科研论文

[1]Wu Jiahao, Wenqi Bai, Luping Zhang, Xinyi Zhang, Haijun Lin, Houde Dai, Jinjin Liu,Fu Zhang*,Yuxiang Yang*.Design of a portable electrochemical impedance spectroscopy measurement system based on AD5941 for lithium-ion batteries[J].Journal of Energy Storage,2024,84, 110856.

[2]Wensheng Li, Hong Shi, Luping Zhang, Xinyi Zhang,Fu Zhang*,Yuxiang Yang*.Electrical impedance tomography: a review on hardware systems and circuits[J].Biomedical Physics & Engineering Express, 2023, Accepted.doi: 10.1088/2057-1976/ad13a9, ISSN: 2057-1976

[3]Fu Zhang, Shuangshuang Wu, Ye Li, Haijun Lin, Wenqi Bai, JinJin Liu andYuxiang Yang*.Parameter identification of Randles impedance model using sweep-phase measurements and non-iterative least squares estimation,IEEE Transactions on Instrumentation and Measurement, vol. 73, pp. 1-11, 2024, Art no. 1000711,doi: 10.1109/TIM.2023.3330185.

[4]Haijun Lin, Gang Long, Yihan Mao, Lucai Wang. Zero drift error compensation method for electronic balance based on incremental broad learning network.IEEE Transactions on Instrumentation and Measurement, 72: 2528312, 2023.

[5]Haijun Lin, Gengrong Shao, Lucai Wang, et al. Zero-drift error compensation method for electronic balance based on adaptive filter with autostep LMS.IEEE Transactions on Instrumentation and Measurement, 72: 1001410, 2023.

[6]Haijun Lin, Houde Dai, Yihan Mao, and Lucai Wang. An optimized radial basis function neural network with modulation-window activation function.Soft Computing, 28(5): 4631-4648, 2024.

[7]Haijun Lin, Sirao Zhang, Qinghao Li, Yuxiang Yang. A new method for heart rate prediction based on LSTM-BiLSTM-Att. Measurement, 207: 112384, 2023.

[8]Li Wensheng, Hong Shi, Luping Zhang, Wenqi Bai, Shuangshuang Wu,Fu Zhang*,Yuxiang Yang*.Bioimpedance spectroscopy measurement method based on multisine excitation and integerperiod undersampling.Measurement Science and Technology, 2023, 34(11): 115701.（https://iopscience.iop.org/article/10.1088/1361-6501/ace7e7）

[9]Fu Zhang, Pingbo Chen, Haijun Lin, Wenqi Bai, Shuangshuang Wu, Jianmin Li,Yuxiang Yang*.Analysis of time-domain response of series-parallel fractional-order RCα and RLβ circuits based on Cole distribution function,International Journal of Circuit Theory and Applications, 2023; 51(7): 3093- 3104. doi:https://doi.org/10.1002/cta.3597

[10]白世展，李文胜，林海军，李建闽，张甫*，杨宇祥*.基于径向基函数神经网络的肺部加权频差电阻抗成像方法，生物化学与生物物理进展，2023, 50(7): 1755-1766.doi:https://doi.org/10.16476/j.pibb.2022.0330

[11]Chengjun Li, Yacen Wu, Haijun Lin, Jianmin Li,Fu Zhang*,Yuxiang Yang*.ECG Denoising Method Based on an Improved VMD Algorithm,IEEE Sensors Journal, 2022，22(23): 22725-22733。doi:https://doi.org/10.1109/JSEN.2022.3214239.

[12]Fu Zhang, Fulin Liu, Haowen Zhong, Jianmin Li, Haijun Lin,Yuxiang Yang*.A novel time-domain fitting method for estimating Fricke-Morse model parameters based on single-frequency sinusoidal complete response measurements,Journal of Instrumentation, 2022, 17(09): P09010.doi:https://doi.org/10.1088/1748-0221/17/09/p09010.

[13]Fu Zhang, Shaoshuai Yu; Pingbo Chen; Chengjun Li; Haijun Lin; Jianmin Li, Yacen Wu* andYuxiang Yang*.Swallowing events recognition method based on complex impedance pharyngography and Nyquist plots,IEEE Sensors Journal, 2022, 22(18): 18076-18084,https://doi.org/10.1109/JSEN.2022.3196033.

[14]杨宇祥,白世展,林海军,李建闽*,张甫*.基于multisine激励与整周期采样的多频电阻抗成像系统设计.物理学报, 2022, 71(5): 058703, 10 pages. Doi: 10.7498/aps.71.20211375.

[15]杨宇祥，史壮志，张甫，张林杉，朱艳，李中林.糖尿病下肢动脉病变诊断方法的现状及展望，中国生物医学工程学报，2022, 41(04): 473-484.doi:https://doi.org/10.3969/j.issn.0258-8021.

[16]杨宇祥，余绍帅，林海军，李建闽，张甫*.基于复阻抗咽造影的吞咽事件检测与智能识别方法，电子与信息学报，2022, 44(11): 3998-4007。doi:https://doi.org/10.11999/JEIT210897

[17]杨宇祥，吴彬，林海军，李建闽，张甫，张彩丽，彭敏.无创血糖检测技术研究进展，分析测试学报，2022, 41(04): 578-586.

[18]H. Lin, Y. Mao, X. Xu and L. Wang, A Method for Nonlinear Error Compensation of Load Cell Based on Neural Network With Second Derivative Constraints,IEEE Sensors Journal, vol. 21, no. 15, pp. 16997-17004, 1 Aug.1, 2021, doi: 10.1109/JSEN.2021.3080120.

[19]杨宇祥,纪群飞,熊智平,李建闽,林海军,张甫,吴双双.电缆故障识别的归一化STDR分析方法[J].电子测量技术, 44(18): 116-121, 2021. doi:10.19651/j.cnki.emt.2107108

[20]李建平,何立栋,万嫩,温建明,杨宇祥.基于浓厚分散系HANAI理论的血液温度生物电阻抗特性量化表征研究[J].仪器仪表学报, 42(09): 236-243, 2021.

[21]Fu Zhang, Zhaosheng Teng,Yuxiang Yang, Haowen Zhong, Jianmin Li, Seward B. Rutkove, Benjamin Sanchez.A novel method for estimating the fractional Cole impedance model using single-frequency DC-biased sinusoidal excitation.Circuits Systems and Signal Processing, 2021, 40(2): 543-558. (https://doi.org/10.1007/s00034-020-01512-9)

[22]Li, Jianmin;Yang, Yuxiang*; Lin, Haijun; Teng, Zhaosheng; Zhang, Fu; Xu, Yong.A Voltage Sag Detection Method based on Modified S transform with Digital Prolate Spheroidal Window[J].IEEE Transactions on Power Delivery, 2021, 36(2): 997-1006. (https://doi.org/10.1109/TPWRD.2020.2999693)

[23]Lin Haijun, Huixia Li, Gengrong Shao, Yuan Ye,Yuxiang Yang*.Zero-point fault detection of load cells in truck scale based on recursive principal component analysis and comprehensive evaluation method[J].Measurement, 2020, 159 (15): 107706. (https://doi.org/10.1016/j.measurement.2020.107706)

[24]Li Jianmin,Yuxiang Yang, Zhaosheng Teng, Fu Zhang, Haowen Zhong and Chengbin Liang.A Simple Calibration Method for Ratio Error and Phase Error of Electronic Energy Meter[J].Electric Power Systems Research, 2020, 186(2020), 106416. (https://doi.org/10.1016/j.epsr.2020.106416)

[25]Fu Zhang, Zhaosheng Teng, Rutkove S,Yuxiang Yang.A simplified time-domain fitting method based on fractional operational matrix for Cole parameter estimation.IEEE Transactions on Instrumentation and Measurement, 2020, 69(4): 1566-1575.（https://doi.org/10.1109/TIM.2019.2912592）

[26]Jianmin Li,Haijun Lin, Zhaosheng Teng, Fu Zhang, and Chenbin Liang, Digital prolate spheroidal window-based S-transform for time-varying harmonic analysis,Electric Power Systems Research, 2020, 187: 106512.

[27]Houde Dai, Yadan Zeng, Zengwei Wang,Haijun Lin, Mingqiang Lin, Hui Gao, Shuang Song, Max Q.-H. Meng. Prior Knowledge-Based Optimization Method for the Reconstruction Model of Multicamera Optical Tracking System.IEEE Transactions on Automation Science and Engineering, 2020, 17(4): 2074-2084.

[28]Biao Sun, Zhaosheng Teng, Qing Hu,Haijun Lin, Sihao Tang. Periodic Noise Rejection of Checkweigher Based on Digital Multiple Notch Filter,IEEE Sensors Journal, 2020, 20(13): 7226-7234.

[29]Fu Zhang, Benjamin Sanchez, Seward B Rutkove,Yuxiang Yang, Haowen Zhong, Jianmin Li and Zhaosheng Teng.Numerical estimation of Fricke-Morse impedance model parameters using single-frequency sinusoidal excitation.Physiological Measurement, 2019, 40(9): 09NT01 (8pp) (http://dx.doi.org/10.1088/1361-6579/ab3666) Published 26 September 2019

[30]Haijun Lin, Qiu Tang, Zhaosheng Teng, Jin Li. A digital design method of time-weighting I for a sound level meter,Measurement, 2019, 136 (1): 511-516

[31]Fu Zhang, Zhaosheng Teng,Yuxiang Yang; Jianmin Li, Haowen Zhong, Jiangyan Sang.Near-binary multisine design with arbitrary sparse spectrum for fast BIS measurement.IET Science, Measurement & Technology, 2018, 12(4): 448-455. (doi:http://dx.doi.org/10.1049/iet-smt.2017.0239)

[32]Fu Zhang, Zhaosheng Teng, Haowen Zhong,Yuxiang Yang, Jianmin Li and Jiangyan Sang.Wideband mirrored current source design based on differential difference amplifier for electrical bioimpedance spectroscopy.Biomedical Physics & Engineering Express, 2018, 4(2): 025032.（http://stacks.iop.org/2057-1976/4/i=2/a=025032）

[33]Haijun Lin, Lucai Wang, Zhaosheng Teng, Songhui Li. Optimization for a neural network based on input-vectors correlation and its application to a truck scale.IEEE Transactions on Industrial Electronics, 2017, 64(6) : 4917-4927

[34]Haijun Lin, Haoxiang, Lucai Wang, Jinbao Yang. Weighing method for truck scale based on neural network with weight-smoothing constraint.Measurement, 2017, 106(2): 128-136.

[35]Haijun Lin, Songhui Li, Lucai Wang, Jinbao Yang. Weighing method for a truck scale based on optional neural network with penalty function.Transactions of the Institute of Measurement and Control, 2017, 39(7):1088-1096.

[36]Qiang Huang, Zhaosheng Teng, Xiang Tang,Haijun Lin, He Wen. Mass measurement method for the electronic balance based on Continuous-Time Sigma-Delta modulator.IEEE Transactions on Instrumentation and Measurement, 65(6):1300-1309, 2016.

[37]Haijun Lin, Lucai Wang, Zhaosheng Teng, Houdei Dai. Nonlinear error compensation of load cells based on optimal neural network with augmented Lagrange multiplier.IEEE Transactions on Instrumentation and Measurement, 2015, 64(11): 2850-2862.

[38]Haijun Lin, Zhenyu Wang, Zhongyang Li, Songhui Li. Weighing fusion method for truck scale based on an optimal neural network with derivative constraints and a Lagrange multiplier.Measurement, 2015, 63(1): 322-329.

[39]Yuxiang Yang, Lianhuan Wang, Peipei Wang, Xiufang Yang, Fu Zhang, He Wen, Zhaosheng Teng.Design of tri-level excitation signals for broadband bioimpedance spectroscopy.Physiological Measurement, 2015, 36 (9): 1995-2007. (http://iopscience.iop.org/0967-3334/36/9/1995/). Published 10 August 2015，ISSN: 0967-3334

[40]Yuxiang Yang; Fu Zhang, Kun Tao, Benjamin Sanchez, He Wen, Zhaosheng Teng.An improved crest factor minimization algorithm to synthesize multisines with arbitrary spectrum.Physiological Measurement, 2015, 36 (5): 895-910. (http://iopscience.iop.org/0967-3334/36/5/895/).

[41]Yuxiang Yang; Fu Zhang; Kun Tao; Lianhuan Wang; He Wen; Zhaosheng TengMulti-frequency simultaneous measurement of bioimpedance spectroscopy based on a low crest factor multisine excitation.Physiological Measurement, 2015, 36(3): 489-501.（http://iopscience.iop.org/0967-3334/36/3/489/）.

[42]Haijun Lin, Yaping Lin, Zhaosheng Teng, Lucai Wang. Weighing fusion method for truck scale based on prior knowledge and neural network ensembles.IEEE Transactionson Instrumentation and Measurement, 2014, 63(2): 250-259.

[43]Yuxiang Yang, Wenwen Ni, Qiang Sun, He Wen and Zhaosheng Teng,Improved cole parameter extraction based on least absolute deviation method,Physiological Measurement, 2013, 34 (10): 1239–1252. (https://iopscience.iop.org/article/10.1088/0967-3334/34/10/1239).（SCI：WOS:000324871100004，IF=2.346，Q2）．

[44]Yuxiang Yang, Minhang Kang, Yong Lu,Jian Wang, Jing Yue and Zonghai Gao.Design of a wideband excitation source for fast bioimpedance spectroscopy.Measurement Science and Technology, 2011,22(1): 013001.(http://iopscience.iop.org/0957-0233/22/1/013001).

[45]Yuxiang Yang,Jue Wang, Gang Yu, Feilong Niu and Ping He.Design and preliminary evaluation of a portable device for measurement of bioimpedance spectroscopy.Physiological Measurement,2006, 27(12): 1293-1310. (http://www.iop.org/EJ/ abstract/0967-3334/27/12/004/).

[46]He Wen, Junhao Zhang, Zhuo Meng, Siyu Guo, Fuhai Li,Yuxiang Yang.Harmonic Estimation Using Symmetrical Interpolation FFT Based on Triangular Self-Convolution Window.IEEE Transactions on Industrial Informatics, 2015, 11 (1): 16 – 26.

[47]He Wen, Siyu Guo, Zhaosheng Teng, Fuhai Li,Yuxiang Yang.Frequency Estimation of Distorted and Noisy Signals in Power Systems by FFT-Based Approach,IEEE Transactions on Power Systems, 2014, 29(2): 765-774.

[48]He Wen, Huifang Dai, Zhaosheng Teng,Yuxiang Yang, and Fuhai Li.Performance Comparison of Windowed Interpolation FFT and Quasisynchronous Sampling Algorithm for Frequency Estimation.Mathematical Problems in Engineering, 2014, Article ID 745830, 7 pages (http://dx.doi.org/10.1155/2014/745830)

[49]He Wen，Zhuo Meng，Zhaosheng Teng，Siyu Guo，Yuxiang Yang.Comparative Study of Influence of Noise on Power Frequency Estimation of Sine wave Using Interpolation FFT.Fluctuation & Noise Letters, 2014, 13(03): 322-187.

[50]He Wen, Zhaosheng Teng, Yong Wang,Yuxiang Yang.Optimized Trapezoid convolution windows for harmonic analysis,IEEE Transactions on Instrumentation and Measurement, 2013, 62(9): 2609-2612.

[51]杨宇祥,吴波波,倪文文,唐旋.基于近似整周期采样的钢琴调音仪设计.西安理工大学学报, 2014, 30(3): 272-277.

[52]杨宇祥，张甫，乔洋，张雯，温和，唐求．基于Nuttall自卷积窗FFT算法的生物电阻抗谱多频率同步测量方法，电子与信息学报，2014, Vol.36(1)，250-254．（http://jeit.ie.ac.cn/cn/article/doi/10.3724/SP.J.1146.2013.00348）

[53]杨宇祥，乔洋．一种多频率同步信号激励电流源设计，仪器仪表学报，2013,34(4): 908-913．

[54]杨宇祥，吕林涛，乐静，王建，高宗海，康敏航．基于Walsh函数的多频率同步信号合成方法，仪器仪表学报，2011, 32(7): 1540-1545．

[55]杨宇祥，王珏，牛飞龙，汪宏武．一种正弦扫频式恒流源设计．仪器仪表学报，2006, S1：162-164．

[56]杨宇祥，王珏，牛飞龙，汪宏武．基于AD8302的生物阻抗频谱测量仪的研制．仪器仪表学报．

专利和软著

[1]杨宇祥,张甫,唐锋,吴亚岑,胡婷婷.一种用于吞咽障碍康复治疗的环咽肌球囊扩张冰水循环自动控制装置，实用新型专利：202322172491.5，申请日：2023年08月14日.

[2]伍嘉浩,张欣怡,杨宇祥,张甫.一种基于AD5941的锂电池电化学阻抗谱系统设计，实用新型专利：202322139358.X，申请日：2023年08月10日.

[3]杨宇祥，张甫，李建闽，林海军，余绍帅，曹远远。一种基于复阻抗咽造影的吞咽事件检测与智能识别方法及系统，发明专利申请号202210649242.8，申请公布号CN 115040105 A，申请公布日2022. 09. 13。

[4]杨宇祥，林海军，李建闽，李承骏，曹远远。一种基于APSO-VMD算法的ECG信号去噪方法及系统，发明专利申请号202210649228.8，申请公布号CN 115054269 A，申请公布日2022. 09. 16。

[5]杨宇祥，张甫，滕召胜。一种低波峰因数多频率正弦信号的合成方法，发明专利号：ZL201510072876.1，2017年07月28日授权。

[6]杨宇祥，杜芳玲，张雯．注水肉快速检测方法，发明专利号：ZL201310694092.3，2016年8月17日授权。

[7]杨宇祥，路永，高宗海，王建．用于生物特征识别的手掌生物电阻抗频谱测量装置，发明专利号：ZL201010243244.4，2012年2月8日授权。公告号：CN101889866B

[8]杨宇祥．一种多频率同步信号源的合成方法，发明专利号：ZL201010292810.0，2012年7月18日授权。公告号：CN102008302A

[9]杨宇祥，康敏航，高宗海．一种用于生物电阻抗频谱测量的多频率同步激励电流源，发明专利号：ZL201010502185.8，2012年7月18日授权。公告号：CN102048537A

[10]吕林涛、杨宇祥、李鹏、孙飞龙、谭芳．基于免疫克隆的手掌BIS特征提取身份识别方法，国家发明专利：ZL201310277895.9，2017年02月15日授权。

[11]吕林涛，杨宇祥，尚进，周新军．一种基于手掌特征提取身份识别方法，发明专利号：ZL201210215655.1，2015年06月03日授权.

[12]林林海军,汪鲁才,杨进宝,滕召胜,李松辉,等.一种改进的汽车衡称重方法,发明专利,授权号: ZL201610474589.8, 2018.10

[13]林海军,汪鲁才,杨进宝,滕召胜,等.一种适用于汽车衡的称重方法,发明专利，授权号: ZL201310177182.5, 2013.5.

[14]林海军,赖小强,兰浩,等.一种LED路灯控制器,实用新型专利,授权号：ZL201620639997.X.

[15]林海军.NDJ-1智能粘度仪粘度自动测定软件V1.0,中国,软著登字第1423372号, 2016.5.

获奖情况

[1]林海军，湖南省，湖南省“芙蓉学者”（青年芙蓉），2020-2022

[2]林海军，湖南省教育厅，湖南省青年骨干教师培养对象，2013-2015，电子科学与技术

[3]林海军，湖南师范大学，“世承人才计划”学术带头人，2020-2024

[4]杨宇祥，陕西高等学校科学技术奖二等奖：基于手掌电阻抗谱测量和免疫克隆算法的生物特征识别新方法研究与应用，获奖人：杨宇祥，吕林涛，李军怀，吕晖。17E03

[5]杨宇祥，陕西省高等教育教学成果二等奖：“测控技术与仪器专业应用创新型人才培养体系的探索与实践”（排名第三）；SJX152039-1