彭飞:副教授/硕士生导师
邮箱:pengfei@scu.edu.cn
学科:控制科学与工程
专业:自动化
1. 学习工作经历
2015年6月于电子科技大学获通信与信息系统专业博士学位;
2018年3月于电子科技大学光学工程专业完成博士后研究并出站;
2018年4月作为引进人才进入365上市公司官网担任特聘副研究员;
2020年担任365上市公司官网硕士生导师;
2022年9月起担任365上市公司官网副教授;
2. 研究方向和项目情况
主要从事分布式光纤传感器在电气设备和交通基础设施在线状态监测方面的研究。近年来,主持多项国家自然科学基金、南方电网、蜀道集团、中广核新能源等科研项目,研究方向涵盖高速公路灾害监测、高压电缆故障定位、超长距离海缆在线监测、分布式光纤地震检波及长距离光纤传感网络。
3. 论文发表
发表论文的Google Scholar总引用数超过2900次,h-index=21,i10-index=25,其中ESI高被引论文1篇,多次在国际光纤传感大会、国际光纤通信会议上作口头报告,近年来第一作者/通信作者发表的论文有:
F. Peng, B. Xiong, Y. Zhang*, and Q. Miao, “Fading Noise Reduction in Distributed Acoustic Sensing with Singular Value Decomposition-Nonlocal Means Filtering”, IEEE Sensors Journal (2026).
F. Peng, Z. Zhu, Y. Zhang*, and Q. Miao, “A deep learning image segmentation model for detection of weak vehicle-generated quasi-static strain in distributed acoustic sensing”, IEEE Transactions on Intelligent Transportation Systems (2025).
F. Peng, G. Jiang, B. Xiong, Z. Xiong, T. Hu, Y. Zhang, J. Zhong*, and Q. Miao, “Vehicle Trajectory Extraction from Weak and Discontinuous Quasi-Static DAS Signals Using a Multi-Scale Context Pix2pix”, IEEE Transactions on Instrumentation and Measurement (2025).
F. Peng, Z. Xiong, T. Hu, Q. Miao, and Y. Zhang*, “A noise-resilient vehicle speed estimation method based on trajectory extraction and cross-correlation using distributed acoustic sensing”, Optics & Laser Technology 192, 113647 (2025).
H. Wu, B. Hu, L. Chen, F. Peng, Z. Wang, G. Genty, and H. Liang, “Mid-infrared computational temporal ghost imaging”, Light: Science & Applications 13(1), 124 (2024).
F. Peng, X. Y. Zheng, Q. Miao*, “Large Dynamic Range and Anti-Fading Phase-Sensitive OTDR Using 2-D Phase Unwrapping via Neural Network”, IEEE Transactions on Instrumentation and Measurement, 72 (2023).
J. Zhong, T. Chen, F. Peng*, X. Bi, and Z. Chen, “Direction of arrival estimation based on slope fitting of wideband array signal in fractional Fourier transform domain”, IET Radar Sonar & Navi. 17(9), 1420-1429 (2022).
J. Zhong, Z. Chen, T. Chen, F. Peng*, and X. Bi, “Direction-of-arrival estimation for wideband linear frequency modulated signals with weighted L1-norm in the fractional Fourier domain” IET Radar Sonar & Navi. 17(3), 422-434 (2023).
J. Tang, M. Hu, G. Jiang, X. Zheng, and F. Peng*, "Airborne Sound Sensing System Based on DAS and Ultra-Simple Transducer Structure," Photonics 9(12), 975 (2022).
M. Wang, L. Deng, Y. Zhong, J. Zhang, and F. Peng*, "Rapid Response DAS Denoising Method Based on Deep Learning," J. Lightwave Technol. 39(8), 2583–2593 (2021).
C. Huang, F. Peng*, and K. Liu, "Pipeline Inspection Gauge Positioning System Based on Optical Fiber Distributed Acoustic Sensing," IEEE Sensors Journal 21(22), 25716–25722 (2021).
Z. Li, J. Zhang, M. Wang, Y. Zhong, and F. Peng*, "Fiber distributed acoustic sensing using convolutional long short-term memory network: a field test on high-speed railway intrusion detection," Optics Express 28(3), 2925–2938 (2020).
Z. Li, J. Zhang, M. Wang, J. Chai, Y. Wu, and F. Peng*, "An anti-noise ϕ-OTDR based distributed acoustic sensing system for high-speed railway intrusion detection," Laser Physics 30(8), 085103 (2020).
F. Peng* and X. Cao, "A hybrid Φ/B-OTDR for simultaneous vibration and strain measurement," Photonic Sensors 6(2), 121–126 (2016).
F. Peng, Y. J. Rao*, and Z.-N. Wang, "Optical fiber distributed acoustic communication," in (Optica Publishing Group, 2015), pp. W3I-6.
F. Peng, H. Wu, X.-H. Jia, Y. J. Rao*, Z.-N. Wang, and Z.-P. Peng, "Ultra-long high-sensitivity Φ-OTDR for high spatial resolution intrusion detection of pipelines," Optics Express 22(11), 13804–13810 (2014).
F. Peng, Z.-P. Peng, X.-H. Jia, Y. J. Rao*, Z.-N. Wang, and H. Wu, "128km fully-distributed high-sensitivity fiber-optic intrusion sensor with 15m spatial resolution," in (Optica Publishing Group, 2014), pp. M3J-4.
F. Peng, N. Duan, Y. J. Rao*, and J. Li, "Real-time position and speed monitoring of trains using phase-sensitive OTDR," IEEE Photonics Technology Letters 26(20), 2055–2057 (2014).
F. Peng, Z.N. Wang, Y. J. Rao*, and X.-H. Jia, "106km fully-distributed fiber-optic fence based on P-OTDR with 2nd-order Raman amplification," in (Optical Society of America, 2013), pp. JW2A-22.
F. Peng, Z. Ran, Y. J. Rao*, and Y. Liu, "A hybrid Raman/FBG sensing system for simultaneous measurement of temperature and strain," in (SPIE, 2012), 8421, pp. 1561–1564.
5. 学术兼职
四川自动化仪器仪表学会理事;
中广核新能源公司科技委委员;
中国光学学会光纤智能传感专委会委员;
6. 人才培养
本科生课程:传感器与检测技术、光纤传感技术;
研究生课程:信息论基础、学术规范与论文写作;
7. 硕士招生专业与方向
专业:控制科学与工程(学硕);电子信息(专硕);人工智能(专硕);
研究方向:
人工智能在电气设备故障监测、智能交通中的应用;新型分布式光纤传感系统设计;
