,2016.02.24,中国,ZL201410206998.0
(18) 黄英,郭小辉,刘家俊,刘彩霞,袁海涛,马阳洋,刘平,张玉刚,一种全柔性电容式触觉传感器,2016.01.06,中国,ZL201410245030.9
(19) 黄英,江宜舟,腾珂,袁海涛,何晓玥,刘平,刘彩霞,张玉刚,一种触觉传感器的多维力加载及标定装置,2015.11.18,中国,ZL201410272708.2
(20) 黄英,白金蓬,郭小辉,袁海涛,刘彩霞,刘平,蔡文婷,吴思谕,李锐琦,基于多信息的驾驶员疲劳实时监测系统及监测方法,2015.09.16,中国,ZL201310415071.3
(21) 戚功美,余道洋,刘平,李民强,刘锦淮,一种水体中的氟离子在线监测分析仪及其检测方法,2015.04.22,中国,ZL201310158666.5
(22) 余道洋,李柱,刘平,戚功美,李民强,刘锦淮,一种水中重金属在线分析仪的水样采集装置,2015.09.02,中国,ZL201310159027.0
(23) 余道洋,刘平,李柱,戚功美,李民强,刘锦淮,一种在线重金属分析仪的电极自动更换装置,2015.03.04,中国,ZL201310159038.9
三、获奖
(1) 浙江省科学技术进步二等奖,多模态响应的柔性功能复合薄膜跨尺度设计与制造及产业化,杨晓明、刘平、卜小海、夏厚君、周钰明、李耀邦、黄英,毕立林、胡文惠,2021
(2) 刘平,第三代应变材料与柔性传感技术,科技部全国颠覆性技术创新大赛优秀项目,2021
(3) 浙江省科学技术进步二等奖,多相叠层聚合物基可拉伸柔性电子薄膜关键技术及产业化,杨晓明,刘平,刘彩霞,夏厚君,黄英,聂胜,江叔福,涂大记,吴恒勇,2020