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黃松嶺

bevictor伟德官网電機系 教授,電磁檢測與設備性能安全評估研究中心主任

研究方向

無損檢測與評估、電磁測量、智能傳感器、信号處理

北京市海澱區bevictor伟德官网西主樓1區315室

huangsling@tsinghua.edu.cn

010-62772131

  • 個人介紹
  • 教學情況
  • 科研項目
  • 論著專利
  • 學術兼職

1991年東南大學自控系本科畢業;2001年bevictor伟德官网博士畢業,留校任教。2005年bevictor伟德官网電機系副教授,2010年bevictor伟德官网電機系教授、博導。主要從事無損檢測、電磁測量、智能傳感器、信号處理等領域的教學和研究工作,長期在跨學科層次上從事關鍵基礎科學問題的研究。理論研究與實際應用并重,所研發的油氣管道缺陷在線内檢測器應用在中石油、中石化和中海油,以及國外衆多檢測工程中,累計檢測油氣管道10多萬公裡,國内檢測工程市場占有率達到50%以上,并使國産油氣管道檢測設備首次走出國門。開發的接地極腐蝕非開挖檢測技術、地下設施探測技術、電力電子器件疲勞損傷檢測技術、電纜絕緣損傷檢測技術和混凝土活動裂紋監測技術在國網、南網和三峽公司示範應用。打破國外技術壟斷,首次實現了海底油氣管道缺陷在線内檢測。主持1項國家重大科學儀器設備開發專項項目和5項國家自然科學基金,主持863重大項目、鐵道部重點項目、國家科技支撐計劃課題和國際合作項目多項。獲得省部級和行業科技獎勵10餘次。以第一作者出版專著10本、教材2本。發表論文400多篇,被SCI檢索100餘篇,EI收錄90多篇。獲發明專利100餘項。

個人簡曆

  • 2015.3- 2015.11 英國杜倫大學計算機科學與工程學院, 訪問教授

  • 2010.12~  bevictor伟德官网電機系,教授

  • 2005.12~2010.11 bevictor伟德官网電機系,副教授

  • 2003.9~2005.11  bevictor伟德官网電機系,助研

  • 2001.8~2003.8  bevictor伟德官网機械系,助研

個人榮譽與獲獎

1、科研成果獲獎

  • 2020年湖北省技術發明一等獎

  • 2019年北京市科技進步一等獎

  • 2018年日内瓦國際發展展金獎

  • 2017年湖北省技術發明一等獎

  • 2016年中國發明協會“中國當代發明家”

  • 2014年北京市技術發明一等獎

  • 2014年中國知識産權局中國專利優秀獎

  • 2013年教育部技術發明二等獎

  • 2013年中國産學研合作創新成果獎

  • 2012年中國機械工業聯合會中國機械工業科學技術二等獎

  • 2010年國家電網公司科學技術進步二等獎

  • 2009年教育部科技進步二等獎

  • 2009年中國石油和化工自動化行業科技進步一等獎

2、教學成果獲獎

2022 年國家教學成果二等獎

2017 年北京市教學成果二等獎

2014 年度bevictor伟德官网教學成果一等獎

1、本科生課程:

電路原理,2007年起,每逢秋季學期開課,每次64課時,全校本科生

虛拟儀器基礎,2004-2008五屆,每逢秋季學期開課,每次32課時,全校本科生

實驗室科研探究課:虛拟儀器技術,2007-2009三屆,每逢秋季學期開課,每次32課時,全校本科生

2、研究生課程:

LabVIEW編程技術與虛拟儀器設計,2004-2008五屆,每逢春季學期開課,每次32課時,全校研究生

磁性物理與電磁檢測,2006年起,每逢秋季學期開課,每次16課時,全校研究生

 


1、縱向項目

  • 2022.4~2024.3,工信部“面向重點領域的工業互聯網數據支撐及應用賦能公共服務平台”

  • 2022.10~2026.3,科技部/國家重點研發計劃項目“高溫蠕變無損檢測與損傷狀态評價技術研究及應用”

  • 2024.1~2027.12,基金委/國家自然科學基金項目“锆基包殼微米級異質膜層結構疊陣渦流檢測及電磁量化表征方法研究”

  • 2021.1~2024.12,基金委/國家自然科學基金項目“疲勞微裂紋高階模态導波檢測方法研究”

  • 2020.6~2022.12,工信部“基于工業互聯網平台的通用非線性動力分析系統建設及推廣應用”

  • 2020.6~2022.12,工信部“面向“新工科”的工業互聯網平台工程實訓基地建設與實踐教學模式推廣”

  • 2019.6~2021.12,工信部“基于工業互聯網的建模仿真引擎”

  • 2018.10~2021.9,科技部/國家重點研發計劃項目“鋼材多通道非接觸超聲在線自動探傷儀的開發和應用”

  • 2018.9~2020.12,科技部/國家重點研發計劃項目“典型承壓類特種設備損傷磁聲複合式監檢測技術研究”

  • 2018.9~2020.12,科技部/國家重點研發計劃項目“新型檢測監測傳感器與智能數據采集終端”

  • 2018.6~2020.12,工信部“面向虛拟仿真設計場景的工業互聯網平台測試床建設”

  • 2017.1~2020.12,基金委/國家自然科學基金項目“油氣管道螺旋導波缺陷三維成像檢測方法研究”

  • 2013.10~2018.10,科技部/國家重大科學儀器設備開發專項“鐵磁性材料缺陷三維漏磁成像檢測儀開發”

  • 2011.01~2015.12,科技部/國家高技術研究發展計劃(863計劃)重大項目“海底管線缺陷内檢測技術與裝備工程化研究”

  • 2013.01~2016.12,基金委/國家自然科學基金項目“高速鐵路路基活動缺陷檢測與監測方法研究”

  • 2012.01~2014.12,教育部/高等學校博士學科點專項科研基金“基于電磁超聲導波的高速鐵路鐵軌缺陷檢測方法研究”

  • 2011.11~2014.12,教育部/ 985”bevictor伟德官网自主科研項目 “海底油氣管道缺陷檢測方法及關鍵技術研究”

  • 2010.01~2012.12,基金委/國家自然科學基金項目“油氣管道缺陷電磁超聲導波聚焦檢測方法研究”

  • 2009.01~2010.12,科技部/電力系統及發電設備控制與仿真國家重點實驗室自主項目 “電站壓力管道缺陷電磁超聲導波檢測方法研究”

  • 2008.01~2010.12,科技部/國家科技支撐計劃課題“油氣管道裂紋檢測關鍵技術研究與設備研制”

  • 2007.12~2009.11,科技部/國家高技術研究發展計劃(863計劃)專項項目“油氣長輸管道裂紋檢測關鍵技術研究”

  • 2007.01~2008.12,航天科技集團/航天支撐技術基金項目 “***誤差補償技術研究”(***

  • 2004.01~2006.12,基金委/國家自然科學基金項目“活動缺陷檢測監測方法及其物理機制研究”

  • 2001.07~2003.8,基金委/國家自然科學基金項目“金屬磁記憶應力集中檢測機理研究”

  • 1998.11~2000.12,科技部/國家“九五”攻關課題“钴-60數字輻射照相集裝箱檢測系統”

  • 1995.09~1998.06,勞動部/科技攻關課題“在役壓力管道缺陷漏磁檢測系統”

    2、國際合作與交流項目

  • 2020.3-2022.3, Smart and robust electrical metering in urban energy systems, the Transforming Systems through Partnership from the Royal Academy of Engineering, UK

  • 2016.3-2018.3,英國皇家學會-中國自然基金委國際合作項目“study of defect tomography imaging technology based on electromagnetic ultrasonic guided waves

  • 2015.3-2015.10,英國皇家學會牛頓合作研究項目獎(The Royal Academy of Engineering -Newton Research Collaboration Programme Award)“Real time laser condition monitoring system for wind turbine shaft”(風機軸實時激光監控系統),杜倫大學(Durham University

  • 2014.6-2016.6,國際合作項目 “273口徑油氣管道缺陷内檢測器”

  • 2007.07-2008.03,國際合作項目“電機轉子溫度分布測量”

    3、橫向項目

  • 2024.9-2025.12,南網,“電纜絕緣損傷檢測”

  • 2024.6-2025.12,國網,“換流閥電力電子器件疲勞損傷監測”

  • 2022.12-2024.12,三峽,“混凝土大壩活動裂紋缺陷電磁監測技術研究及應用”

  • 2022.9-2024.12,中油,“管道自爬行機器人”

  • 2021.11-2022.12,國網,“邊雲協同的智能樓宇節能技術研究”

  • 2020.8-2021.12,國網,“地上鋼結構件腐蝕缺陷檢測技術研究”

  • 2020.7-2020.12,國網,“接地極腐蝕磁聲導波檢測技術研究”

  • 2021.11-2022.12,國網,“地下管線探測技術研究”

  • 2021. 1-2022.12,國網,“智能選線選站技術研究”

  • 2019.3-2023.12,橫向,“油氣管道内檢測關鍵技術研究及樣機研制”

  • 2018.11-2023.11,橫向,“海底油氣管道缺陷高精度内檢測裝置”

  • 2015.7-2016.8,橫向,“813口徑天然氣管道漏磁檢測器”

  • 2014.6-2016.6,橫向,“273口徑油氣道缺陷内檢測器”

  • 2013.11-2014.12,航天科技集團,“内外壁缺陷區分傳感器技術開發”

  • 2013.10-2013.12,中石化集團公司,“195磁極浮動式海底管道漏磁檢測器研制”

  • 2009.12-2011.12,中石化集團公司,“油氣管道缺陷漏磁檢測器關鍵技術研究及樣機研制”

  • 2010.11-2012.12,中石化集團公司,“基于超聲導波技術的管線檢測與評價技術研究”

  • 2010.07-2012.12,中石油集團公司,“油氣管道電磁超聲裂紋檢測技術實驗研究”

  • 2009.12-2011.05,中石油集團公司,“裂紋信号調理設備、高速數據采集設備和便攜式裂紋檢測儀研制”

  • 2010.03-2011.03,中石油集團公司,“三維漏磁探頭及通訊模塊研制”

  • 2009.12-2010.05,中石油集團公司,“高清晰度油氣管道檢測器電子包系列化研制”

  • 2007.7-2009.05,中石油集團公司,“油氣管道檢測器電子包”

  • 2006.1-2006.12,中石油集團公司,“儲罐底闆缺陷檢測器”

  • 2006.5-2006.12,中石油集團公司,“管道裂紋檢測技術研究”

  • 2005.7-2005.9,中石油集團公司,“外磁場測量系統”

  • 2004.6-2005.8,中石油集團公司,“高清晰度檢測器瀉流裝置”

  • 2003.12-2005.10,中石油集團公司,“管道檢測數據分析專家系統軟件”


 



作為第一作者出版專著10部,發表論文300 餘篇,其中SCI收錄80餘篇,EI收錄90餘篇。

 

1、專著和教材

  1. 黃松嶺,吳靜. 虛拟儀器設計基礎教程,bevictor伟德官网出版社,2008.9

  2. 趙偉,黃松嶺,胡毅飛,邵海明,王雪,中國電氣工程大典第一卷第四篇,中國電力出版社,2009.1

  3. 黃松嶺. 油氣管道缺陷漏磁内檢測理論與應用,機械工業出版社,2013.9

  4. 黃松嶺,王珅,趙偉. 電磁超聲導波理論與應用,bevictor伟德官网出版社,2013.10

  5. 黃松嶺. 電磁無損檢測新技術,bevictor伟德官网出版社,2014.1

  6. 黃松嶺,趙偉著,《漏磁成像理論與方法》,bevictor伟德官网出版社,20168

  7. 黃松嶺,孫燕華,康宜華著,《現代漏磁無損檢測》,機械工業出版社,20173

  8. 黃松嶺,張宇,魏争,王珅著,《電磁超聲導波成像理論與方法》,bevictor伟德官网出版社,20188

  9. 黃松嶺,王珅,趙偉編著,教育部高等學校電子信息類專業教學指導委員會規劃教材《虛拟儀器設計教程》,bevictor伟德官网出版社,20157

  10. Songling Huang, Shen Wang, Weibin Li and Qing Wang. Electromagnetic Ultrasonic Guided Waves, Springer, 2016,4.

  11. Songling Huang, Shen Wang. New technologies in electromagnetic non-destructive testing, Springer, 2016,4.

  12. Songling Huang, Wei Zhao. Magnetic Flux Leakage - Theories and Imaging Technologies. De Gruyter, 2016.

  13. Songling Huang, Yu ZhangZheng WeiShen WangHongyu Sun. Theory and Methodology of Electromagnetic Ultrasonic Guided Wave Imaging, Springer, 2019.

2、國際期刊論文選(2010以來)

  1. Huang, Songling; Wang, Zhe; Wang, Shen; Wang, Qing; Zhao, Wei. Characteristic analysis of electromagnetic acoustic transducers for helical shear horizontal wave based on magnetostrictive effectREVIEW OF SCIENTIFIC INSTRUMENTS, 2021,卷92,期2

  2. Long, Yue; Huang, Songling; Peng, Lisha; Wang, Shen; Zhao, Wei. A Novel Compensation Method of Probe Gesture for Magnetic Flux Leakage Testing. IEEE SENSORS JOURNAL, 2021,卷21,期9,頁碼10854-10863

  3. Long, Yue; Huang, Songling; Peng, Lisha; Wang, Shen; Zhao, Wei. A Characteristic Approximation Approach to Defect Opening Profile Recognition in Magnetic Flux Leakage Detection. IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, 2021,卷70

  4. Chen, Lei; Zhao, Wei; Xie, Xiaorong; Zhao, Dongfang; Huang, Songling. Harmonic Phasor Estimation Based on Frequency-Domain Sampling Theorem. IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT,. 2021,卷70

  5. Yu, Yiqing; Zhao, Wei; Chen, Lei; Wang, Qing; Huang, Songling. Power measurement accuracy analysis in the presence of interharmonics. MEASUREMENT, v154, 2020

  6. Sun, Hongyu; Peng, Lisha; Huang, Songling; Wang, Qing; Wang, Shen; Zhao, Wei. Analytical model and optimal focal position selection for oblique point-focusing shear horizontal guided wave EMAT. CONSTRUCTION AND BUILDING MATERIALS,v258,2020

  7. Sun, Hongyu; Wang, Shen; Huang, Songling; Peng, Lisha; Zhao, Wei; Wang, Qing. Design and characterization of an acoustic composite lens with high-intensity and directionally controllable focusing. Scientific Reports,v10, p2045-2322,2020

  8. Chen, Lei; Zhao, Wei; Wang, Fuping; Huang, Songling. Harmonic Phasor Estimator for P-Class Phasor Measurement Units. IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT,v69,p1556-1565,2020

  9. Wang, Zhe; Huang, Songling; Wang, Shen; Zhuang, Shuangyong; Wang, Qing; Zhao, Wei. Compressed Sensing Method for Health Monitoring of Pipelines Based on Guided Wave Inspection. IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT,v69, p4722-4731,2020

  10. Shen Wang, Songling Huang, Qing Wang, Zhe Wang, Wei Zhao. Characterizing excitability of Lamb waves generated by electromagnetic acoustic transducers with coupled frequency domain models. ULTRASONICS, v93 p71-80,2019

  11. Qing Wang, Roger Holden, Songling Huang, Wei Zhao. Optimal Number of Control Points for Fitting B-Splines in Wind Turbine Blade Measurement. INTERNATIONAL JOURNAL OF PRECISION ENGINEERING AND MANUFACTURING, v20n9 p1507-1517,2019

  12. Dominic Auger, Qing Wang, Jon Trevelyan, Songling Huang, Wei Zhao. Investigating the quality inspection process of offshore wind turbine blades using B-spline surfaces. MEASUREMENT, v115 p162-172,2018

  13. Shen Wang, Songling Huang, Zhe Wang, Wei Zhao. A Kriging surrogate model of an electromagnetic acoustic transducer (EMAT) generating omnidirectional Lamb waves. INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, v57n1 p1-18,2018

  14. Yu Zhang, Songling Huang, Wei Zhao, Shen Wang, Qing Wang. Electromagnetic Ultrasonic Guided Wave Long-Term Monitoring and Data Difference Adaptive Extraction Method for Buried Oil-Gas Pipelines. INTERNATIONAL JOURNAL OF APPLIED ELECTROMAGNETICS AND MECHANICS, v54n3 p329-339,2017

  15. Shen Wang, Songling Huang, Yu Zhang, Wei Zhao. Multiphysics Modeling of a Lorentz Force-Based Meander Coil Electromagnetic Acoustic Transducer via Steady-State and Transient Analyses. IEEE SENSORS JOURNAL, v16n17 p6641-6651,2016

  16. Shen Wang, Songling Huang, Yu Zhang, Wei Zhao. Modeling of an omni-directional electromagnetic acoustic transducer driven by the Lorentz force mechanism. SMART MATERIALS AND STRUCTURES, v25n12 p 25029-25029,2016

  17. Li, Shisong, Zhao, Wei, Huang, Songling. A discussion of Bl conservation on a two dimensional magnetic field plane in watt balances. MEASUREMENT SCIENCE AND TECHNOLOGY,   v27n5 p 051001,2016

  18. Simm, A , Wang, Q ,  Huang, SL , Zhao, W. Laser based measurement for the monitoring of shaft misalignment. Measurement, v87n6 p104-116,2016

  19. Songling Huang, Yu Zhang, Shen Wang and Wei Zhao. Multi-Mode Electromagnetic Ultrasonic Lamb Wave Tomography Imaging for Variable-Depth Defects in Metal Plates. SENSORS, v16n5 p628, 2016

  20. Yu Zhang, Songling Huang, Shen Wang and Wei Zhao. Time-frequency energy density precipitation method for time-of-flight extraction of narrowband Lamb wave detection signals. Review of Scientific Instruments, v87n5,2016

  21. Yu Zhang, Shen Wang, Songling Huang, Wei Zhao. Mode Recognition of Lamb Wave Detecting Signals in Metal Plate Using the Hilbert-Huang Transform Method. Journal of Sensor Technology, v5n2 p7-14, March, 2015

  22. Shen Wang, Songling Huang, Wei Zhao, Zheng Wei. 3D modeling of circumferential SH guided waves in pipeline for axial cracking detection in ILI tools. Ultrasonics, v56n2 p325-331, March, 2015

  23. Junjie Chen, Songling Huang, and Wei Zhao. Equivalent MFL Model of Pipelines for 3-D Defect Reconstruction Using Simulated Annealing Inversion Procedure. International Journal of Applied Electromagnetics and Mechanics, v47n15 p551-561, 2015

  24. Songling Huang, Zheng Wei, Wei Zhao, et al. A New Omni-Directional EMAT for Ultrasonic Lamb Wave Tomography Imaging of Metallic Plate Defects. Sensors, v 14 n2 p 3458-3476, February, 2014

  25. Songling Huang, Zheng Wei, Wei Zhao, et al. A Large Ratio Data Compression Method for Pipeline inspection based on EMAT-generated Guided Wave. International Journal of Applied Electromagnetics and Mechanics,v 45n14 p511-517 , 2014

  26. Junjie Chen, Songling Huang, Wei Zhao and Shen Wang. Reconstruction of 3-D defect profiles from MFL signals using radial wavelet basis function neural network. International Journal of Applied Electromagnetics and Mechanics, v45n14 p465-471, 2014

  27. Junjie Chen, Songling Huang, and Wei Zhao. Three-dimensional Defect Reconstruction from Magnetic Flux Leakage Signals in Pipeline Inspection based on a Dynamic Taboo Search Procedure. Insight-Non-Destructive Testing and Condition Monitoring, v56n10 p535-540, 2014

  28. Junjie Chen, Songling Huang, and Wei Zhao. Three-dimensional defect inversion from magnetic flux leakage signals using iterative neural network. IET Science, Measurement and Technology. DOI: 10.1049/iet-smt.2014.0173.

  29. Songling Huang, Furong Zhu, Hongxiu Zhu, Wei Zhao and Shen Wang. The development of rock failure electromagnetic emission monitoring system. Applied Mechanics and Materials, v330 p401-406,2013

  30. Kuansheng Hao, Songling Huang, Wei Zhao, Shen Wang, Jiarui Dong. Analytical modeling and calculation of pulsed eddy current and input impedance for EMATs with planar spiral coils. NDT & E International, v44n3 p274-280, 2011

  31. Shen Wang, Songling Huang, Wei Zhao. Simulation of Lamb waves interactions with transverse internal defects in an elastic plate. Ultrasonics, v51n4 p432-440, 2011

  32. Shao Mingsong, Huang Songling, Zhao Wei, Dong Jiarui and Wang Changquan. Design of Easier Controllable High Efficiency Electrodeless Ballast. Applied Mechanics and Materials, v48 p382-386, 2011

  33. Xu Peng, Huang Songling and Zhao Wei. A new differential eddy current testing sensor used for detecting crack extension direction. NDT and E International, v44n4 p339-343, 2011

  34. Huang Songling, Tong Yun, Zhao Wei. A denoising algorithm for an electromagnetic acoustic transducer (EMAT) signal by envelope regulation. Measurement Science & Technology, v21n8,  2010

  35. Shen Wang, Songling Huang, Wei Zhao, Xue Wang. Approach to Lamb wave lateral crack quantification in elastic plate based on reflection and transmission coefficients surfaces. Research in Nondestructive Evaluation, v21n4 p 213-223, 2010

     

3、國際會議論文選(2010以來)

  1. Long, Yue; Huang, Songling; Peng, Lisha; Wang, Wenzhi; Wang, Shen; Zhao, Wei. Internal and External Defects Discrimination of Pipelines Using Composite Magnetic Flux Leakage Detection.  Conference Record - IEEE Instrumentation and Measurement Technology Conference1091-5281,出版年2021,卷2021-May

  2. Pan, Chunyu; Wu, Jing; Zhang, Jingwen; Huang, Songling; Long, Yue. Research on the characteristics of graphene-metal contact. I2MTC 2020 - International Instrumentation and Measurement Technology Conference

  3. Songling Huang, Yu Zhang, Shen Wang, et al.  A method for identifying inclined defects by using magnetic flux leakage spectral envelope detection. Conference Record - IEEE Instrumentation and Measurement Technology Conference. 2019, Auckland, New Zealand:1

  4. Zhe Wang, Songling Huang, Shen Wang, et al. Development of a new EMAT for multi-helical SH guided waves based on magnetostrictive effect. IEEE Instrumentation and Measurement Technology Conference. 2018, Houston, Texas, USA

  5. Songling Huang, Yu Zhang, Shen Wang, et al.  A method for identifying inclined defects by using magnetic flux leakage spectral envelope detection. Conference Record - IEEE Instrumentation and Measurement Technology Conference. 2019, Munich, German:1

  6. Songling Huang, Yu Zhang, Shen Wang, et al.  Multi-Mode Electromagnetic Ultrasonic Lamb Wave Tomography Imaging for Variable-Depth Defects in Metal Plates. 19th World Conference on Non-Destructive Testing (WCNDT 2016). 2016, Munich, German:1

  7. Lisha Peng, Songling Huang, Wei Zhao, et al. The Real-Time Quantitation and Display Method for Incomplete Defect MFL Signals. 19th World Conference on Non-Destructive Testing (WCNDT 2016). 2016: Munich, German:1

  8. Shen Wang, Songling Huang, Alexander Velichko, Paul Wilcox, Wei Zhao. Modeling and structural optimization of a Lorentz force-based omnidirectional electromagnetic acoustic transducer. 55th Annual British Conference of Non-Destructive Testing. Sep. 12-14, 2016, Nottingham, UK

  9. Junjie Chen, Songling Huang, and Wei Zhao. Three-axial MFL inspection in pipelines for defect imaging using a dynamic inversion procedure. the 10th European Conference on Magnetic Sensors and Actuators. July 6-9, 2014, Vienna, Austria: 242.

  10. Zhen Wei, Songling Huang, Shen Wang and Wei Zhao. Magnetostriction-Based Omni-Directional Guided Wave Transducer for Tomography of Steel Plate Defects. the 10th European Conference on Magnetic Sensors and Actuators. July 6-9, 2014, Vienna, Austria: 268.

  11. Xinmeng Liu, Songling Huang, Wei Zhao and Shen Wang. Slowly Varying Defects Reconstruction from MFL Signals Using BP Neural Network Based on Bayesian Algorithm. the 10th European Conference on Magnetic Sensors and Actuators. July 6-9, 2014, Vienna, Austria:242

  12. Mingsong Shao, Songling Huang, Wei Zhao. Nonlinear Analysis of a Family of High-Frequency Self-Oscillating Resonant Inverters, the 28th Annual IEEE Applied Power Electronics Conference & Exposition,  March 17-21, 2013: 2349-2354.Long Beach, California,USA

  13. Zhu Furong, Zhu Hongxiu, Wei Zheng, Huang Songling. The development of rock failure electromagnetic emission monitoring system. The 1st International Conference on Structural Health Monitoring and Integrity Management. November 25-28, 2012, Beijing,China :81-84.

  14. Zhiyi Su, Songling Huang, Wei Zhao, Shen Wang, Huacheng Feng. Development of a Portable High-Precision Above Ground Marker System for an MFL Pipeline Inspector. 18th World Conference on Non Destructive Testing, April 16-20, 2012, Durban, South Africa.

  15. Mingsong Shao, Songling Huang, Wei Zhao and Changquan Wang. Soft-switching Analysis of a Resonant Capacitor Current Feedback Self-oscillating Inverter. 2012 IEEE 7th International Power Electronics and Motion Control Conference, June 2-5, 2012, Harbin, China:1690-1694

  16. Hao Kuansheng, Huang Songling, Zhao Wei, DUAN Rujiao. Analytical calculation and analysis for meander-coil electromagnetic acoustic transducers. 2011 IEEE International Instrumentation and Measurement Technology Conference, I2MTC 2011 – Proceedings231-234.

  17. Peng Xu, Songling Huang, Wei Zhao. Differential Eddy Current Testing Sensor Composed of Double Gradient Winding Coils for Crack Detection. 2010 IEEE Sensors Applications Symposium Proceedings, Limerick, Ireland, 2010:59-63

  18. Hao Kuansheng, Huang Songling, Zhao Wei, Wei Zheng, Wang Shen, Huang Zijing. A new frequency-tuned longitudinal wave transducer for nondestructive inspection of pipes based on magnetostrictive effect. 2010 IEEE Sensors Applications Symposium Proceedings, Limerick, Ireland, 2010:64-68

  19. Wang Shen, Huang Songling, Zhao Wei and Tian Guiyun. Alternating Winding Magnetostrictive Electromagnetic Acoustic Transducer for Pipe Torsional Guided Wave Generation. 2010 IEEE Sensors Applications Symposium Proceedings, Limerick, Ireland, 2010:69-72

  20. Songling Huang, Shen Wang, Wei Zhao, Jiarui Dong, Kuansheng Hao. Study on Oil and Gas Pipeline Crack Detection Method Based on Emat-Generated Ultrasonic Guided Waves. The 3rd World Conference on Safety of Oil and Gas Industry(WCOGI) BeijingChina2010:491-493

4、國内期刊論文選(2010以來)

  1. 周恺, 張睿哲, 葉寬, 李鴻達, 王哲, 黃松嶺. 基于正交試驗理論的接地扁鋼缺陷檢測電磁超聲換能器優化設計. 電測與儀表, 202158(09)

  2. 趙偉, 溫克歡, 何恒靖, 李世松, 黃松嶺. 低壓配電台區模組化智能融合終端構建方案與實現. 電測與儀表, 202158(06)

  3. 馬永超,趙偉, 黃松嶺. 提高智能電能表可靠性技術研究綜述. 電測與儀表, 202158(04)

  4. 趙偉, 黃松嶺. 四表合一”集抄系統建設綜述. 電測與儀表, 202158(04)

  5. 孫洪宇, 彭麗莎, 屈凱峰, 王珅, 趙偉, 黃松嶺. 機器學習在複合絕緣子缺陷超聲檢測中的應用與展望. 無損檢測, 2021(5): 58-63

  6. 周恺, 任志剛, 蔡瀛淼, 李春生, 孫洪宇, 黃松嶺. 輸電杆塔接地扁鋼SH導波腐蝕缺陷檢測方法研究. 中國測試,2020,47(08)

  7. 莊雙勇,趙偉,趙東芳,黃松嶺. 一種基于滑窗TLS-ESPRIT算法的超諧波動态分析方法. 計量學報, 2020,(04): 475-483

  8. 汪芙平, 劉書翔, 黃松嶺, 趙偉, 王贊基. 脈沖噪聲幹擾下同步相量測量. 中國電機工程學報, 202040(05)1673-1683

  9. 尉怡青, 趙偉, 陳壘, 黃松嶺. 計及間諧波的重分組小波包變換功率電能測算新方法. 中國電機工程學報, 2020(22)7480-7490

  10. 彭麗, 趙偉, 陳壘, 黃松嶺. 電網信号諧波分析算法計算性能比較研究. 電測與儀表, 2020(01)1-20

  11. 莊雙勇,趙偉,何學農,黃松嶺. 超諧波引發的電能質量問題及相關研究. 電測與儀表,2019,56(1):41-52.

  12. 黃松嶺, 王哲, 王珅, 趙偉. 管道電磁超聲導波技術及其應用研究進展. 儀器儀表學報, 2018, 39(3): 1-12.

  13. 陳申乾,黃松嶺,趙偉,任建興. 燃煤鍋爐熱力管道缺陷檢測技術. 無損檢測,2017,39(1):42-47.

  14. 喬天驕,黃松嶺,趙偉,王珅. 雙頻渦流檢測系統的設計. 電測與儀表,201653(4):1-6.

  15. 陳俊傑, 黃松嶺, 趙偉. 油氣管道缺陷漏磁檢測數據壓縮算法研究. 電測與儀表,201451(15):100-104.

  16. 魏争, 黃松嶺,趙偉,王珅. 磁緻伸縮管道缺陷超聲導波檢測系統研制. 電測與儀表,201350(9):21-25.

  17. 邵明松, 黃松嶺, 趙偉. 無極燈系統的建模與分析.電工技術學報,2013, 28(4):13-19.

  18. 邵明松, 黃松嶺, 趙偉. 高頻無極燈穩态工況下的阻抗特性測試分析. 高電壓技術,2013, 39(4):923-927.

  19. 李鵬, 黃松嶺, 王珅, 趙偉. 一種電磁超聲檢測用脈沖激勵電源的研制. 電測與儀表,201249(2):76-79.

  20. 蘇宇航,吳靜,奉華成,黃松嶺. 便攜式管道檢測器定位系統的研制. 無損檢測, 2012,34(4): 22-25.

  21. 蘇志毅,黃松嶺,趙偉,王珅,奉華成. 油氣管道缺陷漏磁檢測地面标記器研制. 無損檢測, 2012,34(10): 16-18.

  22. 奉華成, 黃松嶺. 三維漏磁檢測實驗平台的研制. 電測與儀表,201148(4):27-29.

  23. 邵明松, 黃松嶺, 趙偉等. 2.65MHz無極燈電子鎮流器的參數優化. bevictor伟德官网學報, 2011,51(7):928-932.

  24. Huang Songling, Ge Leyi, Wang Zhongyu, Zhao Wei. Poor information material brinell hardness measurement uncertainty evaluation based on monte carlo method. 農業機械學報, 2011, 42(9): 225-229.

  25. 黃松嶺,徐琛,趙偉,許鵬.油氣管道變形渦流檢測線圈探頭的有限元仿真分析. bevictor伟德官网學報,201151(3): 390-394.

  26. Hao Kuansheng, Huang Songling, Zhao Wei, Wang Shen. Multi-belts coil longitudinal guided wave magnetostrictive transducer for ferromagnetic pipes testing. SCIENCE CHINA Technological Sciences, 2011, 54(2):502-508.

  27. Hao Kuansheng, Huang Songling, Zhao Wei, DUAN Rujiao, Wang Shen. Modelling and finite element analysis of transduction process of electromagnetic acoustic transducers for nonferromagnetic material testing. J of Central South University of Technology, 2011,18(3): 749-754.

  28. Hao Kuansheng, Huang Songling, Zhao Wei, Wang Shen. Circuit-field coupled finite element analysis method for an electromagnetic acoustic transducer under pulsed voltage excitation. Chinese Physics B, 2011,20(6): 068104.

  29. 童允, 黃松嶺, 趙偉. 基于USB的儲罐底闆檢測器采集系統. 電測與儀表,2010,47(4): 57-61.

  30. 徐琛,黃松嶺,趙偉,許鵬.基于低頻渦流的油氣管道變形檢測方法及實現. 電測與儀表,201047(6):10-13.

  31. 黃松嶺,徐琛,趙偉,許鵬.油氣管道變形渦流檢測線圈探頭的有限元仿真分析. bevictor伟德官网學報,201047(6):10-13.

  32. 童允, 黃松嶺, 趙偉, 田貴雲. 基于包絡濾波的電磁超聲檢測數據降噪算法. 高技術通訊,201020(9):960-964.

  33. 童允, 黃松嶺, 趙偉. 油氣管道電磁超聲檢測器數據壓縮算法研究. bevictor伟德官网學報,2010,50(10): 1613-1616.

  34. 郝寬勝,黃松嶺,趙偉,王珅. 電磁超聲線圈電感和匹配電容的計算. 高技術通訊,2010, 20(8): 845-849.

 


6、部分授權專利

  1. 黃松嶺;張偉;趙偉;郭景濤. 管道腐蝕缺陷類型識别方法,2006/06/07

  2. 黃松嶺;趙偉;崔偉;吳靜;王珅. 一種漏磁檢測腐蝕缺陷的量化方法,2007/12/19

  3. 黃松嶺;趙偉;宋小春. 大面積鋼闆缺陷漏磁檢測方法,2008/10/22

  4. 黃松嶺;趙偉;宋小春;崔偉. 基于三維有限元神經網絡的缺陷識别和量化評價方法,2009/04/29

  5. 黃松嶺;趙偉;董甲瑞;徐琛;陸文娟;吳德會. 基于交直流複合磁化的漏磁檢測内外壁缺陷的識别方法, 2011/01/26

  6. 黃松嶺;趙偉;葉朝峰;王珅;張永生;郝寬勝. 電磁超聲測厚方法,2010/09/29

  7. 黃松嶺;王珅;趙偉;葉朝峰;郝寬勝;董甲瑞. 天然氣管道裂紋電磁超聲斜向導波檢測方法,2011/05/11

  8. 黃松嶺;趙偉;郝寬勝;王珅;董甲瑞;童允;魏争;李鵬;崔愛芳;許鵬. 一種管道軸向超聲導波換能探頭,2011/10/26

  9. 黃松嶺;王珅;畢鄭誠志;趙偉;郝寬勝;李鵬;韓潤奇. 一種用于電磁超聲測厚探頭的耦合匹配裝置,2012/08/22

  10. 黃松嶺;王珅;畢鄭誠志;趙偉;郝寬勝;李鵬;韓潤奇.一種用于電磁超聲測厚探頭的耦合匹配裝置,2012/8/22

  11. 王珅;黃松嶺;趙偉;魏争;陳俊傑.一種全向SH導波電磁超聲換能器,2014/4/2

  12. 黃松嶺;林鵬;趙偉;王珅;魏争.電磁輻射信号監測裝置,2015/1/14

  13. 黃松嶺;趙偉;王珅;朱福榮;魏争.一種高溫注汽管道缺陷監測方法, 2016/1/13

  14. 黃松嶺;趙偉;肖勇;王珅;徐晉.一種區分管道内外表面腐蝕缺陷的傳感器, 2015/8/19

  15. 黃松嶺;趙偉;王珅;程若凡.海底油氣管道缺陷高精度内檢測裝置,2015/7/15

  16. 黃松嶺;趙偉;程若凡;宋明曉.浮動式管道内漏磁檢測裝置的手指探頭單元, 2016/5/18

  17. 黃松嶺;趙偉;程若凡;張振宇;董甲瑞.油氣管道缺陷内檢測器裡程測量裝置, 2016/4/13

  18. 黃松嶺;趙偉;程若凡;宋明曉.油氣管道缺陷内檢測器萬向節, 2015/11/18

  19. 黃松嶺;趙偉;王珅;程若凡;張振宇.油氣管道缺陷内檢測器盲插上電結構, 2015/9/30

  20. 黃松嶺;趙偉;王珅;程若凡.油氣管道缺陷内檢測器的電連接器, 2016/5/18

  21. 黃松嶺;趙偉;王珅;程若凡.油氣管道缺陷内檢測器電池包單元, 2015/8/19

  22. 黃松嶺;趙偉;程若凡;宋明曉.油氣管道缺陷内檢測器電子記錄儀單元2016/3/30

  23. 黃松嶺;王珅;趙偉;劉歡.管道三維漏磁成像檢測浮動磁化組件,2016/12/7

  24. 黃松嶺;王珅;趙偉;李世松;魏争.一種射線追蹤式超聲Lamb波缺陷層析成像方法, 2017/4/24

  25. 黃松嶺;王珅;趙偉;李世松;于歆傑;劉歡.管道三維漏磁成像缺陷量化方法,2017/2/22

  26. 黃松嶺;趙偉;王珅;于歆傑;陳俊傑;魏争. 海中の石油ガスパイプライン用の内部検出裝置, 2017/6/9

  27. 黃松嶺;趙偉;王珅;李世松.三維漏磁檢測缺陷複合反演成像方法, 2017/8/25

  28. 黃松嶺;趙偉;王珅;于歆傑;陳俊傑;魏争. Inner Detecting Device for Subsea Oil and Gas Pipeline, 2018/7/24

  29. 黃松嶺;王珅;趙偉;李世松;魏争. Method and Device for Testing Defect Based on Ultrasonic Lamb Wave Tomography, 2019/2/5

  30. 黃松嶺;趙偉;王珅;彭麗莎;張宇;于歆傑;鄒軍;桂林;汪芙平. High-Precision Imaging and Detecting Device for Detecting Small Defect of Pipeline by Helical Magnetic Matrix, 2019/7/2

  31. 黃松嶺;趙偉;張宇;王勍;王珅. Device and Method for Detecting Defect in Main Shaft of Wind Turbine, 2020/3/31

  32. 黃松嶺;宋凱;趙偉;盧超;張宇;王珅;董甲瑞;王哲.Imaging Method and Device Based on Guided Wave Scattering of Omni-directional Magneto-acoustic Transducers, 2019/7/2

  33. 黃松嶺;宋凱;趙偉;盧超;張宇;王珅;王哲.Method and Device for Adjusting Array Structure of Omnidirectional Electromagnetic Acoustic Transducers for Imaging Defect Profile of Metal Plate, 2019/10/8

  34. 黃松嶺;孫洪宇;王珅;趙偉;黃紫靖. 基于鋁闆缺陷檢測的超聲導波聚焦換能器, 2020/2/21

  35. 黃松嶺; 彭麗莎; 趙偉; 王珅; 于歆傑; 董甲瑞; 汪芙平. 一種基于深度-提離值變換的缺陷漏磁信号求解方法, 2020/4/7

  36. 黃松嶺,趙偉,彭麗莎,王珅,程迪,董甲瑞。Method for reconstructing defect. 2021/3/2

  37. 黃松嶺;宋小春;沈功田;趙偉;林俊明;康宜華;張宇;王珅. Method for compressing and reconstruction data. 2021/3/30

  38. 黃松嶺;趙偉;王珅;于歆傑;彭麗莎;鄒軍;汪芙平;董甲瑞;桂林;龍躍. Method and device for detecting and evaluating defect. 2021/8/24

  39. 黃松嶺;王文志;彭麗莎;趙偉;王珅;黃紫靖. Device and method for detecting defect contour with omnidirectionally equal sensitivity based on magnetic excitation, 2020/12/14

  40. 黃松嶺;趙偉;張宇;王勍;王珅. Device and method for detecting defect in main shaft of wind turbine2020/03/31

  41. 黃松嶺;宋小春;沈功田;趙偉;林俊明;康宜華;張宇;王珅. Method for detecting defect of metal plate2020/04/14

  42. 黃松嶺;宋小春;彭麗莎;趙偉;王珅;于歆傑;李世松. Method and device for identifying defect opening profile2020/09/29

  43. 黃松嶺;趙偉;王珅;于歆傑;陳俊傑;魏争. An inner detecting device for subsea oil and gas pipeline2020/09/09


 

 

7、軟件著作權

  1. 黃松嶺,趙偉,王珅,蘇志毅,朱京來. 油氣管道漏磁檢測數據分析軟件V1.0 , 2013/12/28

  2. 黃松嶺,王珅,趙偉. 平闆導波頻散曲線計算軟件V1.0 , 2013/12/27

  3. 王珅,黃松嶺,趙偉. 管道軸向導波頻散曲線計算軟件V1.0 , 2013/12/27

  4. 黃松嶺,王珅,趙偉. 電磁超聲檢測數據采集軟件V1.0 , 2013/12/28

  5. 黃松嶺,王珅,趙偉. 大口徑管道周向導波頻散曲線計算軟件V1.0 , 2013/12/27

  6. 黃松嶺,王珅,趙偉,丁睿,彭麗莎. 管道缺陷漏磁成像三維外檢測數據智能分析軟件V1.0, 2015/11/20

  7. 黃松嶺、王珅、趙偉、丁睿、彭麗莎. 鐵軌三維漏磁缺陷檢測數據智能分析軟件V1.0 軟件著作權,2015/11/20

  8. 王珅,占在福,黃松嶺. 電磁超聲檢測時頻分析軟件V1.0 軟件著作權,2020/12/23

 


 




1、學術組織任職


  • IET Fellow

  • IEEE Senior Member

  • American Society for Nondestructive Testing Member

  • 軍委科技委專家組成員

  • 中國儀器儀表學會理事

  • 中國無損檢測學會副理事長

  • 中國電工技術學會電磁檢測技術及裝備專委會主任委員

  • 中國儀器儀表行業協會量子電學測量專委會副理事長

  • 中國儀器儀表學會電磁測量信息處理儀器分會副主任委員

  • 中國儀器儀表學會設備結構健康監測與預警分會常務理事

  • 全國試标委無損檢測儀器标準化分技術委員會委員

    2、國際期刊編委


  • 《Scientific Reports》編委

  • Sensors》編委

  • Energies》編委

  • Frontiers in Sensors》編委

  • Journal of Sensor Technology》編委


3、國内期刊編委


  • 《無損檢測》編委

  • 《中國測試》編委

  • 《電測與儀表》編委會副主任

  • 《測控技術》編委

  • 《應用聲學》編委

    4、國際會議任職

    擔任會議主席:


  • The 3rd World Conference on Safety of Oil and Gas Industry 2010 (“油氣工業安全”第三節國際會議)2729 September, 2010Beijing (北京), Co-Chairman (共同主席)

  • The co-chairs for ICPPE 2018, 14-16 January, 2018, Bali, Indonesia

  • The co-chair of International Conference on Petroleum and Petrochemical Engineering (ICPPE), Vietnam, on Jan. 16-18, 2019


擔任如下國際會議的技術委員會/顧問委員會委員(Member of Technical Program Committee / International Advisory Committee):


 


  • Technical Committee Member of 5th International Conference on Green Energy and Applications, Singapore, on  March 6-8, 2021

  • Program Co-chair at the 5th International Conference on Frontiers of Sensors Technologies (ICFST 2021), China, on November 12-15, 2021

  • Technical Committee Member of International Conference on Sensors, Materials and Manufacturing (ICSMM 2017-2020)

  • Technical Committee Member of International Conference of Maintenance Science and Technology, China, on Sept. 23-25, 2020

  • Technical Committee Member of ICGEA 2019, China, on March 16-18, 2019

  • TPC member of the 2nd International Workshop on Materials Science and Mechanical Engineering (2nd IWMSME2018), China, on October 26-28, 2018

  • Program Committee Member of Fifth International Conference on Signal, Image Processing and Pattern Recognition (SIPP 2017), Switzerland

  • TPC member of International Conference on Sensors and Network (ICSN2015), China, on Apr. 25-26, 2015

  • Technical Committee Member or Academic Committee Member of Far East NDT New Technology & Application Forum, China (2012-present)


 


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