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{| class="wikitable" align="right" |- | style="background: #FF2400" align= center| '''<big>彭敏放</big>''' |- |<center><img src=https://pic.baike.soso.com/ugc/baikepic2/10843/20220421023255-1996830095_jpeg_130_177_4734.jpg/300 width="300"></center> <small>[https://baike.sogou.com/v83236731.htm?fromTitle=%E5%BD%AD%E6%95%8F%E6%94%BE&ch=frombaikevr 来自 网络 的图片]</small> |- | style="background: #FF2400" align= center| |- | align= light| |} '''彭敏放''',女,1964年生,[[湖南]][[湘乡]]人,[[博士]],[[中共党员]],现为[[湖南大学]]电气工程系[[教授]]、[[博士生导师]]<ref>[https://www.docin.com/p-642128824.html 彭敏放博士生导师简介 ],豆丁网</ref>,湖南省新世纪121人才工程人选。 ==基本信息== 人物说明----湖南大学电气工程系教授、博士生导师 出生地点----湖南湘乡 出生日期----1964年3月 国 籍 ---- 中国 职 业 ---- 教育科研工作者 学位/学历----博士 专业方向----电气工程 任职院校----湖南大学 ==研究领域== ===所在学科=== 电气工程 ===专业领域=== 电路与系统、电力系统自动化、电工理论与新技术 ===研究方向=== 集成电路自动测试与诊断、电力系统故障分析及其设备状态监测、智能信息处理、现代电气工程新技术及其应用。 ==科研成果== 近年来,是主持或主研国家自然科学基金项目、863计划重大项目、国际合作项目、教育部新世纪优秀人才计划项目、湖南省自然科学基金项目、教育部高等学校博士学科点专项科研基金项目等30多个国际、国家、省部级以及横向合作科研项目;作为第一发明人,申请或获得国家发明专利、实用新型专利、软件版权等多项。 作为项目负责人,目前主持的在研项目主要有 ① 国家自然科学基金资助项目,基于多元信息智能融合的模拟电路在线故障诊断研究(60673084); ② 湖南省自然科学基金资助项目,基于多层融合模式的模拟电路智能故障诊断方法研究(06JJ4075); ③ 湖南省科技计划项目,基于小波神经网络方法的配电网馈线故障定位 (05FJ3008); ④ 湖南省电力科研基金项目,便携式多功能接地装置智能检测仪的研制; ⑤ 福建省电力科研基金项目,发变电站接地网智能监测系统的研究; ⑥ 湖南省电力公司益阳电业局科研项目,接地网优化设计与综合评估集成软件平台开发 。 ==学术成果== 发表学术论文80余篇,其中作为第一作者在国内外核心以上学术刊物发表电路测试与诊断、电力系统故障诊断、智能信息处理、电力设备状态监测、电力系统接地技术、工程电磁场数值计算与仿真技术及其应用等方面研究论文40余篇,被国际三大检索系统收录20余篇;出版著作和教材多部。 作为第一作者(或所指导研究生为第一作者),近年发表的部分学术论文: [1] Global similarity tests of physical designs of circuits: A complex network approach, Applied Mathematics and Computation, 230 (2014) :96–103, 2014. [2] Signal transmission model for the substations grounding grid, Expert Systems With Applications, 41(2):616-621, 2014. [3] Application of Analog-Circuit Diagnosis Method to Fault Location in Distribution Networks, International Journal of Modeling and Optimization,3(4): 320-323, 2013. [4] Fault Diagnosis of Analog Circuits Using Systematic Tests Based on Data Fusion. Circuits, Systems and Signal Processing, Circuits, Systems and Signal Processing,32(2): 525-539,2013. [5] Minimization of ambiguity in parametric fault diagnosis of analog circuits: A complex network approach. Applied Mathematics and Computation, vol. 219:408–415,2012. [6] Complex Network Application in Fault Diagnosis of Analog circuit. International Journal of Bifurcation and Chaos,vol.21, no.5, pp.1323-1330, 2011. [7] Complex Network-Based Fault Propagation Modeling for Analog Circuits. Lecture Notes in Electrical Engineering, 2011,vol. 134:161-166 [8] Rough Set Attribute Reduction Based on Genetic Algorithm. Lecture Notes in Electrical Engineering, 2011,vol.136: 171-175. [9] 磁头内置DFH控制元件可靠性的有限元分析. 电子学报,40(10):2140-2144,2012. [10] 模拟电路故障最优特征搜索与识别. 仪器仪表学报, 2012, 33(7):1549-1555. [11] 应用准稳态测量及小波变换的接地网腐蚀检测. 仪器仪表学报, 2011,32(9):2132-2138. [12] 应用模糊最优小波包和LS-SVM的模拟电路诊断.仪器仪表学报,2010, 31(6): 282-1288. [13] 考虑异质信息不相容的模拟电路融合诊断.仪器仪表学报,2009,30(11): 2322-2329. [14] Analog Circuit Diagnosis Using RBF Network and D-S Evidential Reasoning.电工技术学报,2009,24(8): 6-13 [15] 容差电路软故障检测与定位方法研究.电工技术学报,2009,24(3): 222-228 [16] 基于云遗传算法的接地网优化设计. 电力自动化设备,2012,7 [17] 磁头润滑油饱和厚度研究. 湖南大学学报, 2011,38(7):48-52. [18] Fault section location in distribution network with DG based on voltage sag correlation coefficient, Advanced Materials Research, v 787, pp 902-908, 2013. [19] Fault location based on artificial bee colony algorithm for distribution network with distributed generators, Advanced Materials Research, v 787, p 840-845, 2013. [20] Fault diagnosis of grounding grid based on principal component analysis and fuzzy clustering, Advanced Materials Research, v 787, p 881-885, 2013. [21] Fault diagnosis for grounding grids based on genetic algorithm and support vector machine, Advanced Materials Research, v 787, pp 909-913, 2013. [22] Fault locating of grounding grids based on extreme learning machine elman neural network, Advanced Materials Research, v 787,pp 954-958, 2013. [23] Grounding grids fault diagnosis based on PCA-BP neural network,Advanced Materials Research, vol.516: 1774-1778,2012. [24] Dynamic Load Modeling for Power System Based on GD-FNN. 2012 Third International Conference on ICDMA :339 – 342. [25] Application of Electromagnetism-like Mechanism Algorithm to Distribution Network Fault Location. 2nd International Conference on EICE, 2011:2695-2698 [26] Grounding grids fault diagnosis based on PCA-BP neural network. Advanced Materials Research--Electrical Power and Energy Systems, v 516-517, p 1774-1778, 2012. [27] Fault Locating of Grounding Grids based on Ant Colony Optimizing Elman Neural Network. 2012 Third International Conference on ICDMA : 406 – 409 [28] Grounding Grid Transient Simulation and Its Application Based on the ATP-EMTP. 2012 Third International Conference on ICDMA : 454 – 457 [29] Analog Circuit Fault Diagnosis Using Multi-wavelet Transform and SVM. 2012 Third International Conference on ICDMA : 214 – 217. [30] Probabilistic neural network based tolerance-circuit diagnosis. 2012 7th International Conference on ICCSE: 13–16 [31] Analog fault diagnosis using decision fusion. 2012 7th International Conference on ICCSE: 17–20 [32] A practical method for detecting the status of grounding grids. 2010 2nd International Conference on ICIMA :270 - 273 [33] Fault Propagation Characteristics and Reliability Analysis of Large-scale Circuit. Proceedings of International Workshop on Electronic Equipment and Manufacturing Technology.2010:1-4. [34] Optimal Design of Grounding Grids Based on Genetic Algorithm. Proceedings of 3rd International Conference on Genetic and Evolutionary Computing, 2009, 2 :129-132. ==参考来源== [[Category:教授]] [[Category:科学家]]
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