一、高水平论文
2024年
[101]J.Y. Tang, W. Gao*. A novel cascaded H-bridge photovoltaic inverter with flexible arc suppression function[J].Global Energy Interconnection, 2024. (SCI &EI)
[100]L.S. Lin, W. Gao*, G.J. Yang. A DC arc fault location method for PV systems based on redundant antenna array and ellipse algorithm[J].Solar Energy, 2024. (SCI & EI)
[99]罗昆,高伟*,洪翠. 考虑群体决策差异冲突解决机制的配电站房健康状态评估,电力系统保护与控制,2024.已录用(EI)
[98]高伟*,何文秀,郭谋发,白浩. 基于实测不均衡小样本的配电网高阻接地故障检测方法研究,高电压技术,2024.已录用(EI)
[97]黄俊杰,郭谋发*,张彬隆,游建章.计及线路阻抗和参数不对称的配电网接地故障混合消弧方法,中国电机工程学报,已录用(EI)
[96]J.H. Liao, W. Gao*, Y. Yang, G.J. Yang. Control method based on DRFNN sliding mode for multifunctional flexible multistate switch[J].Global Energy Interconnection, 2024. (SCI & EI)
[95]W. Gao, W.X. He, R.J. Wai*, X.F. Zeng and M.F. Guo. High-impedance arc fault modeling for distribution networks based on dynamic geometry dimension [J]. Electric Power Systems Research, 2024, 229:110109.(SCI & EI)
2023年
[94]C. Hong, H. Y. Qiu, J. H. Gao, S. Y. Lin, M. F. Guo*. Semantic segmentation-based intelligent thresholdfree feeder detection method for single-phase ground fault in distribution networks[J].IEEE Transactions on Instrumentation and Measurement, accepted. (SCI&EI)
[93]黄俊杰,郭谋发*,张彬隆.大型发电机定子接地故障柔性融合消弧方法,电网技术,已录用(EI)
[92]W. Gao*, J.M. Rao, F.X. Cui and R.J. Wai. A two-level classification diagnosis method for AC arc faults based on data random fusion and MC-MGCNN network[J]. Measurement, 2024, 224:113878.(SCI & EI)
[91]张彬隆,郑泽胤*,郭谋发.基于零序无功电流柔性调控的配电网覆冰线路不停电在线融冰方法,电网技术,已录用(EI)
[90]J. H. Lin, M. F. Guo*, Z. Y. Zheng. Active Location Method for Single-Line-to-Ground Fault of Flexible Grounding Distribution Networks[J]. IEEE Transactions on Instrumentation and Measurement, accepted. (SCI&EI)
[89]B. L. Zhang, M. F. Guo*, Z. Y. Zheng, Q. Hong**. Fault Current Limitation with Energy Recovery Based on Power Electronics in Hybrid AC-DC Active Distribution Networks[J]. IEEE Transactions on Power Electronics, accepted. (SCI&EI)
[88]W. Gao*, Y.M. Wu, C. Hong, R.J. Wai and C.T. Fan. RCVNet: A Bird Damage Identification Network for Power Towers Based on Fusion of RF Images and Visual Images[J]. Advanced Engineering Informatics, 2023, 57:102104.(SCI & EI)
[87]B. L. Zhang, M. F. Guo*, Z. Y. Zheng, C. H. Guo. A Novel Method for Simultaneous Power Compensation and Ground Fault Elimination in Distribution Networks[J]. CSEE Journal of Power and Energy System, accepted. (SCI & EI)
[86] M. F. Guo*, W. L. Liu, J. H. Gao, D. Y. Chen. A Data-Enhanced High Impedance Fault Detection Method Under Imbalanced Sample Scenarios in Distribution Networks[J]. IEEE Transactions on Industry Applications, accepted. (SCI & EI)
[85] J. H. Gao, M. F. Guo*, S. Lin, D. Y. Chen*. Application of Semantic Segmentation in High-Impedance Fault Diagnosis Combined Signal Envelope and Hilbert Marginal Spectrum for Resonant Distribution Networks[J]. Expert Systems with Applications, accepted. (SCI & EI)
[84] M. F. Guo*, Z. Y. Guo, J. H. Gao, D.C. Chen. High-Impedance Fault Detection Methodology Using Time-Frequency Spectrum and Transfer Convolutional Neural Network in Distribution Networks[J]. IEEE Systems Journal, accepted. (SCI & EI)
[83] J. Z. You, M. F. Guo*, Z. Y. Zheng, and X. B. Liu. Flexible Composite Suppression Method for Ground Arc in Resonant Grounding System [J]. High Voltage, accepted. (SCI & EI)
[82] J. Z. You, M. F. Guo*, and Z. Y. Zheng. The Adaptive Suppression of Ground Faults in Distribution Networks and Its Exit Strategy [J]. CSEE Journal of Power and Energy System, accepted. (SCI & EI)
[81]游建章,郭谋发*,郑泽胤,刘鑫斌. 配电网接地故障自适应融合抑制方法,电网技术,已录用(EI)
[80]郭谋发,游建章*,郑泽胤.配电网单相接地故障柔性消弧技术综述,高电压技术,已录用(EI)
[79]高伟*,饶俊民,全圣鑫,郭谋发. 不均衡小样本下多特征优化选择的生命体触电故障识别方法,电工技术学报,已录用(EI)
[78]金辉,高伟*,林亮世,杨耿杰. 基于网格指纹匹配的光伏阵列电弧故障定位方法,高电压技术,已录用(EI)
2022年
[77]李鑫,高伟*,杨耿杰. 基于动态时间规整的光伏系统直流串联电弧故障特征提取,太阳能学报,2023,44(12):81-88.(EI)
[76]洪翠,邱仕达,高伟*. CEEMDAN与GCN结合的配电变压器故障诊断,电子测量与仪器学报,已录用(一类核心)
[75]W. Gao*, H. Jin, and G.J. Yang. Series arc fault diagnosis method of photovoltaic arrays based on GASF and improved DCGAN[J]. Advanced Engineering Informatics, Nov. 2022.(SCI& EI)
[74]G.J. Yang, S.X. Quan, and W. Gao*. A New-designed Biological Electric Shock Identification Method in Low-voltage Distribution Network[J]. IEEE Transactions on Power Delivery, vol. 38, no. 3, pp. 1558-1568, June 2023.(SCI& EI)
[73]F.X. Cui, Y.Z. Tu, and W. Gao*. A Photovoltaic System Fault Identification Method Based on Improved Deep Residual Shrinkage Networks[J]. Energies, vol. 15, No. 11, Article Sequence Number: 3961, Jun. 2022.(SCI& EI)
[72] X.F. Zeng, W. Gao*, G.J. Yang. High Impedance Fault Detection of Distribution Network Based on S-transform and Average Singular Entropy[J].Global Energy Interconnection.已录用 (SCI & EI)
[71] 简玉婕,郭谋发*,张彬隆. 直流侧免供电的配电网接地故障电流柔性调控方法,中国电机工程学报,已录用(EI)
[70] Y. J. Jian, M. F. Guo*, B. L. Zhang. Active Arc-Suppression Principle Based on Two-Phase T-Type CHB Topology Without DC Power Supply in Distribution Networks[J]. IEEE Transactions on Circuits and Systems II: Express Briefs, 2022, 69(6):2842-2846. (SCI & EI)
[69] Z. J. Li, S. Y. Lin, M. F. Guo*, J. Tang. A Decentralized Fault Section Location Method Using Autoencoder and Feature Fusion in Resonant Grounding Distribution Systems[J]. IEEE Systems Journal.2022, DOI: 10.1109/JSYST.2022.3151630. (SCI & EI)
[68] M. F. Guo*, W. Q. Cai, Z. Y. Zheng, H. Wang. Fault Phase Selection Method Based on Single-Phase Flexible Arc Suppression Device for symmetric Distribution Networks[J]. IEEE Transactions on Power Delivery, 2022, DOI: 10.1109/TPWRD.2022.3150914. (SCI & EI)
[67] H. Wang, M. F. Guo*, Z. Y. Zheng, W. Q. Cai, J. Tang. Suppression Strategy on Neutral Point Overvoltage in Resonant Grounding System Considering Single Line-to-ground Fault[J]. Electric Power Systems Research, 2022, 206:107782. (SCI & EI)
[66]吴洋铭,洪翠,高伟*. 基于雷达点云与视觉图像融合的输电线路探鸟驱鸟技术,高电压技术,已录用(EI)
[65] X.Q. Chen, W. Gao*, C. Hong, and Y.Z. Tu. A novel series arc fault detection method for photovoltaic system based on multi-input neural network[J]. International Journal of Electrical Power & Energy Systems, vol. 140, Article Sequence Number: 108018, Sept. 2022.(SCI & EI)
[64]杨耿杰,韦先灿,高伟*. 基于改进动态线损估计法的超差智能电表识别,电网技术,2022,46 (9): 3662-3671.
2021年
[63]洪翠*,连淑婷. 基于改进经验小波变换和多视角深度矩阵分解的直流配网故障检测,电力自动化设备,已录用(EI)
[62]洪翠*,连淑婷. 经验小波变换在直流配电系统故障检测中的应用,电机与控制学报,已录用(EI)
[61]游建章,郭谋发*.含四桥臂H桥变流器的不对称配电网综合补偿方法,电工技术学报,已录用(EI)
[60]游建章,郭谋发*.集成无功补偿和故障抑制功能的一体化变流器及其控制策略,电网技术,已录用(EI)
[59]张彬隆,郭谋发*,简玉婕. 具备接地故障电流转移功能的配电网柔性多状态开关设计方法研究,中国电机工程学报,已录用(EI)
[58]杨耿杰,王康,高伟*.基于相空间重构和迁移学习的配电网高阻接地故障检测,电力系统保护与控制,已录用(EI)
[57]游建章,郭谋发*,蔡文强.配电网单相接地故障柔性自适应消弧新方法,电力自动化设备,已发表(EI)
[56]蔡智萍,郭谋发*,魏正峰.基于BP神经网络的低压配电网生命体触电识别方法研究,电网技术,已录用(EI)
[55]简玉婕,郭谋发*,游建章.含电力电子变压器的配电网接地故障集成化消弧方法,电力自动化设备,已录用(EI)
[54]陈世群,杨耿杰,高伟*. 一种基于BOA-SAE-EELM的光伏阵列故障诊断方法,太阳能学报,已录用 (EI)
[53]高伟,周宸*,郭谋发. 基于改进YOLOv4及SR-GAN的绝缘子缺陷辨识研究,电机与控制学报,2021,25(11):93-104.(EI)
[52] 高伟*,黄俊铭.基于SSELM的光伏组件故障智能诊断方法,太阳能学报,2021,42(12):465-470.(EI)
[51] W. Gao and R. J. Wai. Series arc fault detection of grid-connected PV system via SVD denoising and IEWT-TWSVM[J]. IEEE Journal of Photovoltaics, vol. 11, no. 6, pp. 1493-1510, November 2021.
[50]S.J.Lu, W.Gao*, C Hong*, Y.Q.Sun. A newly-designed fault diagnostic method for transformers via improved empirical wavelet transform and kernel extreme learning machine [J]. Advanced Engineering Informatics, vol. 49, Article Sequence Number: 101320, Aug. 2021. (SCI&EI)
[49] Z.Y. Zheng, M. F. Guo*,J. Tao, J.H. Liu. HFASD based on SGC strategy and SPID-SOGI-PLL control method for MV distribution systems[J]. IET Generation, Transmission & Distribution, Accept. 2021. (SCI & EI)
[48] J.P. Wu, M. F. Guo*. A multiterminal active resonance circuit breaker for modular multilevle converter based DC grid[J]. IEEE Transactions on Circuits System II:Express briefs, vol. 68, no. 8, pp. 2907-2911, Aug. 2021.(SCI & EI)
[47] Z.Y. Zheng, M. F. Guo*, T. Jin, J.H. Liu. A novel method of insulation parameters measurement based on hybrid flexible arc suppression device in distribution networks[J]. International Journal of Electrical Power & Energy Systems, Accept. 2021. (SCI & EI)
[46]杨耿杰, 许晔, 高伟,洪翠,郭谋发.基于能量谱相似度自适应聚类的配电网接地故障区段定位方法[J]. 电力自动化设备, 2021, 41(3), 25-32. (EI)
[45] Q. M. Xiao, M. F. Guo*, D.C. Chen. High Impedance Fault Detection Method Based on One-Dimensional VPE for Distribution Networks[J]. IEEE Systems Journal, Accept. 2021. (SCI & EI)
[44] B. J. Weng, W. Gao*, W.C. Zheng and G. J. Yang.Newly-designed identifying method for ice thickness on high-voltage transmission lines via machine vision[J]. High Voltage, Article in press, 2021, DOI: 10.1049/hve2.12086. (SCI & EI)
[43] S. Q. Chen, G. J. Yang, W. Gao* and M. F. Guo. Photovoltaic Fault Diagnosis via Semi-Supervised Ladder Network with String Voltage and Current Measures[J]. IEEE Journal of Photovoltaics, vol. 11, no.1, pp. 219-231, Jan. 2021. (SCI & EI)
[42]M. F. Guo*, J. H. Gao, X. Shao, et al. Location of Single-line-to-ground Fault Using 1-D Convolutional Neural Network and Waveform Concatenation in Resonant Grounding Distribution Systems[J]. IEEE Transactions on Instrumentation & Measurem- ent, vol. 70, Article Sequence Number: 3501009, pp. 1-9, January 2021.(SCI & EI)
[41]W. Gao, S. P. Qiao, R. J. Wai*, and M. F. Guo. A newly-designed diagnostic method for mechanical faults of high-voltage circuit breakers via SSAE and IELM[J]. IEEE Transactions on Instrumentation & Measurement, vol. 70, Article Sequence Number: 3500613, pp. 1-13, January 2021.(SCI & EI)
2020年
[40] J. H. Gao, M. F. Guo*, and D. Y. Chen. Fault Line Detection Using Waveform Fusion and One-dimension Convolutional Neural Network in Resonant Grounding Distribution System [J]. CSEE Journal of Power and Energy System, accepted. (SCI & EI)
[39]郭谋发*,蔡文强,郑泽胤,高伟. 计及线路阻抗及负荷影响的配电网柔性电压消弧法[J].,电网技术,已录用. (EI)
[38] J. H. Gao, M. F. Guo*, X. Shao and D. Y. Chen. Feature-clustering-based Single-line-to-ground Fault Section Location Using Auto-encoder and Fuzzy C-means clustering in Resonant Grounding Distribution Systems[J]. IET Generation, Transmission & Distribution, accepted.(SCI & EI)
[37]郭谋发*,郭彩虹,郑泽胤. 基于多变量解耦控制的配电网单相接地故障集成化柔性消弧方法,电力自动化设备,已录用. (EI)
[36]Y. Tian, M.F. Guo*, D.Y. Chen. Machine-learning-based intermittent arc faults detection in resonant grounding distribution systems[J]. CSEE Journal of Power and Energy System, accepted.(SCI & EI)
[35]Hong C*, Zeng Z Y, Fu Y Z, et al. Deep‐Belief‐Networks Based Fault Classification in Power Distribution Networks[J]. IEEJ Transactions on Electrical and Electronic Engineering, 2020, 15(10): 1428-1435.(SCI & EI)
[34]J. M. Huang, R. J. Wai*, and G. J. Yang. Design of hybrid artificial bee colony algorithm and semi-supervised extreme learning machine for PV fault diagnoses by considering dust impact. IEEE Transactions on Power Electronics, vol. 35, no. 7, pp. 7086-7099, July 2020. (SCI & EI)
[33]W. Gao and R. J. Wai*. A novel fault identification method for photovoltaic array via convolutional neural network and residual gated recurrent unit. IEEE Access, vol. 8, pp. 159493-159510, August 2020.(SCI & EI)
[32]W. Gao, R. J. Wai*, and S. Q. Chen. Novel PV fault diagnoses via SAE and improved multi-grained cascade forest with string voltage and currents measures[J]. IEEE Access, 8:133144-133160, July 2020.(SCI & EI)
[31] 高伟*,郭谋发,许立彬. 基于改进CWD-CNN的配电网内部过电压类型识别方法,电机与控制学报,2020,24(8),131-140. (EI)
[30]Z. Y. Zheng, M. F. Guo*, N. C. Yang , et al. Flexible arc-suppression method based on improved distributed commutations modulation for distribution networks[J]. International Journal of Electrical Power & Energy Systems, 2020.(SCI & EI)
2019年
[29]W. Gao, R. J. Wai*, S. P. Qiao, and M. F. Guo. Mechanical faults diagnosis of high-voltage circuit breaker via hybrid features and integrated extreme learning machine. IEEE Access, vol. 7, pp. 60091-60103, May 2019.(SCI & EI)
[28]W. Gao, R. J. Wai*, Y. F. Liao, M. F. Guo, and Y. Yang. Internal overvoltage identification of distribution network via time-frequency atomic decomposition. IEEE Access, vol. 7, pp. 85110-85122, July 2019.(SCI & EI)
[27]Liao G P, Gao W*, Yang G J, et al. Hydroelectric Generating Unit Fault Diagnosis Using 1-D Convolutional Neural Network and Gated Recurrent Unit in Small Hydro[J]. IEEE Sensors Journal, 2019, 19(20): 9352-9363.(SCI & EI)
[26]J. M. Huang, R. J. Wai*, and W. Gao. Newly-designed fault diagnostic method for solar photovoltaic generation system based on IV-curve measurement,” IEEE Access, vol. 7, pp. 70919-70932, June 2019.(SCI & EI)
[25]M. F. Guo, N. C. Yang, and W. F. Chen. Deep-Learning-based Fault Classification using Hilbert-Huang Transform and Convolutional Neural Network in Power Distribution Systems. IEEE Sensors Journal, vol. 19, no. 16, pp. 6905-6913, 2019. DOI: 10.1109/JSEN.2019.2913006. (SCI & EI)
[24]C. Lin, W. Gao*, and M. F. Guo*. Discrete Wavelet Transform Based Triggering Method for Single-Phase Earth Fault in Power Distribution Systems. IEEE Transactions on Power Delivery, vol. 34, no. 5, pp. 2058-2068, 2019, DOI: 10.1109/TPWRD.2019.2913728. (SCI & EI)
[23]W. Q. Qiu, M. F. Guo*, G. J. Yang, and Z. Y. Zheng.Model-Predictive-Control-Based Flexible Arc-Suppression Method for Earth Fault in Distribution Networks. IEEE Access, vol. 7, no. 1, pp.16051-16065, 2019.DOI:10.1109/ACCESS.2019. 2893661. (SCI & EI)
[22] 廖宇飞, 杨耿杰*, 高伟, 等. 基于AD-CNN算法的配电网内部过电压识别技术[J]. 高电压技术, 2019, 45(10):3182-3191.(EI)
[21] 邱伟强,郭谋发*,郑泽胤. 基于单一直流源级联H桥变流器的配电网接地故障柔性消弧方法[J]. 电网技术, 2019, 43 (10): 3848-3858. (EI)
2018年
[20]M. F. Guo, N. C. Yang, and L. X. You, “Wavelet transform based early detection method for short circuit faults in power distribution networks,” International Journal of Electrical Power & Energy Systems, vol. 99, pp. 706-721, 2018. DOI: 10.1016/j.ijepes.2018.01.013. (SCI & EI)
[19]M. F. Guo, X. D. Zeng, D. Y. Chen, and N. C. Yang, “Deep-learning-based earth fault detection using continuous wavelet transform and convolutional neural network in resonant grounding distribution systems,” IEEE Sensors Journal, vol. 18, no. 3, pp.1291-1300, 2018. DOI: 10.1109/JSEN.2017. 2776238. (SCI & EI)
[18] 邵翔, 郭谋发*, 游林旭. 基于改进DTW的接地故障波形互相关度聚类选线方法[J], 电力自动化设备, 2018,38(11):63-71.(EI)
[17]金涛,许立彬*,高伟,等.一种基于LCD-Hilbert变换和奇异谱熵的配电网暂时过电压类型识别方法,电机与控制学报,2018,11, 26-36.(EI)
2017年
[16] 郭谋发, 游建章, 林先辉,等. 适应线路参数及负载变化的配电网柔性优化消弧方法[J]. 电力系统自动化, 2017,41(8):138-145.(EI)
[15] 郭谋发, 游林旭, 洪翠,等. 基于LCD-Hilbert谱奇异值和多级支持向量机的配电网故障识别方法[J]. 高电压技术, 2017,43(4):1239-1247.(EI)
[14] 郭谋发, 游林旭, 魏晓莹, 等.一种基于电压反馈控制的配电网短路故障柔性限流新方法[J]. 电工技术学报, 2017,32(11):48-56.(EI)
[13]黄建业,高源,高伟*,等.配电线路抗饱和等效模型及实物化方法. 电力自动化设备,2017,5,148-154.(EI)
2016年
[12] 洪翠, 杨华锋, 卢国仪, et al. 基于振动信号SVM分类的配变故障识别方法[J]. 仪器仪表学报, 2016, 37(6):1299-1308.(EI)
[11] 郭谋发, 张伟骏,高伟,杨耿杰,缪希仁. 基于级联H桥变流器和dq变换的配电网故障柔性消弧新方法[J]. 电工技术学报, 2016, 31(24):240-251.(EI)
[10] 郭谋发, 游建章, 张伟骏, 等.基于三相级联H桥变流器的配电网接地故障分相柔性消弧方法研究[J]. 电工技术学报, 2016,31(17):11-22.(EI)
2015年
[9] 郭谋发, 陈静洁, 张伟骏, 等. 基于单相级联 H 桥变流器的配电网故障消弧与选线新方法[J]. 电网技术, 2015, 39 (9): 2677-2684.(EI)
[8] 郭谋发, 严敏, 陈彬, 等.基于波形时域特征聚类法的谐振接地系统故障选线[J]. 电力自动化设备, 2015, 35(11): 59-66.(EI)
2014年
[7] 郭谋发,徐丽兰, 缪希仁,等. 采用时频矩阵奇异值分解的配电开关振动信号特征量提取方法[J].中国电机工程学报, 2014, 34(28):4990-4997. (EI)
[6] 郭谋发,郑新桃,杨耿杰,高伟,缪希仁. 利用暂态波形伸缩变换的谐振接地系统故障选线方法[J].电力自动化设备, 2014,34(9):33-40. (EI)
[5] 郭谋发,高源,杨耿杰. 谐振接地系统暂态波形差异性识别法接地选线[J].电力自动化设备,2014,34(5):35-42. (EI)
2013年以前
[4] 郭谋发,杨耿杰,黄世远. 谐振接地系统暂态特征自适应故障选线方法[J].电力自动化设备,2012,32(10):35-41. (EI)
[3] 郭谋发,黄建业,杨耿杰. 谐振接地系统故障区段模糊信息融合定位方法[J].电力系统保护与控制,2012,40(10):65-70. (EI)
[2] 郭谋发,杨振中,杨耿杰,等.基于ZigBee Pro技术的配电线路无线网络化监控系统[J].电力自动化设备, 2010,30(9):105-110. (EI)
[1] 郭谋发,杨耿杰.基于OPC的改进PID励磁调节器[J].电力自动化设备, 2009,29(11): 120-123,143.(EI)
二、授权发明专利
27. 高伟,翁秉均,陈珊珊,杨耿杰,郭谋发. 基于时频谱图及卷积神经网络的水轮机组故障诊断方法.专利号:ZL201910289197.8,申请日:2019.10.28,授权日:2022-04-08.
26. 高伟,乔苏朋,郭谋发,洪翠,翁秉均. 一种高压断路器机械故障诊断方法.专利号:ZL201910343234.9,申请日:2019.10.3,授权日:2022-04-06.
25. 郭谋发;游建章;蔡文强;高伟. 配电网单相接地故障柔性自适应消弧方法.专利号:ZL202011106164.4,申请日:2020.10.15,授权日:2021-11-30.
24. 郭谋发; 吴洁萍; 洪翠; 高伟. 一种多端有源谐振式直流断路器及其控制方法. 专利号:ZL20201136093.X, 2021-09-28, 申请日:2020-11-27, 授权日:2021-09-28.
23. 高伟,黄俊铭,郭谋发,杨耿杰.基于半监督极限学习机的光伏阵列故障诊断方法.专利号:202010064582.5. 申请日:2020-01-20,授权日:2021-11-26.
22. 郭彩虹,郭谋发,李紫荆,高伟.一种单项接地故障启动方法.专利号:201910404624.2. 申请日:2019-05-16,授权日:2021-03-02.
21. 杨耿杰,廖宇飞,高伟,郭谋发.一种新型的配电网内部过电压识别方法.专利号:201810838379.1. 申请日:2018-07-26,授权日:2021-03-02.
20. 洪翠,郭谋发,白蔚楠.一种基于电容保护的中压直流配网故障限流方案.专利号:201910123372.6. 申请日:2019-02-18,授权日:2020-05-08.
19. 郭谋发,林奥林,郑泽胤,高伟,洪翠,杨耿杰.一种基于多核协同工作的分布式脉宽调制方法.专利号:201810075244.4. 申请日:2018-01-24,授权日:2019-12-31.
18. 郭谋发,陈志欣,高伟,洪翠,杨耿杰.一种新型的配电网有源柔性消弧切换方法. 专利号:201811234664.9. 申请日:2018-10-23,授权日:2019-12-31.
17. 洪翠,杨华锋,郭谋发,杨耿杰,郑峰,高伟.一种分相分压式级联H桥柔性限流装置及其控制方法. 专利号:201810424040.7. 申请日:2018-05-07,授权日:2019-11-12.
16. 郭谋发,曾晓丹,高伟,洪翠,杨耿杰.基于卷积神经网络的配电网单相接地故障选线方法. 专利号:201810088104.0. 申请日:2018-01-30,授权日:2020-01-14.
15. 杨耿杰,林成,高伟,洪翠,郭谋发.一种基于聚类的配电网单相接地故障区段定位方法.专利号:201811084865.5. 申请日:2018-09-18,授权日:2020-11-03.
14. 高伟;杨耿杰;郭谋发;洪翠;陈世群. 一种基于原子分解算法的配电网内部过电压的识别方法.专利号:201910459741.9. 申请日:2019-05-29,授权日:2020-05-08.(专利成果转让)
13. 郭谋发;邱伟强;高伟;洪翠;杨耿杰. 一种级联H桥型配电网消弧装置控制方法.专利号:201810762451.7. 申请日:2018-07-12,授权日:2019-09-13.(专利成果转让)
12. 杨耿杰,乔苏朋,郭谋发,高伟,翁秉钧. 基于CEEMDAN及加权时频熵的配电开关机械故障特征提取方法. 专利号:201810424040.7. 申请日:2017-02-02,授权日:2020-12-04.
11. 高伟,许立彬,郭谋发,陈伟凡. 基于分块时频谱和深度学习算法的配电网内部过电压识别方法.专利号:201710019227.4.申请日:2017-01-11,授权日:2019-07-09
10. 高伟 郭谋发. 一种谐振过电压监测系统及方法.专利号:201410693325.2. 申请日:2014-11-27,授权日:2017-07-07
9. 高伟,许立彬,郭谋发,洪翠. 一种配电网暂时过电压分类识别方法及装置.专利号:201611159505.8. 申请日:2016-12-15,授权日:2019-08-09.
8. 郭谋发;游建章;林先辉;高伟;洪翠;杨耿杰;缪希仁.一种基于三相级联H桥变流器的配电网接地故障消弧方法.专利号:ZL201610171385.7,申请日:2016.3.24,授权日:2018-03-16.(专利成果转让)
7. 高伟;许立彬;郭谋发;洪翠.一种低压电网单相线路相序识别分类方法及装置.专利号:ZL201611159489.2,申请日:2016.12.15,授权日:2019-05-10.
6. 郭谋发;严敏;杨耿杰;高伟;缪希仁. 利用波形时域特征聚类的谐振接地系统故障选线方法.专利号:ZL201410197421.8,申请日:2014-05-12,授权日:2016-09-07.
5. 郭谋发;许晔;杨耿杰;高伟;缪希仁.采用不变矩的谐振接地系统故障选线方法.专利号:ZL201410056205.1,申请日:2014-02-19,授权日:2016-09-07.
4. 郭谋发;郑新桃;杨耿杰;高伟;缪希仁. 利用模糊K均值聚类的谐振接地系统故障选线方法.专利号:20141097442.X,申请日:2014-05-12,授权日:2017-01-18.
3. 郭谋发,陈静洁,张伟骏,高伟,洪翠,杨耿杰,缪希仁. 一种中性点经多电平变流器接地的配电网故障消弧方法.专利号:ZL201410500176.3.申请日:2014-09-26,授权日:2018-01-16.(专利成果转让)
2. 郭谋发,徐丽兰,高伟,杨耿杰. 谐振接地系统单相接地聚类法选线.专利号:ZL201310431692.0,申请日:2013-09-22,授权日:2016-02-24.
1. 郭谋发;王鹏;徐丽兰;高伟;杨耿杰.谐振接地系统单相接地故障分类选线方法.专利号:ZL201310273744.6,申请日:2013-07-02,授权日:2015-07-22.
三、出版教材及专著
[4] 郭谋发 专著. 配电网单相接地故障人工智能选线.北京:中国水利水电出版社,2020.
[3] 郭谋发,高伟,陈彬 编写. 配电网自动化技术. 北京:机械工业出版社, 2018(第2版).
[2] 杨耿杰,郭谋发 编著. 电力系统分析. 北京:中国电力出版社,2013(第2版).
[1] 杨耿杰 著. 电力系统不对称计算. 北京:中国电力出版社,2008.