»Full Name:Zhidan Yan | »Belong to:Department of Measurement and Control Technology and Instruments | |
»Academic degree:PhD | »Title:Associate Professor | |
» Major: Measurement and Control Technology and Instruments | » Tutor category: Postgraduate Supervisor | |
»E-mail:zhidanyan@upc.edu.cn | ||
»Tel:0532-86982918 | ||
»Address:College of Control Science and Engineering, 66 Changjiang West Road, Huangdao District, Qingdao City, Shandong Province | ||
»general situation | ||
◎Expertise Areas [1]MWD technology and instruments [2]Downhole data high-speed transmission [3]Weak magnetic measurement and electromagnetic flaw detection ◎Education [1] 2007/09–2010/09, College of Precision Instrument and Opto-electronics Engineering, Tianjin University, PhD; [2] 2008/01-2010/01, Institute of Experimental Physics, Johannes Kepler University Linz, Joint PhD; 2005/09–2007/07, College of Precision Instrument and Opto-electronics Engineering, Tianjin [3] University, Master; [4] 2001/09-2005/07, College of Precision Instrument and Opto-electronics Engineering, Tianjin University, Bachelor. ◎Employment [1] 2016/01-present, Department of Measurement and Control Technology and Instruments, College of Control Science and Engineering, China University of Petroleum (East China), Associate Professor; [2] 2015/04-2015/12, Department of Automation, College of Information and Control Engineering, China University of Petroleum (East China), Lecturer; [3] 2013/04-2015/03, CNPC Bohai Drilling Engineering Co., Ltd./China University of Petroleum (East China), Postdoctor; [4] 2010/09-2013/03, Department of Automation, College of Information and Control Engineering, China University of Petroleum (East China), Lecturer. ◎Academic part-time [1] Visiting researcher of the State Key Laboratory of Precision Testing Technology and Instruments (Tianjin University); [2] Evaluation Expert of National Natural Science Foundation of China; [3] Evaluation expert of the Ministry of Education's Degree and Graduate Education Evaluation and Development Center; [4] Reviewer of High-level SCI journals, such as ISA transaction, Journal of Petroleum Science and Engineering, and Precision Engineering; [5] IEEE member, IES member; Senior member of Chinese Instrument and Control Society; Evaluation Expert of Qingdao High-tech Enterprise; ◎Courses Offered [1] Postgraduate: “DSP Principles and Embedded Systems”; [2] Undergraduate: “Technology of Intelligent Instrument Design”, “Sensor course design”, “Curriculum Design of Measurement and Control Instruments”, “Freshman Seminar”; [3] Undergraduate international students: “DSP Principles and Applications” ◎Guiding graduate students 2021: Ruirui Sun, Zihan Yang, Zihan Chen, Le Jiao, Shiyan Deng, Junzhuang zhang, Wentao Pan; 2020: Zengkun Leng, Yupeng Zheng, Faxing Lu, Simin Jiang; 2019: Nan Yang, Linxu Han, Shuchao Lu, Li Ding ; 2018: Zhenyu Yang, Junfei Wang, Xue Yin; 2017: Guo Chen, Wenyi Xu, Peng Zhang, Li Zhong; 2016: Chao Zhang, Minmin Liu; 2015: Chaoyu Xu; 2014: Chunwei Ai (Assistant guidance) 2013: Chunmei Yang (Assistant guidance) 2012: Yang Lu (Assistant guidance) ◎Funding and Projects [1] National Natural Science Foundation of China, 52075546, Research on Optimization Design of Rotary Valve and Active Rotor Control for High-Speed Continuous Wave Source Signal Pulse Generator While Drilling, 2021/01-2024/12; Ongoing, Host; [2] Shandong Provincial Natural Science Foundation of China, ZR2020MA56, Research on the Dynamic and Precise Rotor Position Control Method for a High-speed Continuous Mud Pulser While Drilling, 2021/01-2023/12; Ongoing, Host; [3] key project of the National Natural Science Foundation of China, 62033008, Research on Intelligent Autonomous Fault Tolerant Control System for Accurate Trajectory Tracking of Rotary Steering Drilling Tools, 2021/01-2025/12; Ongoing, Participant; [4] Science and Technology Project of Qingdao West Coast New District of Shandong Province, 2020-26, Research on Self-Adjusting Posture Method for an Unmanned Platform, 2020/12-2022/12, Ongoing, Host; [5] Key R&D Program of Shandong Province, 2019GHY112080, Development of High-speed Continuous Wave Pulser While Drilling for Offshore Oil and Gas Exploitation, 2019/07-2021/07, Completed, Host; [6] Fundamental Research Funds for the Central Universities, 18CX02108A, Key Issues on Downhole Source Signal Generation for High-speed Continuous Wave Mud Pulse Transmission While Drilling, 2018/01-2020/12, Completed, Host; [7] The Open Topic of the State Key Laboratory of Precision Testing Technology and Instruments, PIL1604, Research on the Non-invasive Detection Method of Weak Continuous Wave Mud Pulse While Drilling, 2016/06-2019/05, Completed, Host; [8] Qingdao Haier Intelligent Technology R&D Co., Ltd., HC-IP-02, EcoSmart Water Heater, 2016/10-2017/12, Completed, Host; [9] Qingdao Science and Technology Planning Project, 15-9-1-92-jch, Research on Key Technologies of Continuous Wave Data High-speed Transmission While Drilling, 2015/09-2017/09, Completed, Host; [10] Fundamental Research Funds for the Central Universities, 14CX02204A, Special Funding for Construction Project for Young Core Teacher , 2015/01-2016/12, Completed, Independent; [11] China Postdoctoral Science Foundation, 2014M551982, Research on High-speed Transmission Method of Downhole Data Based on Continuous Wave Mud Pulse, 2014/04-2015/04, Completed, Independent; [12] Shandong Rockcore Energy Technology Co., Ltd., Development of a New High-speed Transmission MWD System, 2021/12-2022/06, Ongong, Host; [13] CNPC Bohai Drilling Engineering Co., Ltd. 2013ZD01K, High-temperature, High-rate LWD Logging While Drilling Tool Development, Post-doctoral project, 2013/04-2015/03, completed, Host; [14] National Natural Science Foundation of China(Youth Project), 11104354, Research on Real-time In-situ Fluorescence Microscopy Method of Organic Molecular Film Growth Surface Dynamics, 2012/01-2014/12, completed, Host; [15] Central University Independent Innovation Fund, 12CX04063A, Research on Measurement and Control Technology for Downhole Dynamic Pointing Rotary Steering Drilling Tool System, 2011/10-2014/04, completed, Host. ◎Awards & Honors Awards: [1] 1 First Prize of China University of Petroleum (East China) Teaching Achievement (Participant), 2 Second Prizes (Participant); [2] DeMeiGaoKe Teaching Award of China University of Petroleum (East China); [3] ZheDaZhongKong Teaching Award of College of Information and Control Engineering, China University of Petroleum (East China); Honors: [1] Freescale University Student Smart Car Competition of Shandong Division,Outstanding mentor; [2] Extracurricular activities for students of China University of Petroleum (East China),Outstanding mentor; [3] Top Ten and Top 100 Class Teacher of China University of Petroleum (East China); ◎Representative Publications Shijun Zhao, Zhidan Yan, Lin Chen, Introduction to Petroleum Instruments (Second Edition), Petroleum Industry Press, 2020. ◎Patent [1] Zhidan Yan , Hehui Sun ,Chao Zhang, etc. Drilling Fluid Quantitative Deaerator[P]. 2020.02.18, China, ZL201711430091.2. [2] Zhidan Yan, Hehui Sun , Chao Zhang et al. Method and Device for Gas Volume Measuring[P]. 2019.09.13, China, ZL201711430075.3. [3] Zhidan Yan, Yanfeng Geng, Chunwei Ai, etc. A Processing Method of Continuous Wave Pulse Signals for MWD [P]. 2019.04.09, China, ZL201610822028.2. [4] Zhidan Yan, Yanfeng Geng, Chaoyu Xu, etc. A Processing Method of Positive Pulse Signals for MWD [P]. 2019.03.01, China, ZL201610820455.7. [5] Zhidan Yan, Chaoyu Xu, Chunwei Ai, etc. A Predicting Method for the Remaining Bath Time of a Storage-Type Electric Water Heater [P]. 2019.03.01, China, ZL201610970400.4 [6] Zhidan Yan, Yanfeng Geng, Jinzhou Yang , etc. A Control Method for Tracking and Stabilizing the Wellbore Trajectory of a Dynamic Directional Rotary Steering Drilling Tools [P]. 2017.07.14, China, ZL201510140405.X [7] Zhidan Yan,Chunming Wei, Yanfeng Geng, etc. Multi-Ary Continuous Phase Shift Keying Signal Generator [P], 2017.03.15, China, ZL201410302111.8. [8] Zhidan Yan, Chunming Wei, Yanfeng Geng, etc. Rotary-Driven Swing Valve Continuous Wave Generator [P], 2017.03.15, China, ZL201310755291.0. [9] Zhidan Yan, Chunming Wei, Yanfeng Geng, etc.A Method for Continuous Phase Shift Keying Modulation Based on Four-Blade Triangular Valve [P], 2017.02.15, China, ZL201410302060.9. [10] Zhidan Yan, Yanfeng Geng, Jinzhou Yang , etc. A Dynamic Pointing Rotary Steering Drilling Tool [P]. 2016.08.10, China, ZL201210402593.5 [11] Zhidan Yan, Chunming Wei, Yanfeng Geng, etc. A Continuous Wave Generator Rotary Valve Based on a Triangular Valve[P], 2016.05.18, China, ZL201310755292.5. [12] Zhidan Yan, Chunmei Yang, Jinwu Zheng, etc. A Wavelet Transform Image Denoising Method Based on an Improved Threshold Function, 2016.05.11, China, ZL201410120642.5. [13] Zhidan Yan, Yanfeng Geng, Jinzhou Yang, etc. A Structural Corner Locking Mechanism for Rotary Steering Drilling Tools [P], 2015.10.28, China, ZL201210402266.X [14] Zhidan Yan, Yanfeng Geng, Weiliang Wang, etc. A Rotational Speed Measuring Mechanism of Stable Platform in Dynamic Pointing Rotary Steering Drilling tool, 2015.08.05, China, ZL201310242479.5. [15] Yanfeng Geng , Zhidan Yan, Jinzhou Yang, etc. A Design Method of Offset Steering Mechanism for Dynamic Pointing Rotary Steering Drilling Tools, 2016.08.03, China, ZL201210401530.8. ◎Paper [1] Zhidan Yan, Junfei Wang, Li Sheng, et al. An Effective Compression Algorithm for Real-time Transmission Data Using Predictive Coding With Mixed Models of LSTM and XGBOOST[J], Neurocomputing, 2021, 462: 247-259. [2] Zhenyu Yang, Zhidan Yan, Yunfeng Lu, et al. Double DOF Strategy for Continuous-Wave Pulse Generator based on Extended Kalman Filter and Adaptive Linear Active Disturbance Rejection Control[J], IEEE Transactions on Power Electronics, 2021, 37(2): 1382-1393. [3] Nan Yang, Zhidan Yan, Xue Yin, et al. Mathematical Modeling and Experimental Investigation of a Rotary Valve Generating Sinusoidal Pressure Signals Based on Fan-Arc-Straight Orifice[J], Journal of Petroleum Science and Engineering, 2021, DOI:10.1016/j.petrol.2021.109807. [4] Guo Chen, Zhidan Yan, TingZheng Gao, et al. Study on Model-based Pump Noise Suppression Method of Mud Pulse Signal[J], Journal of Petroleum Science and Engineering, 2021, 200: 108433 [5] Zhidan Yan, Shuchao Lu, Chao Zhang. Design and Implementation of Long-Distance Dual PIFA Antenna Structure of Small Embedded Metal UHF RFID Tag[J]. Progress In Electromagnetics Research C, 2021, 116: 95-112. [6] Xiang Shi, Fulei Zhao, Zhidan Yan, et al. High‐performance Vibration Isolation Technique Using Passive Negative Stiffness and Semiactive Damping[J], Computer-Aided Civil and Infrastructure Engineering, 2021, 36(10): 1034-1055. [7] Zhidan Yan, Junfei Wang, Yuyu Mao. Experiment system of connector pin defect detection based on machine vision[J], Experimental Technology and Management, 2021, 38(7): 67-72. [8] Zhidan Yan, Guo Chen, Chaoyu Xu, et al. Design and experimental study of a sensitization structure with fiber grating sensor for nonintrusive pipeline pressure detection[J]. ISA Transactions, 2020, 101: 442-452. [9] Zhidan Yan, Weiyi Xu, Chunwei Ai, et al. Parametric study on pump noise processing method of continuous wave mud pulse signal based on dual-sensor[J]. Journal of Petroleum Science and Engineering, 2019, 178: 987-998. [10] Zhidan Yan, Xue Yin, Yongchao Yao, et al. Simulation study of rotor erosion for a continuous-wave pulse generator by computational fluid dynamics[J]. Systems Science and Control Engineering, 2019, 7(01): 460-467. [11] Zhidan Yan, Guo Chen, Wenyi Xu, et al. Study of an Image Autofocus Method Based on Power Threshold Function Wavelet Reconstruction and a Quality Evaluation Algorithm[J]. Applied Optics. 2018, 57: 9714-9721. [12] Zhidan Yan, Wenyi Xu, Chunmei Yang. A power thresholding function-based wavelet image denoising method[J]. Journal of Imaging Science and Technology. 2018, 62: 10506-1-10506-11(11). [13] Zhidan Yan, Yanfeng Geng, Chunming Wei, et al. Design of a continuous wave mud pulse generator for data transmission by fluid pressure fluctuation[J]. Flow Measurement and Instrumentation. 2018, 59: 28-36. [14] Zhidan Yan, Guo Chen, Chaoyu XU. Simulation Study on Stress and Strain Characteristics of Fluid Pipeline Based on Finite Element Model[J]. Laboratory Research and Exploration, 2018, 37(07): 110-113+146. [15] Zhidan Yan, Lidong Sun, Chunguang Hu, et al. A high efficiency single molecule localisation algorithm with sub pixel resolution based on fluorescence images[J]. Imaging Science Journal, 2016, 64(1): 50-56. [16] Zhidan Yan, Guangtao Wu, Tiannong Wang, etc. Design and Implementation of Experimental System for Measuring and Controlling Permanent Magnet Synchronous Motor[J]. Research and Exploration in Laboratory, 2015, 34(11): 42-45+59. [17] Zhidan Yan, Chunwei Ai, Shiteng Ma. Study on simulation experiment of continuous wave mud pulse based on FLUENT[J]. Experimental Technology and Management, 2015, 32(09): 51-53+63. [18] Zhidan Yan, Chunming Wei, Yanfeng Geng, et al. Design of a rotary valve orifice for a continuous wave mud pulse generator[J]. Precision Engineering, 2015, 41: 111-118. [19] Zhidan Yan, Chunming Wei, Yanfeng Geng, etc. Design and implementation of analog signal generator for continuous wave mud pulse transmission [J]. Electronic Measurement Technology, 2015, 38(02): 122-125. [20] Zhidan Yan, Lidong Sun, Peter Zeppenfeld, et al. Study of p-6P Molecule Growth by In-Situ and Real-Time Spectroscopic Ellipsometry[J], Materialprufung, 2013, 55(2): 139-142. [21] Zhidan Yan, Lidong Sun, Chunguang Hu, etc. Molecular Growth Investigation System Using Fluorescence Microscopy in Ultra-high Vacuum Environment[J]. Chinese Journal of Scientific Instrument, 2013, 34(09): 2028-2033. [22] Zhidan Yan, Lidong Sun, Chunguang Hu, Xiaotang Hu, etc. Factors Influencing the Ability of Fluorescence Emission and the Fluorescence Experimental Research [J]. Spectroscopy and Spectral Analysis, 2012, 32(10): 2718-2721. [23] Zhidan Yan, Lidong Sun, Chunguang Hu, etc. Real-time Fluorescence Microscopy Image Acquisition and Analysis System for Thin-film Growth Investigation[J]. Acta Optica Sinica, 2012, 32(9): 309-315. [24] Zhidan Yan, Weiliang Wang, Lidong Sun, etc. Image Processing Method Based on Hybrid Programming of IDL and LabVIEW mixed programming[J]. Computer Technology and Development, 2012, 22(11): 27-29+35. [25] Zhidan Yan, Lidong Sun, Chunguang Hu, etc. Temperature control system based on LabVIEW[J]. Instrument Technology and Sensor, 2012, (09): 13-14. [26] Zhidan Yan, Lidong Sun, Yanning Li, etc. A High-Accuracy and Fast Method for Tracking Fluorescent Single Molecules[J]. Acta Optica Sinica, 2010, 30(7): 1994-2000. [27] Zhidan Yan, Lidong Sun, Yanning Li, etc. Real-time Single Particle Tracking System Based on LabVIEW[J]. Chinese Journal of Scientific Instrument, 2010, 31(6): 1352-1357. [28] Zhidan Yan, Lidong Sun, Yanning Li, etc. A High-Precision Algorithm for Fluorescence Single-Molecule Localization with Nanometer Accuracy[J]. Nanotechnology and Precision Engineering, 2010, 8(5): 394-400. [29] Jing Shao, Zhidan Yan, Suli Han, et al. Differential Signal Extraction for Continuous Wave Mud Pulse Telemetry[J]. Journal of Petroleum Science and Engineering, 2017, 148: 127-130. [30] Hui Li, Zhidan Yan, Changbo Liu et al. Numerical Simulation of Azimuth Resistivity LWD Instruments Response[J]. Journal of China University of Petroleum (Edition of Natural Science), 2019, 43(01): 47-57. |