Computer Control System,  Automation，High Precision Motion Control

2007-09--2012-06  Graduate University of Chinese Academy of Sciences (GUCAS)，NIAOT, Astrophysics, Ph.D. 

2002-09--2005-06  Graduate University of Chinese Academy of Sciences (GUCAS)，NIAOT, Astrophysics, Master

1992-09--1996-06   Anhui Institute of Technology, Department of Electrical Engineering, Automation, Bachelor 

1. Antarctic Survey Telescopes (AST3-2 and AST3-3)     (1/2013-present)

-In charge of the telescope control system (TCS) of AST3 

-Responsible for the design and optimization of the control system of AST3.

-Member of China’s 32nd Antarctic Expedition team to maintain and upgraded the telescopes 

that installed at Kunlun station in Antarctic inland, i.e. AST3-1, AST3-2 (two Antarctic survey telescopes) 

and “Chinese Star” (small aperture telescope array).

2.    Study on early warning of latent fault and seamless self-healing strategy for large optical Antarctic telescope  

(funded by NSFC, 01/2014-12/2017)

-Principle Investigator

-Responsible for the system design

3.   2.5m French Telescope      (12/2009-12/2015)

-In charge of the control system of the telescope

-Responsible for the hardware design of Alt/Az and Focal Plane

-Responsible for the software design of Alt/Az and Focal Plane

4.   Study of Nonlinear Compensation under low temperature conditions for Large Antarctic Telescope in Tracking with Ultra-low Speed and High Accuracy  

(funded by NSFC, 01/2011-12/2013)

-Principle Investigator

-Responsible for the system design

5.   Study of drive and control method for large astronomical instruments with ultra-low speed and high accuracy

(funded by CAS, 01/2009-12/2011)

-Principle Investigator

-Responsible for the system design

6.  Study of varying weight of H∞ control for mount drive system of Giant Telescope

(funded by NSFC, 01/2010-12/2012)

-Responsible for the hardware and software design of control system

-Responsible for the model and simulation of the system

7.  Study of dynamic correction system of the slip of friction drive for large telescope

(funded by NSFC, 01/2007-12/2009)

-Responsible for the hardware and software design of control system

-Responsible for the model and simulation of the system

-Responsible for the handling of the system

8.  The large Sky Area Multi-Object Fiber Spectroscopic Telescope (LAMOST) 

(National key scientific and engineering project of China, 01/1999-12/2008)

-Responsible for the software design of Mount and Focal Plane

-Responsible for optimization of the PLC software for hydraulic pad

9.  Fabrication technology of astronomical mirror with large aperture and high accuracy 

  (National key project in the Ninth-Five Year plan period funded by NSFC, 1/1999-12/2003)

-Responsible for the software design of the system

-Responsible for the design of hardware for interface of the system

-Responsible for the experiment, data acquisition and analysis.

[1] Zhuangzhuang Deng, Shihai Yang*, Yun Li, Xiaojie Gu,  Lingzhe Xu, Ruiqiang Liu. Unanticipated Fault Detection and Isolation of Telescope Drive System Based on Luenberger Observer and Axes Transformation, Automatic Control and Computer Science,2024.

[2] Yun Li, Yu Ye, Shihai Yang*, Lingzhe Xu, Jin Xu, Hai Wang, Zhuangzhuang Deng, Ruiqiang Liu, Xiaojie Gu and Bozhong Gu. Large-aperture telescope tracking control based on time-synchronization strategy. Research in Astronomy and Astrophysics，2023, 24(035004),1-13.

[3] Yun Li, Shihai Yang*, Xiaojie Gu, Zhuangzhuang Deng, Yu Ye, Jin Xu, Bozhong Gu. Digital twin technology improves the visualization of telescope drive system. Proc. SPIE 12187, Modeling, Systems Engineering, and Project Management for Astronomy X, 121871U1-8 (25 August 2022)

[4] Xiaojie Gu, Shihai Yang*, Yun Li, Zhuangzhuang Deng, Zhiwen Gao.SDG-based fault sample selection for telescope drive control system[D], Proc. SPIE 12187, Modeling, Systems Engineering, and Project Management for Astronomy X, 121871W1-10 (25 August 2022).

[5] Deng Zhuangzhuang, Yang Shihai*, Zhu Jiezhong, Li Yun. Unanticipated fault diagnosis method for antarctic telescope drive based on SVM[J]， China Measurement & Test, 2023, 49(05):1-8.

[6] Deng Zhuangzhuang, Yang Shihai, Zhu Jiezhong, Li Yun, Gao Zhiwen. Unanticipated Fault of Driving Antarctic Telescope Based on SVDD Optimization[J], Automation and instrumentation, 2022(01):18-22.

[7] Xu Jin，Yang Shihai，Ye Yu，Gu Bozhong. Model prediction of optical infrared telescope servo system in extreme environment, Infrared and Laser Engineering, 2021,50(12):339-346.

[8] Jin Xu, Songfeng Kou, Zhongyu Yue, Bozhong Gu, Shihai Yang. Design of control system for atmospheric dispersion correctors based on UMAC, SPIE, Beijing China, Proceedings Volume 12069,2021.

[9] Yun Li，Shihai Yang*，Zhuangzhuang Deng，Zhiwen Gao，Xiaojie Gu，Xiaoyan Li，Bozhong Gu. Unanticipated Fault Diagnosis Method of Telescope Drive System Based on Latent Variable Mining [J], Publications of the Astronomical Society of the Pacific, 2022, 134:014504 (13pp).

[10] Yun Li, Shihai Yang*, Jiajia Wu, Bozhong Gu, A general process model for unanticipated state recognition of a telescope drive system, Publications of the Astronomical Society of Japan, 2021, 73(1): 230-239.

[11] Jin Xu*, Songfeng Kou, Zhongyu Yue, Bozhong Gu, Shihai Yang. Design of control system for atmospheric dispersion correctors based on UMAC, SPIE, China, 2021,Proceedings Volume 12069.

[12] Li Yun, Yang Shihai*, Wu Jiajia, Gu Bozhong. Novelty Faults Detection Method Based on SVM Observer and Its Application. Journal of Vibration, Measurement and Diagnosis, 2021, 41(2):292-298 and 411.

[13] Shihai Yang*, Yun Li, Jiajia Wu, Lingzhe Xu, Xiaojie Gu, Jin Xu, Zhuangzhuang Deng, Zhiwen Gao. The Unanticipated States of Direct Drive System of Extremely Large Telescope in Extreme Environment[C], Proc. of SPIE, 2020, 11445: 1144554-8.

[14] Yun Li, Shihai Yang*, Jiajia Wu, Bozhong Gu. The Unanticipated State Recognition Model of the Large Telescope Drive System [C], Proc. of SPIE, 2020, 11445: 1144555-8.

[15] Jiajia Wu, Shihai Yang*, Yun Li. Unanticipated Fault Detection Technology for Tip/Tilt Mirror Control System of Large Aperture Telescope[C]. Journal of Physics: Conference Series, IOP Publishing, 2020, 1549(4): 042007.

[16] Shihai Yang*, Yun Li, Dandan Xu, Jiajia Wu. Design of semi-physical fault simulation platform for Antarctic telescopes[C], Proc. of SPIE, 2018, Austin, United States, 2018.6.10-6.15, 10700:1070024. 

[17] Yun Li, Shihai Yang*. Research on the fault diagnosis and self-healing technology of unattended Antarctic telescope [C], Proc. of SPIE, 2018, Austin, United States, 2018.6.10-6.15, 10700:107004W. 

[18] X. Y. Li*, S. H. Yang, F. J. Du, Z. Y. Li, X. Y. Yuan, B. Z. Gu. Performance of the second Antarctic Survey Telescope at Dome A [C], Proc. of SPIE, 2018, Austin, United States, 2018.6.10-6.15, 10700:107005P. 

[19] Zhengyang Li*, Xiangyan Yuana, Xiangqun Cuia,, Lifan Wang, Zhaohui Shang, Fujia Du a,b,c, Xuefei Gong, Bozhong Gu, Yi Hu, Peng Jiang, Xiaoyan Li, Haiping Lu, Bin Ma, Fuhai Wei, Haikun Wen, Jin Xu, Shihai Yang, Honyan Zhou. Introduction of Chinese Antarctic optical telescopes[C], Proc. of SPIE, 2018, Austin, United States, 2018.6.10-6.15, 10700:107001L.

[20] Xu Dandan*, Yang Shihai. Robust Adaptive Control for Antarctic Large Telescope Tracking System[J]. Journal of Systems Science and Mathematical Sciences, 2017,6, 37（6），1404-1412. 

[21] Li Yun*, Yang Shi-hai. Reliability Analysis of Main-axis Control System of the Equatorial Antarctica Astronomical Telescope Based on Fault Tree [J]. Acta Astronomica Sinica, 2017,5, 58（3），24-1-24-11. 

[22] Xiangyan Yuan*, Shihai Yang, Bozhong Gu, Fujjia Du, Xiaoyan Li, Zhengyang Li, Haikun Wen, Haiping Lu. Progress of Antarctic survey telescopes[C], Proc. of SPIE, 2016, Edinburgh, United Kingdom, 2016.6.26-7.1, 9906:99061O. 

[23] Zhang Yulong*, Yang Shihai, Gu Bozhong. Research for Diagnosing Electronic Control Fault of Astronomical Telescope’s Armature Winding by Step Signal[C], Proc. of SPIE, 2016, Suzhou, China, 2016.4.26-4.29, 9682: 968219-968219-8. 

[24] Yongtian Zhu*, Lifan Wang; Xiangyan Yuan, Bozhong Gu, Xinnan Li, Shihai Yang, Xuefei Gong, Fujia Du, Yongjun Qi, Lingzhe Xu. Kunlun Dark Universe Survey Telescope[C], Proc. of SPIE，2014, Montréal, Canada, 2014.6.22-6.26, 9145:91450E. 

[25] Xiangyan Yuan*, Xiangqun Cui, Bozhong Gu, Shihai Yang, Fujia Du, Xiaoyan Li, Daxing Wang, Xinnan Li, Xuefei Gong, Haikun Wen, Zhengyang Li, Haiping Lu, Lingzhe Xu, Ru Zhang, Yi Zhang, Lifan Wang, Zhaohui Shang, Yi Hu, Bin Ma, Qiang Liu, Peng Wei. The AST3 project: Antarctic survey telescopes for dome A[C], Proc. of SPIE，2014, Montréal, Canada, 2014.6.22-6.26, 9145:91450F. 

[26] Xu Bo*, Gu Bo Zhong, Du Fu Jia, Yang Shi Hai. Research on application of high precision angle encoder in Antarctic telescope[J]，Advanced Materials Research, 2013，744：511-516. 

[27] Yang Shi-hai *, Wang Guo-min. Detection and correction of slippage from friction drive for astronomical optical telescope [J]，Optics and Precision Engineering，2013，21（8）：2056-2063. IN CHINESE

[28] Yang Shi-hai. Detection and suppression of oil pad nonlinear disturbance for large optical telescope[J]，Optics and Precision Engineering，2013，21（2）：408-415. IN CHINESE

[29] Wang Guomin*, Gu Bozhong, Yang Shihai, Jiang Xiang, Zhang Zhiyong, Ye Yu, Xu Jin. Performance introduction of a 2.5m telescope mount[C], Proc. of SPIE，2012, Amsterdam, Holland, 2012.7.1-7.7, 8444:3U-3U-7.）

[30] Shihai Yang. Nonlinear Disturbance of Large Optical Antarctic Telescope[C], Proc. of SPIE 2012, Amsterdam, Holland, 2012.07.01-07.07, 84445G-84445G-7. 

[31] Shihai Yang. Research on Key Techniques of the Control System of Large Astronomical Telescope in Tracking with Ultra-low Speed and High Accuracy[D] Nanjing: Nanjing Institute of Astronomical Optics& Technology, 2012. IN CHINESE

[32] Xiang-Qun Cui*, Yong-Heng Zhao, Yao-Quan Chu, et al. The large Sky Area Multi-Object Fiber Spectroscopic Telescope (LAMOST) [J]. Research in Astronomy and Astrophysics, 2012, 12(9):1197-1242. 

[33] Shihai Yang. Control strategies and algorithms for large astronomical optical telescope[C], Proc. of SPIE, 7733：5D-5D9, San Diego, USA, 2010.06.27-06.30, 7733:5D-5D9. 

[34] Xu Lingzhe*, Yang Shihai. Research of remote control for Chinese Antarctica Telescope based on iridium satellite communication[C], Proc. of SPIE, 2010, San Diego, USA, 2010.6.27-6.30, 7740: 2L-2L6. 

[35] Gu Bozhong*, Wang Guomin, Xiang Jiang, Zhang Zhiyong, Daugny Christophe, Yang Shihai, Niu Dongsheng, Wang Yuefei. Introduction of a 2.5m telescope mount and its performance[C], Proc. of SPIE, 2010, USA, 2010.6.27-6.30,7733:3H-3H7. 

[36] Shihai Yang. Study of Control Method for Large Telescope with Friction Drive[C], Proc. of International Conference on Computational Intelligence and Software Engineering 2009, Wuhan, P.R. China, 2009.12.11-12.13, 2009:4353-4356. 

[37] Shihai Yang*, Zhenchao Zhang. Servo control system for friction drive with ultra_low speed and high accuracy[C], SPIE, 2008, Marseille, France, 2008.6.23-12.28, 7019:2B-2B8. 

[38] Shihai Yang. Software design for the control system of Small LAMOST[C], Proc. of SPIE, 2008, Marseille, France, 2008.6.23-12.28, 7019:70192P-70192P-10. 

[39] Wang Guomin*，Yang Shihai，Wang Daxing. Error analysis of friction drive elements[C], Proc.of SPIE, 2008, Marseille, France, 2008.6.23-6. 28, 7018：70184B-70184B-9. 

[40] Xu Xinqi，Yang Shihai *. Focal Plane Control System for LAMOST[J], Electrical Automation，2006，28（3）：21-23,28. IN CHINESE

[41] Xinqi Xu，Shihai Yang*. Motion control for LAMOST focal plane[C]. Proc. of SPIE，2005, 6052：60520N-60520N-8. Sapporo, Japan, 2005.12.5- 12.7, 6052:60520N-60520N-8. 

[42] Shihai Yang. The Computer Control System of Active Stressed Polishing Lap[D]. Nanjing: Nanjing Institute of Astronomical Optics& Technology, 2005. IN CHINESE

[43] Xinqi Xu，Shihai Yang*. UMAC based servo control system with high accuracy[J], Journal of Anhui University Natural Science Edition，2005，29（4）: 41-45. IN CHINESE 

[44] WANG Da-xing，Li Ying*，YANG Shi-hai，GAO Bi-1ie. Study on control technology of active stressed lap polishing aspherical mirror[J]， Optical Technique，2005，31（3）:373-379. IN CHINESE

[45] Cui Xiangqun, Gao Bilie*, Wang Daxing Zhu Yongtian, Yang Shihai, Zhu Zheng, Wang Lei, Xia Zili. A New Polishing Technology For Large Diameter and Deep Aspherical Mirror[J]，Acta Optica Sinica，2005，25(3): 400-407.

[1] Li Yun,Yang Shihai, Xu jing, Ye Yu, Deng Zhuangzhuang, Gu Xiaojie, Gu Bozhong. A method to keep the position when power off for large telescope based on position state judgment method. Patent No. ZL202210858809.2, Issue date: 12/22/2023. (China National invention patent)

[2] Yang Shihai, Li Yun, Wu Jiajia, Gu Bozhong, Li Kaikai, Peng Kaiwen, Zou Leyan. The method of Automatic shielding the fault reading head of position sensor in extreme environment. Patent No. 201911146881.7, Issue date: 09/14/2021. (China National invention patent)

[3] Yang Shihai, Li Yun, Li Xiaoyang, Xu Dandan，Wu Jiajia. The method of latent faults simulation and fault self-recovery for Antarctic Telescope based on the platform with a semi-physical simulation technique. Patent No. ZL201711234033.2, Issue date: 05/25/2021. (China National invention patent)

[4] Yang Shihai, Li Yun, Xu Dandan，Wu Jiajia. The experimental platform with a semi-physical simulation technique of latent fault self-recovery for Antarctic Telescope. Patent No. ZL201711234038.5, Issue date: 12/18/2020. (China National invention patent)

[5] Yang Shihai, Li Yun, Xu Dandan，Gu Bozhong, Gao Haochun, Su Wan, Wang Yifang. Equipment and method for detecting the mechanical anti-backlash failure for large Antarctic telescope. Patent No. 201710426597.2, Issue date:11/26/2019. (China National invention patent)

[6] Shihai Yang, Guomin Wang. Control System for implementing Non-linear interference compensation for Torsion Angle of Astronomical Telescope. Patent No. US9,599,809 B2. Issue date: 03/21/2017. Application No. US14/423,735 (based on PCT/CN2013/077907). (United States invention patent)

[7] Shihai Yang. Large-caliber telescope non-linear interference detecting and filtering method. Patent No. US9,851,427 B2. Issue date: 12/26/2017. Application No. US14/426,214 (based on PCT/CN2013/077909). (United States invention patent) 

[8] Yang Shihai, Xu Dandan, Li Yun. The method of fault diagnosis for the control system of large Antarctic telescope. Patent No. ZL201710190599.3, Issue date: 04/05/2019. (China National invention patent)

[9] Yang Shihai, Guomin Wang. Equipment and method for adjusting normal pressure between drive and driving friction rollers for astronomical telescope. Patent No. ZL201210260657.2, Issue date: 05/20/2015. (China National invention patent)

[10] Yang Shihai. The method of communication between astronomical telescope and UMAC controller. Patent No. ZL201210308091.6, Issue date: 01/28/2015. (China National invention patent)

[11] Yang Shihai. Large-caliber telescope non-linear interference detecting and filtering method. Patent No. ZL201210244509.1, Issue date: 11/5/2014. (China National invention patent)

[12] Yang Shihai. The solution of time-varying and time-delay problem of telescope control system. Patent No. ZL201210309250, Issue date: 09/17/2014. (China National invention patent)

[13] Guomin Wang, Zhang Kun, Yang Shihai, Wang Daxing. Rolling friction drive system for very large astronomical telescope.Patent No. ZL200910233343.1, Issue date:06/06/2012.(China National invention patent)

[14] Yang Shihai. Method of polishing aspherical mirror with active stressed lap. Patent No. ZL200310112784.9, Issue date: 06/13/2007. (China National invention patent)

1. Third order prize of the Advanced Scientific and Technological Award of Jiangsu Province (2021)

2. Third level talented scientist of “333 High-level Talent Training Program” of Jiangsu Province.(2011-2015)

3. Advanced individual of Nanjing Institute of Astronomical Optics& Technology (2004-2011)

4. President Scholarship of Chinese Academy of Sciences (2008)

5. Second order prize of Advanced Scientific and Technological Award of the Country (2005）

6. First order prize of the Advanced Scientific and Technological Award of Jiangsu Province (2004)

7. Advanced individual of Nanjing Institute of Astronomical Optics & Technology (2003)

8. Scholarship for Excellent students of Anhui Institute of Technology (1995)