当前位置:网站首页 > 人员构成 > 在校教师 > 陈虹
陈虹

个人简介

        陈虹,清华大学微电子学研究所研究员。2005年7月毕业清华大学电子工程系,并获工学博士学位。2005年7月~2007年3月在清华大学微电子学研究所做博士后工作,期间在美国Nebraska Lincoln大学医学研究中心从事人工关节环境下的压电陶瓷供电情况的研究。长期从事低功耗数字电路设计以及大规模集成电路设计。目前主要研究低功耗电路技术在医疗健康领域方面的应用,对人工关节无线检测系统关键技术进行了大量的研究,包括压电陶瓷供电、亚阈值电路设计和异步电路设计等。先后参加了5项国家863项目,主持了1项国家自然科学基金项目、1项国家科技重大专项子课题及1项863主题项目子课题。在国内外期刊和国际会议上已发表论文31篇,其中SCI收录5篇,EI收录19篇。编著《异步电路设计》已由清华大学出版社出版。

出版物

所发表的论文:

[1] Dexuan Huo, Jilin Zhang, Xinyu Dai, Pingping Zhang, Shumin Zhang, Xiao Yang, Jiachuang Wang, Mengwei Liu, Xuhui Sun, Hong Chen, A Bio-Inspired Spiking Neural Network with Few-Shot Class-Incremental Learning for Gas Recognition, Vol.23, No.5, pp.1-14, 2023.

[2] Jingqiao Lu, Mingxuan Liu, Hong Chen, PRTMTM: A Priori Regularization Method for Tooth-marked Tongue Classification, ISCAS 2023, pp.1-5, 2023.

[3] Jingqiao Lu, Hong Chen, A Multi-stage Segmentation Method for Tongue Ecchymosis, EMBC 2023, pp.1-4, 2023.

[4] Zhecheng Yang, Hongyu Gu, Hong Chen, An Automatic Method for Sublingual Image Segmentation and Color Analysis, EMBC 2023, pp.1-6, 2023.

[5] Jilin Zhang, Dexuan Huo, Jian Zhang, Jian Zhang, Qi Liu, Liyang Pan, Zhihua Wang, Ning Qiao, Kea-Tiong Tang, Hong Chen, ANP-I: A 28nm 1.5pJ/SOP Asynchronous Spiking Neural Network Processor Enabling Sub-0.1μJ/sample On-Chip Learning for Edge-AI applications, ISSCC 2023, pp.21-23, 2023.

[6] Jian Zhang, Jilin Zhang, Dexuan Huo, Hong Chen, ANAS: Asynchronous Neuromorphic Hardware Architecture Search Based on a System-Level Simulator, DAC 2023, pp.1-6, 2023.

[7] Jilin Zhang, Chunqi Qian, Dexuan Huo, Jian Zhang, Hong Chen, Designing Self-Timed Asynchronous Circuits with Chisel, ASYNC 2023, pp.27-33, 2023.

[8] Dexuan Huo, Jilin Zhang, Xinyu Dai, Jian Zhang, Chunqi Qian, Kea-Tiong Tang, Hong Chen, ANP-G: A 28nm 1.04pJ/SOP Sub-mm2 Spiking and Back-propagation Hybrid Neural Network Asynchronous Olfactory Processor Enabling Few-shot Class-incremental On-chip Learning, VLSI Technology and Circuits 2023, pp.1-2, 2023.

[9] Dexuan Huo, Jilin Zhang, Jian Zhang, Hong Chen, A 28nm Energy-efficient Asynchronous SNN Accelerator with On-chip Learning for Gas Recognition, ASYNC 2023, pp.42-47, 2023.

[10] Jingqiao Lu, Hong Chen, A Multi-stage Segmentation Method for Tongue Ecchymosis, EMBC 2023, pp.1-4, 2023.

[11] Ziqiang Wang, Dengjie Wang, Xin Wu, Jiawei Wang, Hao Xu, Chun Zhang, Hong Chen, Zhihua Wang, A 44 Gbps PAM-4 Transmitter with Resistance Feedback 4:1 MUX in 65nm CMOS, ICSICT 2022, pp.1-3, 2022.

[12] Mingxuan Liu, Yunrui Jiao, Hongyu Gu, Jingqiao Lu, Hong Chen, Data Augmentation Using Image-to-image Translation for Tongue Coating Thickness Classification with Imbalanced Data, BioCAS 2022, pp.90-94, 2022.

[13] Nan Wu, Ning Pu, Xinpeng Liu, Siqi Zhang, Hanjun Jiang, Hong Chen, Wen Jia, Zhihua Wang, Resource Efficient Gas Classifier Based on 1.5-bit Quantization of Sensing Channel Difference for Electronic Nose, BioCAS 2022, pp.699-703, 2022.

[14] Dengjie Wang,Ziqiang Wang,Hao Xu,Jiawei Wang,Zeliang Zhao,Chun Zhang,Zhihua Wang,Hong Chen, A 56-Gbps PAM-4 Wireline Receiver With 4-Tap Direct DFE Employing Dynamic CML Comparators in 65 nm CMOS, IEEE Transactions on Circuits and Systems I: Regular Papers, Vol.PP, No.99, pp.1-14, 2021.

[15] Hong Chen,Zhecheng Yang,Jilin Zhang,Jie Liu,Hao Tang,Yixin Zhou,Binjie Zhu,Zhihua Wang, An IMU-Based Real-Time Measuring System for Acetabular Prosthesis Implant Angles in THR Surgeries, IEEE Sensors Journal, Vol.21, No.17, pp.19407-19415, 2021.

[16] Hong Chen,Dengjie Wang,Ziqiang Wang,Shuai Yuan,Chun Zhang,Zhihua Wang, An 11.05 mW/Gbps Quad-Channel 1.25-10.3125 Gbps Serial Transceiver With a 2-Tap Adaptive DFE and a 3-Tap Transmit FFE in 40 nm CMOS, IEEE Access, Vol.9, pp.70856-70867, 2021.

[17] Xinyu Dai,Zhecheng Yang,Zhihua Wang,Baojun Mai,Binjie Zhu,Hong Chen, A Portable Pressure and Force Line Trajectory Measuring System for Unicondylar Knee Arthroplasty, EMBC 2021, pp.1448-1451, 2021.

[18] Hui Wu,Zhe Su,Jilin Zhang,Shaojun Wei,Zhihua Wang,Hong Chen, A Design Flow for Click-based Asynchronous Circuits Design with Conventional EDA Tools, IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems, Vol.40, No.11, pp.2421-2425, 2020.

[19] Zhe Su,Zhihua Wang,Yixin Zhou,Binjie Zhu,Hong Chen, A Wireless Trajectory Measurement System for Unicondylar Knee Arthroplasty, IEEE Transactions on Instrumentation and Measurement, Vol.69, No.12, pp. 9417 - 9426, 2020.

[20] Hongyu Gu,Zhecheng Yang,Hong Chen, Automatic Tongue Image Segmentation Based on Thresholding and an Improved Level Set Model, APCCAS 2020, pp. 149 - 152, 2020.

[21] Syed Mudassir Hussain,Fasih Ud Din Farrukh,Shaojie Su,Zhihua Wang,Hong Chen, CMOS Image Sensor Design and Image Processing Algorithm Implementation for Total Hip Arthroplasty Surgery, IEEE Transactions on Biomedical Circuits and Systems, Vol.PP, No.99, pp. 1 - 1, 2019.

[22] Dengjie Wang,Hong Chen,Wenhuan Luan,Xin Lin,Fangxu Lv,Ziqiang Wang,Hanjun Jiang,Chun Zhang,Zhihua Wang, A 4-40 Gb/s PAM-4 transmitter with a hybrid driver in 65 nm CMOS technology, MWSCAS 2019, pp. 251 - 254, 2019.

[23] Zhe Su,Zhihua Wang,Hong Chen, A Force Line Trajectory Measuring System and Algorithms for Unicondylar Knee Replacement Surgery, EMBC 2019, pp. 2217 - 2221, 2019.

[24] Hong Chen,Zhe Cao,Shaojie Su,Jie Liu,Zhihua Wang, Measurement System for Attitude of Anterior Pelvic Plane and Implantation of Prothesis in THR Surgery, IEEE Transactions on Instrumentation and Measurement, Vol.67, No.8, pp. 1913 - 1921, 2018.

[25] Guijie Zhu,Songping Mai,Xian Tang,Chun Zhang,Zhihua Wang,Hong Chen, An Energy-Efficient High-Frequency Neuro-Stimulator with Parallel Pulse Generators, Staggered Output and Extended Average Current Range, ISCAS 2018, pp. 1 - 4, 2018.

[26] Syed Mudassir,Xiaoyang Cao,Shaojie Su,Hong Chen,Zhihua Wang, Design and Simulation of an Application Specific CMOS Image Sensor, ICECE 2018, pp. 110 - 114, 2018.

[27] Shaojie Su,Yixin Zhou,Zhihua Wang,Hong Chen, Monocular Vision- and IMU-Based System for Prosthesis Pose Estimation During Total Hip Replacement Surgery, IEEE Transactions on Biomedical Circuits and Systems, Vol.11, No.3, pp. 661 - 670, 2017.

[28] Qianpeng Zheng,Hong Chen, A Monitoring System for Walking Rehabilitation After THR or TKR Surgeries, EMBC 2017, pp. 2373 - 2376, 2017.

[29] Zhe Cao,Shaojie Su,Hao Tang,Yixin Zhou,Zhihua Wang,Hong Chen, IMU-based Real-Time Pose Measurement system for Anterior Pelvic Plane in Total Hip Replacement Surgeries, EMBC 2017, pp. 1360– 1363, 2017.

[30] Yao Lu,Songping Mai,Chun Zhang,Hong Chen,Zhihua Wang, Design optimization of printed spiral coils and impedance matching networks for load-variable wireless power transfer systems, EDSSC 2017, pp. 1 - 2, 2017.

[31] Hao Tang,Yixin Zhou,Dejin Yang,Yi Jiang,Chunyu Zhang,Hong Chen, Pressure Distribution in Total Knee Arthroplasty:Distinction between PS and CR Knees: what’s the difference, Orthopedic Proceedings, Bone & Joint 2016, 2016.

[32] Zhe Cao,Shaojie Su,Hong Chen,Hao Tang,Yixin Zhou,Zhihua Wang, Pose measurement of Anterior Pelvic Plane based on inertial measurement unit in total hip replacement surgeries, EMBC 2016, pp. 5801 - 5804, 2016.

[33] Yifan Yang,Amr Ahmed,Shigang Yue,Xiang Xie,Hong Chen,Zhihua Wang, An Algorithm for Accurate Needle Orientation, EMBC 2016, pp. 5095 - 5098, 2016.

[34] Jintao Li,Bo Pang,Ming Liu,Hong Chen, A 0.6V Standard Cell Library in 40nm CMOS for Near-threshold Computing, EDSSC 2016, pp. 279 - 282, 2016.

[35] Guanghua Wu,Hong Chen,Yanyi Meng,Xitian Long,Kun Yang,Xueping Jiang,Yuxuan Liu, Design and Implement of Baseband Circuits for a Wireless Automatic Meter Reading Application, EDSSC 2016, pp. 395 - 398, 2016.

[36] Yuxuan Liu,Hanjun Jiang,Guanghua Wu,Hong Chen,Anping He, An Asynchronous GFSK Demodulator for Automatic Meter Reading, EDSSC 2016, pp. 271 - 274, 2016.

[37] Shaojie Su,Guangli Jiang,Hong Chen,Zhihua Wang, Color Based Segmentation in Monocular System for Prosthesis Pose Estimation during Total Hip Replacement Surgery, BioCAS 2016, pp. 320 - 323, 2016.

[38] Yanyi Meng,Hong Chen,Guanghua Wu,Xitian Long,Kun Yang,Xueping Jiang, Research and Implementation of Micro-Power Wireless Data Transmission Protocol, Microelectronics & Computer, Vol.33, No.12, pp. 20-24, 2015.

[39] Qi Peng,Chun Zhang,Xijin Zhao,Xuguang Sun,Fule Li,Hong Chen,Zhihua Wang, A Low-Cost UHF RFID System With OCA Tag for Short-Range Communication, IEEE Transactions on Industrial Electronics, Vol.62, No.7, pp. 4455 - 4465, 2015.

[40] Hong Chen,Jiyang Gao,Shaojie Su,Xu Zhang,Zhihua Wang, A Visual-Aided Wireless Monitoring System Design for Total Hip Replacement Surgery, IEEE Transactions on Biomedical Circuits and Systems, Vol.9, No.2, pp. 227 - 236, 2015.

[41] Yanyi Meng,Xitian Long,Guanghua Wu,Hong Chen,Kun Yang,Xueping Jiang, Design and Implementation of MAC and PHY of a Sub-GHz Wireless Transmission Protocol using Software Defined Radio Platform, MAPE 2015, 2015.

[42] Shaojie Su,Jiyang Gao,Hong Chen,Zhihua Wang, Design of a Computer-Aided Visual System for Total Hip Replacement Surgery, ISCAS 2015, pp. 786 - 789, 2015.

[43] Jiyang Gao,Shaojie Su,Hong Chen,Zhihua Wang, Orientation and depth estimation for femoral components using image sensor, magnetometer and inertial sensors in THR surgeries, EMBC 2015, pp. 2737 - 2740, 2015.

[44] Chun Zhao,Chun Zhang,Xijin Zhao,Hong Chen,Zhihua Wang, Time Difference of Arrival Estimation Based on Wavelet Transform, EDSSC 2015, pp. 515 - 518, 2015.

[45] Shaojie Su,Jiyang Gao,Zhe Weng,Hong Chen,Zhihua Wang, Live demonstration: A smart trial for hip range of motion estimation in total hip replacement surgery, BioCAS 2015 , pp. 1 - 5, 2015.

[46] Shaojie Su,Jiyang Gao,Zhe Cao,Hong Chen,Zhihua Wang, Smart trail with camera and inertial measurement unit for intraoperative estimation of hip range of motion in total hip replacement surgery, BioCAS 2015, pp. 1 - 4, 2015.

[47] Jintao Li,Ming Liu,Hong Chen, A 0.3V-to-1.1V Standard Cell Library in 40nm CMOS, ASICON 2015, pp. 1 - 4, 2015.

[48] Xu Zhang,Ming Liu,Bo Wang,Hong Chen,Zhihua Wang, A Wide Measurement Range and Fast Update Rate Integrated Interface for Capacitive Sensors Array, IEEE Transactions on Circuits and Systems I: Regular Papers, Vol.61, No.1, pp. 2 - 11, 2014.

[49] Jiyang Gao,Shaojie Su,Hong Chen,Hanjun Jiang,Chun Zhang,Zhihua Wang,Hao Tang,Yinxin Zhou, Estimation of the relative pose of the femoral and acetabular components in a visual aided system for total hip replacement surgeries, NEWCAS 2014, pp. 81 - 84, 2014.

[50] Hong Chen,Shaojie Su,Zhihua Wang,Xu Zhang, A wirelessly monitoring system design for Total Hip Replacement surgery, ISCAS 2014, pp. 2069 - 2072, 2014.

[51] Tian Ding,Chun Zhang,Zhongqiu Li,Wei Zhang,Hong Chen,Wen Jia, Design of spread spectrum based UHF RFID tag for location system, EDSSC 2014, pp. 1 - 2, 2014.

[52] Huamin Cao,Ming Liu,Hong Chen,Xiang Zheng,Cong Wang,Zhihua Wang, Design of High-Speed SRAM Array and Periphery for Compiler, Microelectronics, Vol.43, No.1, 2013.

[53] Cong Wang,Ming Liu,Hong Chen,Xiang Zheng,Huamin Cao,Zhiqiang Gao, Flexible Embedded SRAM IP Compiler Design Methodology Research and Implementation, Microelectronics, Vol.43, No.1, 2013.

[54] Hong Chen,Chun Zhang,Zhihua Wang, Live demonstration: A wireless force measurement system for total knee arthroplasty, ISCAS 2013, pp. 672, 2013.

[55] Hong Chen,Xu Zhang,Ming Liu,Wenhan Hao,Hanjun Jiang,Chen Jia,Chun Zhang,Zhihua Wang, Low-power circuits for the wireless ligament balance measurement system in TKA, Analog Integrated Circuits and Signal Processing, Vol.72, No.2, pp. 293 - 302, 2012.

[56] Chaojun Ye,Chun Zhang,Hong Chen,Zhihua Wang, A UHF near-field RFID system with contactless inductively coupled antenna, RFIT 2012, pp. 131 - 133, 2012.

[57] Zhihua Wang,Hong Chen,Ming Liu,Hanjun Jiang,Tianjia Sun,Xu Zhang, A wirelessly ultra-low-power system for equilibrium measurements in total hip replacement surgery, NEWCAS 2012, pp. 141 - 144, 2012.

[58] Dingguo Wei,Chun Zhang,Yan Cui,Hong Chen,Zhihua Wang, Design of a Low-cost Low-power Baseband-processor for UHF RFID Tag with Asynchronous Design Technique, ISCAS 2012, pp. 2789 - 2792, 2012.

[59] Hanqing Luo,Ming Liu,Hong Chen,Chun Zhang,Zhihua Wang, A Wireless Force Measurement System For Total Knee Arthroplasty, ISCAS 2012, pp. 2637 - 2640, 2012.

[60] Xu Zhang,Ming Liu,Hong Chen,Chun Zhang,Zhihua Wang, A wide dynamic range and fast update rate integrated interface for capacitive sensors array, ISCAS 2012, pp. 2961 - 2964, 2012.

[61] Cong Wang,Ming Liu,Hong Chen,Xiang Zheng,Huamin Cao,Zhiqiang Gao, An Embedded SRAM IP Compiler Design Methodology Independent of Technology and Circuit Structure, ICETCE 2012, pp. 246 - 249, 2012.

[62] yan cui,chun zhang,dingguo wei,xijin zhao,hong chen, A 0.65μW Baseband Processor for UHF RFID with On-chip Antenna, ICCCAS 2012, pp. 367 - 370, 2012.

[63] Xiang Zheng,Ming Liu,Hong Chen,Huamin Cao,Cong Wang,Zhiqiang Gao, A 512 kb SRAM in 65nm CMOS with Divided Bitline and Novel Two-stage Sensing Technique, DDECS 2012, pp. 191 - 192, 2012.

[64] Huamin Cao,Ming Liu,Hong Chen,Xiang Zheng,Cong Wang,Zhihua Wang, Efficient Built-in Self-Repair Strategy for Embedded SRAM with Selectable Redundancy, CECNet 2012, pp. 2565 - 2568, 2012.

[65] Ming Liu,Xu Zhang,Hong Chen,Chun Zhang,Zhihua Wang, A fast computable delay model for subthreshold circuit, CCECE 2012, pp. 1 - 4, 2012.

[66] Ke Zhao,Hanqing Luo,Hong Chen,Ming Liu,Zhihua Wang, A SoC for Pressure Balance Measurement Application in Total Knee Arthroplasty, AASRI Conference on Computational Intelligence and Bioinformatics (CIB 2012), pp. 267 - 275, 2012.

[67] Weiyi Wan,Hong Chen,Ming Liu,Jing Tang,Chun Zhang,Zhihua Wang, The gauge system of strain balance in the medical operation of total knee replacement, Transducer and Microsystem Technologies, Vol.30, No.2, pp. 142 - 144, 2011.

[68] Guannan Xu,Chen Jia,Hong Chen,Chun Zhang, A ultra low power dissipation CMOS bandgap reference, China Integrated Circuit, Vol.20, No.2, pp. 27 - 30, 55, 2011.

[69] Zhihua Wang,Hanjun Jiang,Xiang Xie,Hong Chen,Baoyong Chi,Chun Zhang, Key Technologies in the Integrated Circuit Design for the Construction of a Wireless Healthcare System, MWSCAS 2011, pp. 1 - 4, 2011.

[70] Ming Liu,Hong Chen,Xu Zhang,Chun Zhang,Hanjun Jiang,Zhihua Wang, Low-power SoC design for Ligament Balance Measuring System in Total Knee Arthroplasty, EMBC 2011, pp. 5860 – 5863, 2011.

[71] Zhang Xu,Hong Chen,Ming Liu,Chun Zhang,Zhihua Wang, Sensor interface with single-line quasi-digital output for ligament balance measuring system, BioCAS 2011, pp. 377 - 380, 2011.

[72] Ming Liu,Hong Chen,Chen Jia,Zhihua Wang, Subthreshold 32-bit Data Path Design, Journal of Tsinghua University (Science and Technology), Vol.50, No.1, pp. 9 - 12, 2010.

[73] Ming Liu,Hong Chen,Chun Zhang,Changmeng Li,Zhihua Wang, A light-powered subthreshold microprocessor, Chinese Journal of Semiconductors, Vol.31, No.11, pp. 115002 - 1 - 6, 2010.

[74] Ming Liu,Hong Chen,Changmeng Li,Zhihua Wang, An ultra-low-power 1Kb Sub-threshold SRAM in 180nm CMOS Process, Chinese Journal of Semiconductors, Vol.31, No.6, 2010.

[75] Yi Chen,Fule Li,Hong Chen,Chun Zhang,Zhihua Wang, A low power cyclic ADC design for a wireless monitoring system for orthopedic implants, Chinese Journal of Semiconductors, Vol.30, No.8, pp. 147 - 152, 2010.

[76] Hong Chen,Chen Jia,Wenhan Hao,Chun Zhang,Zhihua Wang,Chunsheng Liu, Power Harvesting With PZT Ceramics And Circuits Design, Analog Integrated Circuits and Signal Processing, Vol.62, No.2, pp. 263-268, 2010.

[77] Hong Chen,Ming Liu,Weiyi Wan,Chen Jia,Chun Zhang,Zhihua Wang, Low-power Circuits Design for the Wireless Force Measurement System of the Total Knee Arthroplasty, EMBC 2010, pp. 3539 - 3542, 2010.

[78] Jian Chen,Chun Zhang,Hong Chen, A Low-Power Public Key Cryptosystem Implementation for RFID, Semiconductor Technology, No.9, pp. 75 - 79, 2009.

[79] Wenhan Hao,Chen Jia,Hong Chen,Chun Zhang,Zhihua Wang, A variable step-down conversion ratio switched capacitor DC-DC converter for energy harvesting systems working in intermittent mode, Chinese Journal of Semiconductors, Vol.30, No.12, pp. 1250081 - 5, 2009.

[80] Chen Jia,Wenhan Hao,Hong Chen,Chun Zhang,Zhihua Wang, A low power bandgap reference with buffer working in the sub-threshold region, Chinese Journal of Semiconductors, Vol.30, No.7, pp. 0750141 - 5, 2009.

[81] Yi Chen,Fule Li,Hong Chen,Chun Zhang,Zhihua Wang, A Low Power Cyclic ADC Design for the Wireless Monitoring System of the Orthopedic Implants, Chinese Journal of Semiconductors, Vol.30, No.8, pp. 147 - 152, 2009.

[82] Hong Chen,Ming Liu,Chen Jia,Zhihua Wang, Power Harvesting Using PZT Ceramics Embedded in Orthopedic Implants, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control, Vol.56, No.9, pp. 2010 - 2014, 2009.

[83] Hong Chen,Ming Liu,Wenhan Hao,Yi Chen,Chun Zhang,Zhihua Wang, Low-Power Circuits for the Bidirectional Wireless Monitoring System of the Orthopedic Implants, IEEE Transactions on Biomedical Circuits and Systems, Vol.3, No.6, pp. 437 - 443, 2009.

[84] Chen Jia,Hong Chen,Wenhan Hao,Chun Zhang,Zhihua Wang, A Charge Recycling Method for Step-Down SC Converter in Energy Harvesting Systems, ICCCAS 2009, pp. 720 - 723, 2009.

[85] Hong Chen,Chen Jia,Ming Liu,Zhihua Wang, Study on Power Harvesting Using PZT Ceramics in Orthopaedic Implants, Piezoel Ectectrics & Acoustooptics, Vol.30, No.1, pp. 96 - 99, 2008.

[86] Hong Chen,Chen Jia,Ming Liu,Zhihua Wang, Power harvesting and circuit design using PZT piezoelectric ceramics in orthopaedic implants, Journal of Tsinghua University (Science and Technology), Vol.48, No.1, pp. 128 - 131, 136, 2008.

[87] Chen Jia,Hong Chen,Ming Liu,Chun Zhang,Zhihua Wang, Integrated power management circuit for piezoelectronic generator in wireless monitoring system of orthopaedic implants, IET Circuits Devices & Systems, Vol.2, No.6, pp. 485 - 494, 2008.

[88] Ming Liu,Hong Chen,Run Chen,Zhihua Wang, Low-Power IC Design for a Wireless BCI system, ISCAS 2008, pp. 1560 - 1563, 2008.

[89] Hong Chen,Chen Jia,Yi Chen,Ming Liu,Chun Zhang,Zhihua Wang, A low-power IC design for the wireless monitoring system of the orthopedic implants, CICC 2008, pp. 363 - 366 , 2008.

[90] Hong Chen,Ming Liu,Chen Jia,Chun Zhang,Zhihua Wang, Low Power IC Design of Wireless Monitoring System for Orthopedic Implants, Microelectronics, Vol.37, No.5, pp. 717 - 725, 2007.

[91] Hong Chen,Depeng Jin,Lieguang Zeng, Quantitative Analysis and Comparisons of EPON Protection Schemes, Journal of Optical Communications, Vol 28, No.4, pp. 289 - 294, 2007.

[92] Xinkai Chen,Guolin Li,Xiang Xie,Xiaowen Li,Zhihua Wang,Hong Chen, A low power digital baseband for wireless endoscope capsule, ISCAS 2007, pp. 2355 - 2358, 2007.

[93] Xiaowen Li,Xiang Xie,Xinkai Chen,Guolin Li,Li Zhang,Zhihua Wang,Hong Chen, Design and implementation of a low complexity near-lossless image compression method for wireless endoscopy capsule system, ISCAS 2007, pp. 1321 - 1324, 2007.

[94] Hong Chen,Chen Jia,Chun Zhang,Zhihua Wang,Chunsheng Liu, Power harvesting with PZT ceramics, ISCAS 2007, pp. 557 - 560, 2007.

[95] Zhihua Wang,Songping Mai,Chun Zhang,Hong Chen, Design Practice of Power-oriented Integrated Circuits for Biomedical Implant Systems, ICECS 2007, pp. 78 - 81, 2007.

[96] Hong Chen,Ming Liu,Chen Jia,Chun Zhang,Zhihua Wang, Low Power IC Design of the Wireless Monitoring System of the Orthopedic Implants, EMBS 2007, pp. 5766 - 5769, 2007.

[97] Hong Chen,Depeng Jin,Lieguang Zeng, Quantitative Analysis and Comparisons of EPON Protection Schemes, Chinese Journal of Electronics, Vol.14, No.3, pp. 412 - 416, 2005.

所持专利:

[1] 朱文武,王鑫,关超宇,陈虹. 面向超大规模图的架构搜索方法、装置、设备及存储介质: 中国, 202210794670.X[P].

[2] 朱文武,王鑫,陈虹. 任务与数据联合选择的辅助学习方法、装置以及存储介质: 中国, 202210425169.6[P].

[3] 陈虹,杨哲承,顾鸿宇. 舌下图像分析方法、装置、计算机设备和存储介质: 中国, 202210322440.3[P].

[4] 陈虹,张吉霖. 一种片上学习神经形态芯片及训练方法: 中国, 202110953844.8[P].

[5] 王登杰,王自强,陈虹,张春,王志华. 用于判决反馈均衡器的动态电流模比较器: 中国, 202110549367.9[P].

[6] 陈虹,顾鸿宇,钱春圻,王传池,胡镜清,杨燕,郑昭瀛. 舌象分析方法和系统: 中国, 202110115247.8[P].

[7] 陈虹,张吉霖. 神经网络加速器的控制方法、装置及神经网络加速器: 中国, 202010009676.2[P].

[8] 陈虹,苏哲,朱斌杰. 一种无线便携式单髁膝关节置换术中力线轨迹测量系统: 中国, 202011465824.8[P].

[9] 陈虹. 健康信息监测方法及系统: 中国, 201911213069.1[P].

[10] 王自强,王登杰,贾晨,陈虹,张春,王志华. 一种用于高速串口收发机的自适应均衡方法及系统: 中国, 201911215963.2[P]. 2022-12-30.

[11] 陈虹,顾鸿宇. 人体肌肉图像的建立方法、装置、存储介质及电子设备: 中国, 201911021720.5[P]. 2022-08-23.

[12] 王自强,王登杰,陈虹,张春,王志华. 一种混合电压模和电流模PAM-4高速驱动电路: 中国, 201910428411.3[P]. 2020-12-08.

[13] 陈虹,苏哲,王志华. 单髁膝关节置换术中股骨远端相对于假体垫片力线轨迹的测量方法与系统: 中国, 201910148531.8[P]. 2020-12-29.

[14] 陈虹,吴辉. 一种将同步电路转化为异步电路的方法: 中国, 201910123501.1[P]. 2021-02-09.

[15] 陈虹,吴辉. 一种异步电路自动延迟匹配的方法: 中国, 201910120574.5[P]. 2021-06-08.

[16] 陈虹,陈伟佳,王登杰. 一种基于异步逻辑的可重构卷积神经网络加速电路: 中国, 201810296728.1[P].

[17] 陈虹,曹哲. (实用新型)全髋关节置换术中姿态数据测量装置及利用该装置的系统: 中国, 201720368632.2[P]. 2018-08-21.

[18] 陈虹,曹哲. 全髋关节置换手术中骨盆姿态及假体安装角度获取方法与系统: 中国, 201710229095.8[P]. 2018-12-28.

[19] 陈虹,曹哲. 一种全髋关节置换手术中骨盆姿态获取方法与系统: 中国, 201610079471.5[P]. 2018-10-23.

[20] 陈虹, 武广华, 孟焱毅. 一种用于零中频GFSK解调器中的位同步电路: 中国, 201510325627.9[P]. 2017-05-17.

[21] 杨闻笛, 姜汉钧, 翁兆洋, 张春, 陈虹, 王志华. 肠鸣音监测识别系统: 中国, 201410559667.5[P]. 2017-09-22.

[22] 陈虹, 苏少杰, 高继扬, 王志华. 全髋关节置换术中髋关节内部实时可视辅助定位系统: 中国, 201410007929.7[P]. 2015-09-30.

[23] 姜珲, 王自强, 张春, 姜汉钧, 陈虹, 王志华. 一种预放大器通过控制幅度的失调校正方法: 中国, 201210569383.5[P]. 2015-09-02.

[24] 姜珲, 王自强, 张春, 姜汉钧, 陈虹, 王志华. 一种预放大器通过控制延时的失调校正方法: 中国, 201210569537.0[P]. 2015-08-19.

[25] 姜珲, 王自强, 张春, 麦宋平, 陈虹, 姜汉钧, 王志华. 减小斩波放大器输出纹波的电路、测量装置及信号测量方法: 中国, 201210562798.X[P]. 2015-08-19.

[26] 徐冠南, 贾晨, 王自强, 郑旭强, 张春, 姜汉钧, 陈虹, 王志华. 一种采用数字滑模变结构控制的Buck型开关电源转换器: 中国, 201210500397.1[P]. 2014-12-10.

[27] 陈虹, 王志华, 周一新, 苏少杰, 孙天佳, 高继扬, 姜汉钧. 髋关节置换术中髋臼及股骨头姿态实时获取方法与系统: 世界, WO2013170573 A1[P].

[28] Hong Chen, Zhihua Wang, Yixin Zhou, Shaojie Su, Tianjia Sun, Jiyang Gao, Hanjun Jiang. Method and system for acquiring attitude of acetabulum and femoral head in real time during hip joint replacement procedure: 美国, US10034779 B2[P]. 2018-07-31.

[29] 陈虹, 王志华, 周一新, 苏少杰, 孙天佳, 高继扬, 姜汉钧. 新型的髋置换术中获取髋臼及股骨头姿态的方法与系统: 与系统, 201210351910.5[P]. 2015-01-14.

[30] 王志华, 陈虹, 孙天佳, 周一新, 唐杞衡, 刘鸣, 苏少杰. 人工髋关节置换术中髋臼及股骨头姿态获取方法与系统: 中国, 201210148587.1[P]. 2014-11-26.

[31] 曹华敏, 刘鸣, 陈虹, 郑翔, 王聪, 王志华, 高志强. 一种具有读写分离的双端口SRAM单元6T结构: 中国, 201110282766.X[P]. 2013-12-04.

[32] 刘鸣, 陈虹, 郑翔, 曹华敏, 高志强, 王志华. 采用分级位线和两级灵敏放大器的SRAM电路装置: 中国, 201110205980.5[P]. 2013-09-04.

[33] 陈虹, 刘鸣, 张春, 唐竞, 周一新, 王志华. 一种人工膝关节置换术压力平衡测量系统: 中国, 201010034328.7[P]. 2013-10-02.

[34] 陈虹, 王志华. 植入关节内压电陶瓷间歇供电装置: 中国, 200510130630.1[P]. 2008-07-23.

[35] 陈虹, 王志华. 生物体植入关节双向数字无线压力监视系统: 中国, 200510130629.9[P]. 2008-08-20.

加入ICAS之前的论文:

[1]Hong Chen, Depeng Jin, Lieguang Zeng, “A novel dynamic bandwidth allocation scheme in EPONs”, Proceedings of SPIE The International Society for Optical Engineering,Asia-Pacific Optical and Wireless Communications (Network Architectures, Management, and Applications III)APOC2005, pp. 210-219, Nov. 2005