梁生(北京交通大學教授)

梁生(北京交通大學教授)

本詞條是多義詞,共3個義項
更多義項 ▼ 收起列表 ▲

梁生,男,博士,教授、物理系副主任、物理國家級實驗教學示範中心副主任。

基本介紹

  • 中文名:梁生
  • 畢業院校:北京航空航天大學
  • 學位/學歷:博士
  • 職業:教師
  • 職務:物理國家級實驗教學示範中心主任
  • 任職院校:北京交通大學
個人經歷,教育背景,工作經歷,教學工作,研究方向,招生專業,學術成果,論文或期刊,專著或譯著,專利,科研項目,獲獎與榮譽,社會兼職,

個人經歷

教育背景

2005 年-2011 年,北京航空航天大學,儀器科學與光電工程學院,精密儀器及機械專業,研究生,獲得工學博士學位。
2007 年-2008 年受首批“國家建設高水平大學公派研究生項目”資助赴新加坡南洋理工大學聯合培養。
2001 年-2005 年,燕山大學,信息科學與工程學院,電子科學與技術專業,獲得工學學士學位。

工作經歷

2021年12月至今:北京交通大學,物理科學與工程學院,教授
2016年12月-2021年12月:北京交通大學,理學院,副教授
2013年6月-2016年12月:北京交通大學,理學院,講師
2011 年6 月-2013年6月:北京交通大學,理學院,師資博士後

教學工作

講授研究生學位課程:《高速光電子電路設計》
講授本科生課程:(1)《物理學概論》;(2)《物理學導論》(全英文;面向國際合作辦學項目)
講授本科生實驗課程:(1)《物理實驗I》(全英文;面向留學生班和國際班);(2)《物理實驗II》(全英文;面向留學生班和國際班);(3)《大學物理實驗I》;(4)《大學物理實驗II》

研究方向

  • 微納光電子器件與技術
  • 光電信息工程
  • 光電檢測與光電感測

招生專業

  • 光學工程碩士
  • 光電信息工程碩士
  • 光學工程博士
  • 光電信息工程博士

學術成果

論文或期刊

  1. 侯晨陽, 孟凡超, 趙一鳴, 丁進敏, 趙小艇, 劉鴻維, 王鑫, 婁淑琴, 盛新志, 梁生.“機器微納光學科學家”:人工智慧在微納光學設計的套用與發展[J].物理學報,2023,72(11):198-213.
  2. Fanchao Meng, Jinmin Ding, Yiming Zhao, Hongwei Liu, Weiquan Su, Luyun Yang, Guangming Tao, Andrey Pryamikov, Xin Wang, Hongqian Mu, Yingli Niu, Jingwen He, Xinghua Zhang, Shuqin Lou, Xinzhi Sheng, Sheng Liang,"Artificial intelligence designer for optical Fibers: Inverse design of a Hollow-Core Anti-Resonant fiber based on a tandem neural network",Results in Physics,Vol. 46,106310,2023.
  3. Xi Chen, Dongfeng Lin, Tao Zhang, Yiming Zhao, Hongwei Liu, Yiping Cui, Chenyang Hou, Jingwen He, and Sheng Liang, "Grating waveguides by machine learning for augmented reality," Applied Optics Vol.62, pp.2924-2935,2023.
  4. Jun Liang, Jiawei Wu, Jun Guo, Huagen Li, Xianjun Zhou, Sheng Liang, Cheng-Wei Qiu, Guangming Tao, Radiative cooling for passive thermal management towards sustainable carbon neutrality, National Science Review, nwac208, 2022.
  5. Dongfeng Lin, Danyang Li, Yiping Cui, Tao Zhang, Fanchao Meng, Xiaoting Zhao, Jinmin Ding, Sheng Liang, "Machine learning-based error compensation for high precision laser arbitrary beam splitting," Optics and Lasers in Engineering, Volume 160, 2023, 107245.
  6. Zhu Yuang, Xu Tongkai, Peng Li, Cao Yin, Zhao Xiaoting, Li Suying, Zhao Yiming, Meng Fanchao, Ding Jinmin, Liang Sheng, “Faster-RCNN based intelligent detection and localization of dental caries”, Displays, v 74, September 2022.
  7. Tongkai Xu, Yuang Zhu, Li Peng, Yin Cao, Xiaoting Zhao, Fanchao Meng, Jinmin Ding, Sheng Liang, "Artificial intelligence assisted identification of therapy history from periapical films for dental root canal," Displays, Volume 71, 102119, 2022.
  8. Yin Cao, Wenyuan Xu, Bo Lin, Yuang Zhu, Fanchao Meng, Xiaoting Zhao, Jinmin Ding, Shuqin Lou, Xin Wang, Jingwen He, Xinzhi Sheng, and Sheng Liang, "Long short-term memory network of machine learning for compensating temperature error of a fiber optic gyroscope independent of the temperature sensor," Applied Optics Vol. 61, Issue 28, pp. 8212-8222, 2022.
  9. Zhang Jie, Zhao Xiaoting, Zhao Yiming, Zhong Xiang, Wang Yidan, Meng Fanchao, Ding Jinmin, Niu Yingli, Zhang Xinghua, Dong Liang, Liang Sheng, “Unsupervised learning method for events identification in φ-OTDR,” Optical and Quantum Electronics, v 54, n 7, July 2022.
  10. Wang Xin, Zhang Guangfa, Lou Shuqin, Liang Sheng, Sheng Xinzhi, “Two-round feature selection combining with LightGBM classifier for disturbance event recognition in phase-sensitive OTDR system,” Infrared Physics and Technology, v 123, June 2022.
  11. Yin Cao, Wenyuan Xu, Bo Lin, Yuang Zhu, Fanchao Meng, Xiaoting Zhao, Jinmin Ding, Zhenggang Lian, Zhifang Xu, Qianqing Yu, Jianghe Xu, Shuqin Lou, Xin Wang, Xinzhi Sheng, Sheng Liang, “A method for temperature error compensation in fiber-optic gyroscope based on machine learning,” Optik, Volume 256, 168765, 2022.
  12. Rafal Kasztelanic, Adam Filipkowski, Dariusz Pysz, Hue Thi Nguyen, Ryszard Stepien, Sheng Liang, Johann Troles, Pentti Karioja, and Ryszard Buczynski, "Development of gradient index microlenses for the broadband infrared range," Opt. Express 30, 2338-2352, 2022.
  13. Jinmin DING, Fanchao MENG, Xiaoting ZHAO, Xin WANG, Shuqin LOU, Xinzhi SHENG, Luyun YANG, Guangming TAO, Sheng LIANG, "All-solid anti-resonant single crystal fibers," Frontiers of Optoelectronics volume 15, Article number: 3, 2022.
  14. Xiaoting Zhao, Hongbin Sun, Bo Lin, Hongmin Zhao, Yingli Niu, Xiang Zhong, Yidan Wang, Yiming Zhao, Fanchao Meng, Jinmin Ding, Xinghua Zhang, Liang Dong, and Sheng Liang, "Markov Transition Fields and Deep Learning based Event-Classification and Vibration-Frequency Measurement for φ-OTDR," IEEE Sensors Journal, VOL. 22, NO. 4, FEBRUARY 15, 2022.
  15. Fanchao Meng, Xiaoting Zhao, Jinmin Ding, Yingli Niu, Xinghua Zhang, Lvyun Yang, Xin Wang, Shuqin Lou, Xinzhi Sheng, Guangming Tao, and Sheng Liang, "Discovering extremely low confinement-loss anti-resonant fibers via swarm intelligence," Opt. Express 29, 35544-35555, 2021.
  16. Jinmin Ding, Fanchao Meng, Xiaoting Zhao, Lvyun Yang, Xin Wang, Shuqin Lou, Xinzhi Sheng, Ryszard Buczyński, Guangming Tao, and Sheng Liang, "Refractive-index guiding single crystal optical fiber with air–solid cladding," Opt. Mater. Express 11, 2994-3006, 2021.
  17. Fanchao Meng, Xiaoting Zhao, Jinmin Ding, Yingli Niu, Xinghua Zhang, Mateusz Smietana, Ryszard Buczynski, Bo Lin, Guangming Tao, Luyun Yang, Xin Wang, shuqin lou, xinzhi sheng, and Sheng Liang, “Use of Machine Learning to Efficiently Predict the Confinement Loss in Anti-Resonant Hollow-Core Fiber,” Optics Letters, vol. 46, No. 6, pp. 1454-1457, 2021.
  18. Wang Xin, Zhang Ailun, Liang Sheng, Lou Shuqin, “Event identification of a phase-sensitive OTDR sensing system based on principal component analysis and probabilistic neural network,” Infrared Physics and Technology, vol. 114, 2021.
  19. D. Li, S. Lou, Q. Xin, S. Liang and X. Sheng, “SNR Enhancement of Far-End Disturbances on Distributed Sensor Based on Phase-Sensitive Optical Time-Domain Reflectometry,” IEEE Sensors Journal, vol. 21, no. 2, pp. 1957-1964, 2021.
  20. H. Jia, S. Lou, S. Liang and X. Sheng, “Event Identification by F-ELM Model for φ-OTDR Fiber-Optic Distributed Disturbance Sensor,” IEEE Sensors Journal, vol. 20, no. 3, pp. 1297-1305, 2020.
  21. Wang Zhandong, Lou Shuqin, Wang Xin, Liang Sheng, Sheng Xinzhi, “Multi-branch long short-time memory convolution neural network for event identification in fiber-optic distributed disturbance sensor based on φ-OTDR,” Infrared Physics and Technology, vol. 109, 2020.
  22. Z. Wang, S. Lou, S. Liang and X. Sheng, “Multi-Class Disturbance Events Recognition Based on EMD and XGBoost in φ-OTDR,” IEEE Access, vol. 8, pp. 63551-63558, 2020.
  23. Sheng Liang, Xiaoting Zhao, Ruijun Liu, Xiaodong Zhang, Liang Wang, Xinghua Zhang, Yisheng Lv, and Fanchao Meng, “Fiber-Optic Auditory Nerve of Ground in the Suburb: For Traffic Flow Monitoring,” IEEE Access, vol. 7, pp. 166704-166710, 2019.
  24. H. Jia, S. Liang, S. Lou and X. Sheng, “A k -Nearest Neighbor Algorithm-Based Near Category Support Vector Machine Method for Event Identification of φ -OTDR,” IEEE Sensors Journal, vol. 19, no. 10, pp. 3683-3689, 2019.
  25. Sheng Liang, Yongxin Zhang, Xingyu Zhang, Xinzhi Sheng, Shuqin Lou, Xin Wang, Bo Lin, Mingli Dong, Lianqing Zhu, Jueting Luo, Rui Peng, Liuyan Liang, Yuqin Lin, Jinli Wang, Yue Yang, Shuai Kang, Yuelang Huang, Jiazheng Ding, Wenxuan Xu, Fuxiao Li, “Role of Structural Anisotropy in Geometric Birefringence of High-birefringence Index-Guiding PCFs: Analysis by Moment of Inertia,” Optical and Quantum Electronics, 51:12, 2019.
  26. Xiaohe Li, Sheng Liang, Yongxin Zhang, Qianqing Yu, Xinzhi Sheng, Shuqin Lou, Xin Wang, Wan Zhang, Mingli Dong, and Lianqing Zhu, "Novel refractive index sensor based on fiber bragg grating in nano‑bore optical fiber," Optical and Quantum Electronics, 51:117, 2019.
  27. Sheng Liang, Yue Yang, Shuai Kang, Yongxin Zhang, Xinzhi Sheng, Shuqin Lou, Xin Wang, Wan Zhang, and Tongtong Zhao, “Influences of Asymmetrical Geometric Structures on the Birefringence of Index-Guiding Photonic Crystal Fiber,” Optik, vol. 180, pp. 973-983, 2019.
  28. Y. Wu, S. Liang, S. Lou and X. Sheng, “An Interrogation Method to Enhance SNR for Far-End Disturbances in Fiber-Optic Distributed Disturbance Sensor Based on φ-OTDR,” IEEE Sensors Journal, vol. 19, no. 3, pp. 1064-1072, 2019.
  29. M. Wang, S. Liang and S. Lou, “A Tunable Repetition Rate Multiplier for Optical Phase Code Sequences,” IEEE Photonics Technology Letters, vol. 30, no. 22, pp. 1968-1971, 15 Nov.15, 2018.
  30. Sheng Liang, Swee Chuan Tjin, Bo Lin, Xinzhi Sheng, Shuqin Lou, Yongxin Zhang, and Xin Wang, “Novel Fiber Bragg Grating Sensing Method Based on the Sidelobe-Modulation for Ultrasound Detection,” Journal of Lightwave Technology, Vol. 37, No. 11, pp. 2686-2693, June 1, 2019.
  31. Wang Xin, Liu Yong, Liang Sheng, Zhang Wan, Lou Shuqin, “Event identification based on random forest classifier for φ-OTDR fiber-optic distributed disturbance sensor,” Infrared Physics and Technology, vol. 97, pp. 319-325, 2019.
  32. Sheng Liang, Yongxin Zhang, Xin Wang, Xinzhi Sheng, Shuqin Lou, Bo Lin, Mingli Dong, Lianqing Zhu, “Surface Brillouin Scattering in Disordered Optical Fibers with Transverse Anderson Localization Guiding Mechanism for Evaluation of Longitudinal Structural Fluctuations,” IEEE PHOTONICS JOURNAL, vol. 10, No. 1, 7101108, February 2018.
  33. M. Wang, S. Liang and S. Lou, “A Tunable Repetition Rate Multiplier for Optical Phase Code Sequences,” IEEE Photonics Technology Letters, vol. 30, no. 22, pp. 1968-1971, 2018.
  34. Sheng Liang, Xinzhi Sheng, Shuqin Lou, Xin Wang, “Surface Brillouin scattering in transverse Anderson localization disordered optical fibers,” 2017 Opto-Electronics and Communications Conference (OECC) and Photonics Global Conference (PGC), p 4 pp., 2017
  35. Sheng Liang, Xinzhi Sheng, Shuqin Lou, Yan Feng, Kangning Zhang, “Combination of Phase-sensitive OTDR and Michelson Interferometer for Nuisance Alarm Rate Reducing and Event Identification,” IEEE Photonics Journal, Volume 8, Number 2, April 2016, 6802112.
  36. Sheng Liang, Xinzhi Sheng, Shuqin Lou, “Experimental investigation on lower nuisance alarm rate phase-sensitive OTDR using the combination of a Mach–Zehnder interferometer,” Infrared Physics & Technology, Volume 75, pp. 117–123, March, 2016.
  37. Wang Xin, Lou Shuqin, Sheng Xinzhi, Liang Sheng, “Simultaneous measurement of torsion, strain and temperature using a side-leakage photonic crystal fiber loop mirror,” Infrared Physics and Technology, vol. 76, pp. 603-607, 2016.
  38. Sheng Liang, Xinzhi Sheng, Shuqin Lou, Peng Wang, Yan Zhang, “Novel Lissajous figure based location method for fiber-optic distributed disturbance sensor,” Optik, Volume 126, Issue 23, December 2015, Pages 4362-4366.
  39. 李曉赫,梁生,鐘翔.基於虛擬儀器的光纖分散式高速公路邊坡落石監測預警系統[J].山東農業大學學報(自然科學版),2018,49(03):444-448.
  40. 張俊楠,婁淑琴,梁生.基於SVM算法的φ-OTDR分散式光纖擾動感測系統模式識別研究[J].紅外與雷射工程,2017,46(04):219-225.
  41. 梁生,盛新志,婁淑琴.基於強度調製的波帶片時間透鏡研究[J].中國科技論文,2016,11(14):1609-1612.
  42. 梁生,劉騰飛,盛新志,婁淑琴,張克,王鵬,張顏,劉子豪,張康寧,段紫雯,邢逸舟, 基於空間域差分的φ-OTDR光纖分散式擾動感測器定位方法研究,紅外與雷射工程,2016,vol 45, No. 6, pp. 0622005.
  43. 梁生,王向凱,劉子豪,盛新志,王穎,婁淑琴. 時間透鏡的原理、套用以及性能和發展(英文)[J]. 紅外與雷射工程,2014,09:2970-2980.
  44. Sheng Liang, Xinzhi Sheng, Limei Zhang, Bin Cao, Computer-Assisted Percutaneous Renal Access Using Intraoperative Ultrasonography, Applied Mechanics and Materials, vol. 347-350, pp. 1022-1027, 2013.
  45. 梁生,盛新志,婁淑琴,陳京惠,董宏輝. 基於Lissajous圖形的光纖分散式擾動感測器定位方法[J]. 紅外與雷射工程,2013,07:1896-1901.
  46. Sheng Liang, Zihao Liu, Xinzhi Sheng, Shuqin Lou, and Xiangkai Wang, Investigation on the Influences of Fiber Link and Laser Source on Performances of RoF Transmission with WiMAX for 16 QAM. Proc. SPIE 9233, International Symposium on Photonics and Optoelectronics 2014, 92330Y.
  47. 陳京惠,婁淑琴,梁生,王思遠,盛新志,董宏輝. 基於李薩如圖的光纖分散式感測系統定位方法[J]. 光電子.雷射,2014,04:730-734.
  48. 李勤,張春熹,李立京,梁生,鐘翔,李傳生. 調製器消光比對光纖分散式擾動感測器的影響[J]. 光電子.雷射,2014,04:631-636.
  49. 鐘翔,張春熹,林文台,梁生. 基於小波變換的光纖周界定位系統[J]. 北京航空航天大學學報,2013,03:396-400.
  50. 王思遠,婁淑琴,梁生,陳京惠. M-Z干涉儀型光纖分散式擾動感測系統模式識別方法[J]. 紅外與雷射工程,2014,08:2613-2618.
  51. 林文台,張春熹,李立京,梁生,鐘翔,李勤,馮秀娟. 基於通信光纜的光纖油氣管線預警系統[J]. 測試技術學報,2012,02:179-184.
  52. 林文台,婁淑琴,梁生. 基於新型相位載波調製解調技術的雙M-Z光纖振動感測器[J]. 測試技術學報,2014,03:237-242.
  53. 張春熹,李勤,李立京,梁生,鐘翔. 基於Sagnac組合型干涉儀的光纖分散式擾動感測器(英文)[J]. 紅外與雷射工程,2014,10:3378-3382.
  54. Sheng Liang, Chunxi Zhang, Wentai Lin, Lijing Li, Chen Li, Xiujuan Feng and Bo Lin, “Fiber-optic Intrinsic Distributed Acoustic Emission Sensor for Large Structure Health Monitoring,” Optics Letters, 34, pp. 1858-1860, (2009).
  55. Sheng Liang, Chunxi Zhang, Bo Lin, Wentai Lin, Qin Li, Xiang Zhong and Lijing Li, “Influences of Semiconductor Laser on Mach-Zehnder Interferometer Based Fiber-optic Distributed Disturbance Sensor,” Chinese Physics B, 19 (12), pp. 124217 (2010).
  56. Chunxi Zhang, Sheng Liang, Xiujuan Feng, Wentai Lin, Chen Li, Qin Li, Xiang Zhong, LijingLi, “Spectrums and Influences of Rayleigh and stimulated Brillouin scattering on fiber-optic distributed disturbance sensor,” Spectroscopy and Spectral Analysis, vol.31, No. 7, pp. 1862-1867 (2011).
  57. Sheng Liang, Swee Chuan Tjin, Nam Quoc Ngo, Chunxi Zhang, Lijing Li, “Novel tunable fiber-optic edge filter based on modulating the chirp rate of a π-phase-shifted fiber Bragg grating in transmission,” Optics Communications, 282, pp. 1363-1369, (2009).
  58. Sheng Liang, Swee Chuan Tjin, Nam Quoc Ngo, Zhengqian Luo, Yingsong Wang, Changyong Tian, “Novel Tunable Fiber Optic Edge Filter Based on Modulating Chirp Rate of π-Phase-Shifted Fiber Bragg Grating,” Photonics Global @ Singapore, 2008. IPGC 2008. IEEE 8-11, pp. 1-4, (Dec. 2008).
  59. Zhong Xiang, Zhang Chunxi, Lin Wentai, Liang Sheng, “Fiber-optic perimeter location system based on wavelet transformation, Journal of Beijing University of Aeronautics and Astronautics,” vol. 39, No.3, pp. 396-400, 2013.
  60. Chunxi Zhang, Xiujuan Feng, Sheng Liang, Chaoyang Zhang, Chuansheng Li, “Quasi-reciprocal reflective optical voltage sensor based on Pockels effect with digital closed-loop detection technique,” Optics Communications, 283, pp. 3878–3883, (2010).
  61. Wenyuan Xu, Chunxi Zhang, Sheng Liang, Lijing Li, Wentai Lin, Yusheng Yang, “Fiber-optic Distributed Sensor Based on a Sagnac Interferometer with a Time Delay Loop for Detecting Time-varying Disturbance,” Microwave and Optical Technology Letters. 51, pp. 2564-2567, (2009).
  62. Xiujuan Feng, Chunxi Zhang, Sheng Liang, Chuansheng Li, Chaoyang Zhang, “A novel digital active homodyne demodulation scheme based on square wave phase modulation for interferometric fiber-optic sensors,” Microwave and Optical Technology Letters, 53, pp. 20-23, (2011).
  63. Li Lijing, Feng Xiujuan, Li Hui, Zhang Chunxi, Liang Sheng, Li Chuansheng, “A novel interferometric fiber-optic magnetometer with double digital closed-loop detection scheme,” proceeding of 2011International Conference on Electronics and Optoelectronics, Proceedings, 4, pp. 4304-4307, (2011)
  64. Lin Wentai, Zhang Chunxi, Li Lijing, Liang, Sheng, Li Qin, Zhong Xiang, “Novel fiber-opticdistributed disturbance sensor using a modified phase generation carrier technique,” Advanced Materials Research, 282-283, pp. 697-701, (2011)
  65. Zhang Chunxi, Li Qin, Liang Sheng, Lin Wentai, Li Lijing, Zhong Xiang, “Location algorithm for multi-disturbances in fiber-optic distributed disturbance sensor using a Mach-Zehnder interferometer,” Proc. 9th International Conference on Optical Communications and Networks, ICOCN 2010,pp. 103-107, (2010)
  66. Xu Wenyuan, Liang Sheng, Li Lijing, “Nonlinear fiber-optic Sagnac interferometer based all-optical logic gate,” IET Conference Publications, v 2010, n 574 CP, p 218-221, 2010, 9th International Conference on Optical Communications and Networks, ICOCN 2010
  67. Bo Lin, Swee Chuan Tjin, Nam Quoc Ngo, Yufeng Song, Sheng Liang, Li Xia, and Meng Jiang, “Analysis of inverse-Gaussian apodized fiber Bragg grating,” Applied Optics, 49, pp. 4715-4722, (2010).
  68. Bo Lin, Han Zhang, Swee Chuan Tjin, Dingyuan Tang, Jianzhong Hao, Chia Meng Tay, and Sheng Liang, “Inverse-Gaussian apodized fiber Bragg grating for dual-wavelength lasing,” Applied Optics, 49, pp. 1373-1377, (2010).
  69. Lin, Bo, Tjin, Swee Chuan; Zhang, Han; Tang, Dingyuan; Liang, Sheng; Hao, Jianzhong; Dong, Bo, “Dual-wavelength single-longitudinal-mode erbium-doped fiber laser based on inverse-Gaussian apodized fiber Bragg grating and its application in microwave generation,” Optical Fiber Technology,17, pp. 120-123, (2011)
  70. Lin Bo, Tjin Swee Chuan, Zhang Han, Tang Dingyuan, Liang Sheng, Hao Jianzhong, Dong Bo, “Inverse-Gaussian apodized fiber Bragg grating for microwave generation,” 2010 Photonics Global Conference, PGC 2010, 2010,2010 Photonics Global Conference, PGC 2010

專著或譯著

[1]分散式光纖溫度計校準規範(JJF 1630-2017),張克,陳樂,劉瑩,張麗萍,梁生,馬曉春,董亮。國家質量監督檢驗檢疫總局,2017年9月26日發布
[2]能源計量與節能檢測技術基礎,書號:2013-01-013-B2,中國質檢出版社,副主編
[3]溫度數字儀表原理,書號:9787502640323,中國質檢出版社,中國標準出版社,副主編

專利

[1]朱宇昂,梁生,趙小艇,曹寅,李琳,許桐楷,劉峰,彭俐,一種增強牙根管ROI辨識模型的區分度的方法,發明專利,202111148368
[2]趙小艇,梁生,朱宇昂,李琳,曹寅,許桐楷,劉峰,彭俐,一種基於深度學習的曲面斷層片牙位識別方法,發明專利,202111123166
[3]梁生,劉騰飛,盛新志,婁淑琴,王鵬,張顏,劉子豪,張康寧,段紫雯,邢逸舟,基於φ-OTDR 光纖分散式擾動感測器的擾動判斷方法和裝置,發明專利,201510268797.8
[4]梁生,劉子豪,盛新志,王向凱,劉騰飛,一種單原子的探測方法及裝置發明專利, 201410459113.8
[5]梁生, 盛新志, 婁淑琴, 陳京惠, 王思遠, 吳重慶, 王智, 王健, 劉嵐嵐, 李政勇, 張麗梅, 一種光纖分散式擾動感測器定位方法發明專利,201310060596.X
[6]梁生, 盛新志, 婁淑琴, 王思遠, 陳京惠, 一種光纖分散式擾動感測器模式識別的方法,發明專利,201310125329.6
[7]張春熹,李彥,李立京,楊德偉,歐攀,徐宏傑,張晞,張曦雯,梁生,許文淵,一種功率可調的近高斯譜摻鉺超螢光光纖光源,發明專利,ZL 200810103511.0
[8]許文淵,梁生,李慧,張春熹,李立京,張晞,林文台,楊玉生,薩格奈克干涉儀光纖分散式擾動感測器及其擾動定位方法,發明專利,ZL200910078964.7
[9] 張春熹,許文淵,梁生,李立京,張晞,林文台,楊玉生,基於薩格奈克干涉儀的光纖分散式擾動感測器,發明專利,ZL200910078963.2
[10] 張春熹,梁生,林文台,李琛,楊玉生,李立京,張晞,李彥,光纖分散式擾動感測器及其實現擾動定位的方法,發明專利,200910076263.X

科研項目

  1. 基於人工智慧的微結構光纖研究,國家自然科學基金面上項目(項目批准號:62375013),2024年01月至 2027年 12月,主持。
  2. 水下聲納探測信號圖像智慧型識別技術研究,自然科學橫向項目,主持。
  3. 基於人工智慧的光纖陀螺關鍵技術研究,自然科學橫向項目,主持。
  4. 北京一數科技有限公司—北京交通大學聯合實驗室,自然科學橫向項目,主持。
  5. 基於光纖陀螺慣性導航系統的複雜環境列車定位技術,自然科學橫向項目,主持。
  6. 新型光纖及敏感環光學特性測試與分析,自然科學橫向項目,主持。
  7. 面向高精度、小型化及抗輻射光纖陀螺的細徑保偏微結構光纖及敏感環的研究,國家自然基金面上項目,主持。
  8. 面向空分復用超高精度光纖陀螺的保偏無序微結構光纖及敏感環研究,北京市自然科學基金面上項目,主持。
  9. “時間透鏡”像差產生機理及矯正方法研究,國家自然科學基金青年基金項目,主持。
  10. 時間透鏡像差產生機理及矯正方法研究,教育部博士點基金項目,主持。
  11. 新型高精度、高可靠性1550 nm 光纖接口技術研究,橫向課題項目,主持。
  12. “遙感圖像應急場景模擬與分析軟體”及“地面圖像預處理、分析與逆向仿真軟體”研發,橫向課題項目,主持。
  13. 基於全光纖飛秒雷射器的微納光子器件三維雷射直寫系統,國家自然科學基金“重大”項目,參加。

獲獎與榮譽

  • 2017年度北京市教學成果二等獎,強化科學素質和能力,構建“大物理”系列教學平台,張興華/鄭凱/梁生/朱亞彬/王波波/劉斌/彭繼迎/陳征/蔡天芳/王智
  • 2018年北京交通大學教師教學貢獻一等獎
  • 2017年北京交通大學教師教學貢獻二等獎

社會兼職

SCI期刊《Optics Letters》、《Optics Express》、《IEEE Photonics Journal》、《Journal of Lightwave Technology》、《Optical and Quantum Electronics》審稿人;
EI期刊《紅外與雷射工程》審稿人;
POTE2013國際會議組委會秘書;
北京電視台《這是為什麼》欄目嘉賓;
北京市“翱翔計畫”導師;
北京市科協青少年科技中心“明天小小科學家”指導教師;
《龍湖葡醍大講堂》特聘客座講師。

相關詞條

熱門詞條

聯絡我們