个人信息
在职信息:在职
所在单位:光学与电子信息学院
学历:研究生(博士)毕业
学位:工学博士学位
毕业院校:香港中文大学
学科:光学工程
个人简介
王亮,华中科技大学光学与电子信息学院/未来技术学院教授、博士生导师,“湖北省百人计划”特聘专家,国际电气与电子工程师协会高级会员、美国光学学会会员。于2008年、2013年分别获得华中科技大学学士学位(光信息科学与技术)、香港中文大学博士学位(电子工程);2013年-2016年依次任职于新加坡科技局国立资讯通信研究院和香港理工大学,2016年-2019年任教于香港中文大学。长期从事智能光纤感知及信号处理的研究,研究方向包括分布式光纤传感、光纤医疗传感器、医疗机器人形状和触觉感知、机器学习感知信号处理、光纤医学检测、光纤通信与传感一体化网络、光纤器件、光纤光学等,已累计在Optics Letters、Optics Express、Journal of Lightwave Technology等国际知名光学期刊及OFC、OFS、ECOC等国际权威学术会议上发表论文100多篇。发展了海量信息的超快感知与识别关键技术,突破了海量数据实时感知、传输和运算能力瓶颈,研究成果被多个国家和地区的科研机构引用,获得包括美国光学学会前主席、美国工程院与科学院院士等顶尖科学家的高度认可,获得美国光学学会“CLEO-PR 2018”大会最佳论文奖(全球近千篇论文投稿中仅5篇论文获奖,获奖率仅为0.5%)。多次受邀做国际会议特邀报告,受邀担任国际知名SCI期刊编委及多个国际知名会议技术委员会委员/分会主席等。主持和承担国家重点研发计划课题、国家自然科学基金、香港研究资助局、香港大学教育委员会基金等科研项目。
招生意向:
我们将人工智能算法与传统光纤传感技术结合实现智能化的光纤感知,用于智慧城市、智慧医疗、物联网、结构健康监测、智慧交通、智慧安防。我们与国内外学术界和工业界相关方向的团队保持紧密联系,也与武汉同济医院、协和医院等顶尖医院保持紧密的医工交叉合作。欢迎校内外优秀学生保送或报考我们的硕士和博士研究生,也欢迎对我们研究有兴趣的本科生到课题组进行实践。
研究方向
Ø 分布式光纤传感,包括温度、应变、折射率、振动、形状监测、入侵监测等
Ø 光纤医疗传感器,包括医疗机器人可视化形状感知、形状感知增敏技术、三维形状重构技术、手术机器人触觉传感、光纤医学检测等
Ø 智能传感信号处理,包括机器学习入侵事件识别算法、图像视频降噪算法、数字信号处理等
Ø 光纤传感与通信一体化网络,光纤物联网接入,包括传感与通信信号高效融合、通信信号传感功能、传输损伤及串扰补偿
Ø 特种光纤器件、光纤干涉仪传感器、光纤光学、全光信号处理等
学术兼职
国际期刊编委
1) SCI期刊《Electronics》 (IF 2.412, ISSN 2079-9292) 编委(Editorial Board as Topic Editor)
2) 期刊《Frontiers in Communications and Networks》编委(Associate Editor)
3) SCI期刊《Advances in Condensed Matter Physics》客座编委(Guest Editor)
国际学术会议技术委员会分会主席及委员(TPC Chair/Member)
1) 2021 Opto-Electronics and Communications Conference (OECC), Hong Kong: TPC co-chair of S5. Optical Passive Devices and Modules(技术委员会分会共主席)
2) 第九届国际光纤传感技术及应用大会,中国深圳,2020
3) 2020光学前沿在线:分布式光纤传感技术及其应用,线上学术会议
4) 2019 International Conference on Optical Communications and Networks (ICOCN), Huangshan, China (技术委员会分会共主席)
5) 2018 International Conference on Optical Communications and Networks (ICOCN), Zhuhai, China: TPC co-chair of Session I Optical Communication System, Digital Signal Processing, Optical-Wireless System and Optical Network(技术委员会分会共主席)
6) 2018 Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR), Hong Kong: TPC co-chair of Track C17 Optical Sensors and Systems
7) 2019 International Conference on Optical Instrument & Technology, Beijing, China
8) 2018 Asia Communications and Photonics Conference (ACP), Hangzhou, China
9) 2018 The 10th International Conference on Advanced Infocomm Technology (ICAIT), Sweden
10) 2017 Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR), Singapore
11) 2017 Opto-Electronics and Communications Conference (OECC), Singapore
12) 2017 Photonics Global Conference (PGC), Singapore
代表学术论文
1. Guijiang Yang, Keyan ZENG, Liang Wang*, Ming Tang, and Deming Liu, “Simultaneous Sensing of Temperature and Strain with Enhanced Performance using Forward Brillouin Scattering in Highly Nonlinear Fiber,” Optics Letters, Vol. 48, Issue 13, pp. 3611-3614, 2023.
2. Keyan ZENG, Guijiang Yang, Zuying Xu, Li Song, Liang Wang*, Ming Tang, and Deming Liu, “High-sensitivity acoustic impedance sensing based on forward Brillouin scattering in a highly nonlinear fiber,” Optics Express, vol. 31, no. 5, pp. 8595-8609, 2023.
3. Yuan Yu, Shuai Cui, Guijiang Yang, Luoqiu Xu, Yu Chen, Kaixiang Cao, Liang Wang*, Yu Yu, and Xinliang Zhang, “ANN Assisted High-Resolution and Large Dynamic Range Temperature Sensor Based on Simultaneous Microwave Photonic and Optical Measurements,” IEEE Sensors Journal, vol. 23, no. 2, pp. 1105 - 1114, 2023.
4. Guijiang Yang, Keyan ZENG, Liang Wang*, Ming Tang, and Deming Liu, “Integrated denoising and extraction of both temperature and strain based on a single CNN framework for BOTDA sensing system,” Optics Express, vol. 30, no. 19, pp. 34453-34467, 2022.
5. Shang Liu, Guijiang Yang, Zuying Xu, Liang Wang*, Ming Tang, and Deming Liu, “Edge detection assisted Brillouin Optical Time-Domain Analyzer for ultrafast sensing of abnormal temperature event,” IEEE Sensors Journal, vol. 22, no. 4, pp. 3211-3218, 2022.
6. Guijiang Yang, Hao Wu, Zi Liang, Liang Wang*, Changjian Ke, Zhenggang Lian, Qianqing Yu, Zuming Xia, Ming Tang, and Deming Liu, “Enhanced Raman distributed temperature sensor using a high Raman gain fiber,” IEEE Sensors Journal, vol. 21, no. 24, pp. 27518-27525, 2021.
7. B. Wang, Liang Wang*, C. Yu, and C. Lu, “Long-distance BOTDA sensing systems using Video-BM3D denoising for both static and slowly varying environment,” Optics Express, vol. 27, no. 25, pp. 36100-36113, 2019.
8. B. Wang, Liang Wang*, N. Guo, Z. Zhao, C. Yu, and C. Lu, “Deep neural networks assisted BOTDA for simultaneous temperature and strain measurement with enhanced accuracy,” Optics Express, vol. 27, no. 3, pp. 2530-2543, 2019.
9. A. K. Azad, Liang Wang*, N. Guo, H. Y. Tam, and C. Lu, " Signal processing using artificial neural network for BOTDA sensor system," Optics Express, vol. 24, no. 6, pp. 6769-6782, 2016.
10. H. Wu, Liang Wang*, N. Guo, C. Shu, and C. Lu, “Support vector machine assisted BOTDA utilizing combined Brillouin gain and phase information for enhanced sensing accuracy,” Optics Express, vol. 25, no. 25, pp. 31210-31220, 2017.
11. H. Wu, Liang Wang*, N. Guo, C. Shu, and C. Lu, “Brillouin Optical Time Domain Analyzer Assisted by Support Vector Machine for Ultrafast Temperature Extraction,” Journal of Lightwave Technology, vol. 35, no. 19, pp. 4159-4167, 2017.
12. H. Wu, Liang Wang*, Z. Zhao, C. Shu, and C. Lu, “Support Vector Machine based Differential Pulse-width Pair Brillouin Optical Time Domain Analyzer,” IEEE Photonics Journal, vol. 10, no. 4, 6802911, 2018.
13. H. Wu, Liang Wang*, Z. Zhao, N. Guo, C. Shu, and C. Lu, “Brillouin optical time domain analyzer sensors assisted by advanced image denoising techniques,” Optics Express, vol. 26, no. 5, pp. 5126-5139, 2018.
14. Liang Wang, N. Guo, C. Jin, K. Zhong, X. Zhou, J. Yuan, Z. Kang, B. Zhou, C. Yu, H. Y. Tam, and C. Lu, “Coherent BOTDA using Phase- and Polarization-diversity Heterodyne Detection and Embedded Digital Signal Processing,” IEEE Sensors Journal, vol. 17, no. 12, pp. 3728-3734, 2017.
15. N. Guo, Liang Wang*, H. Wu, C. Jin, H. Y. Tam, and C. Lu, “Enhanced Coherent BOTDA System without Trace Averaging,” Journal of Lightwave Technology, vol. 36, no. 4, pp. 871-878, 2018.
16. N. Guo, X. Zhang, C. Jin, Z. Zhao, Liang Wang*, H. Y. Tam, and C. Lu, “Averaging-free vector Brillouin optical time domain analyzer assisted by reference probe lightwave,” Optics Express, vol. 26, no. 26, pp. 33993-34001, 2018.
17. C. Zhao, M. Tang, Liang Wang*, H. Wu, Z. Zhao, Y. Dang, J. Wu, S. Fu, D. Liu, and P. P. Shum, “BOTDA using channel estimation with direct-detection optical OFDM technique,” Optics Express, vol. 25, no. 11, pp. 12698-12709, 2017.
18. C. Jin, Liang Wang*, Y. Chen, N. Guo, W. Chung, H. Au, Z. Li, H. Y. Tam, and C. Lu, “Single-measurement digital optical frequency comb based phase-detection Brillouin optical time domain analyzer,” Optics Express, vol. 25, no. 8, pp. 9213-9224, 2017.
其他联系方式
教育经历
工作经历
社会兼职
研究方向
团队成员