天津大学

黄战华

发布日期:2024-04-06 浏览次数:

黄战华 教师名称:黄战华 教师拼音名称:Zhanhua Huang 出生日期:1965-06-09 性别:男 职务:Deputy director of Key Laboratory of Ministry of E 学科:Optical Engineering 职称:教授 其他联系方式 邮编:300072 传真:022-27404214 通讯/办公地址:No.92,Weijin Road,Namkai Area 移动电话:022-27404214 邮箱:zhanhua@tju.edu.cn 基本信息 研究方向 获奖情况 论文成果 A. Research-- My research covers three main areas: optical imaging, digital image processing, and opto-electronic detection technology.As a principal investigator, I have completed 42 funded research projects, with a total funding of 25.6 million RMB. These projects include the national science and technology support project "laser and X-ray tire detection and imaging technology" and 863 project "production process information acquisition and detection of integrated sensor." Presided over the national major project (sub-topics) (cooperation), "deepwater AUV system design and manufacturing technology research", presided over the completion of the National Natural Science Foundation of "quasi-stable distribution of hot air environment digital imaging optical compensation technology", "phase wavefront Coded Speckle Field Theory and Applied Research ", 863 Subproject" Small Multi-parameter Marine Environment Detection Buoy "," Seabed-based Stereo Information Monitoring System Control Unit "," Hardware System for Noise Monitoring and Inversion Technology ", Tianjin City Natural Fund "multimedia teaching structure of the system", Tianjin science and technology training project "integrated intelligent visual terminal box" and other national vertical projects.These projects include a number of important national industrial projects with a total budget of 15 million yuan, and the "postal transfer box safety monitoring system research", "station traffic operation monitoring system research", "inspection operations safety monitoring system", "infrared camera system data processing", "dynamic target tracking and position measurement system" "LED electronic display panel", "CMOS digital imaging device with microscope and vehicle monitoring system", "high speed light curtain speed system", "Radial Tire Finished Registration X-ray image to determine the automatic identification system" ,and other and other special industrial funding with a total budget of 2.5 million yuan.I have received one national level award (third-place Award of for Advancement in National Defense Science and Technology) and two municipal awards (one second-place and one third-place Awards for Advancement in Science and Technology Progress from the City of Tianjin) . As the first author or corresponding author, I have published 119 peer reviewed journal papers among a total of 171 journal papers and 4 books. I hold 8 authorized national patents .In the field of optical imaging, Sponsored by the National Natural Science Foundation of China, I conducted research on the turbulence effect of hot air on optical imaging, achieving distortion compensation under typical application conditions. The results were published in Acta Optica Sinica, 2005,25 (5); and Acta of Tianjin University, 2006,39 (6), P708. Sponsored by the National Natural Science Foundation of China, I also conducted the research on wavefront phase encoding speckle theory and application, in which the theory and experiments show that the phase wavefront coding is effective to improve the correlation coefficient of speckle field in a large range of deformation and displacement. The results were published in Optical Engineering, 2013,5 (29), P0941031; and Laser & Optoelectronics Progress, 2016, (04), P130. Also sponsored the National Natural Science Foundation of China, I conducted research on waveguide-type collimating projection technology based on a super diffraction grating . The results were published in Optical Engineering, 2012,51 (7), P7001; and Laser & Optoelectronics Progress, 2017,54 (3) , P30501.In the field of digital image processing technology and applications, With funding from the National Key Technology Research and Development Program, my group conducted the research on X-rays detection technology for wire defect in tire machine, effectively realizing multi-texture wire image separation and detection. The results were published in the Chinese Journal of Scientific Instruments, 2009,30 (4), P694; and optical technology, 2009, 35 (1), P60. This technology is currently in use by several large companies. With funding from the National High-tech R&D Program (863 Program), my group developed vision-based production process information acquisition and detection technology, , which has already been adopted in many industrial production lines. We also developed an infrared polarization imaging technique, The results were published in Infrared Physics & Technology, 2016,77:82; and Infrared Physics & Technology, 2017, 81:P282.In the field of opto-electronic detection technology and equipment, My group was the first in China to solve the technical and engineering problems of high-speed weak optical signal detection and long-distance synchronization under strong atmospheric turbulence, background radiation and electromagnetic interference. The results were published in Optical Engineering, 2014, 53 (3), P34106 and Opto-electronics engineering, 2010,37; (8), P1.My group have developed a variety of Instruments for high-precision time (accuracy of 0.002%) and velocity (accuracy of 0.02%) measurement equipment, which has received positive reviews.In future research, I will continue to develop and optimize the fabrication process of super diffraction grating for the waveguide-type collimating projection technology and apply it to visual detection systems in cars and aircrafts. I will also continue the study of infrared polarization imaging technology and improving the ability of detecting and tracking weak infrared signals. I will also develop the technology of geometry size detection in very limited spaces, which is important for 3D precision measurement inside pipelines. These three areas all have urgent application full and are of high interest to funding agencies. The above-mentioned activitieshave the potential to have both scientific and societal impacts. B. Teaching-- After I joined Tianjin University in 1994, I have been devoted to teaching and student training.I have taught a total of 6 undergraduate courses, including "Engineering Optics", "Optoelectronic Sensors: Application & Technology", "Multimedia Technology"(new courses of Department), "Mobile Communication"(new courses of Department), “C Computer Programming"(new courses of Department), "Fundamentals of Software Technology", as well as a total of 4 graduate courses, including "Information Optics", "Modern Optical System Principle" (new courses of Department), "Microcomputer: Principle and Technology" (new courses of Department, textbook written by myself), "Interface Technology"(new courses of Department), and textbooks including "Computer Interfaces: Principle & Technology", "Opto-Electronic Image Processing" and "Opto-electric Sensors: Application & Technology".The courses that I teach cover optical systems including generation, detection, transmission, and processing of optical information. I deeply understand the structure and complexity of the curriculum knowledge, teach with great flexibility, combine with the experimental link to introduce the student training project with target, which are because most courses are newly opened by myself, and I write all lecture notes and multimedia teaching materials. The effect of teaching is good according to students’ comments, and the series of courses is awarded for the most rewarding one. I have received a number of teaching achievement prizes for my efforts in improving teaching methods.In terms of teaching, my philosophy is that the students not only need to learn what it is but also why and how to use. The necessary method to achieve these goals is to make the knowledge learning smooth and comprehensive, because knowledge’s applications require comprehensive understanding of courses and experiments. Furthermore, I require my graduate students not only to establish the professional knowledge structure, but also to realize the leap forward of work ability and the development of innovative thinking. The dissertation quality must be excellent, and all of my students can smoothly find their ideal jobs and achieve excellent performance. 80 undergraduates, 69 masters and 10 Ph.Ds I guided have achieved their training objectives well, and I am quite proud of them.In the future teaching work, I will take the course of “Optoelectronic Sensors: Application & Technology” as the basis, and extend it by linking to advanced mathematics and subsequent application capacity, and polish this course to be one of the “National Excellent Course”, and make the course well-recognized in China. C. Services-- I served as co-chair of “the 2014 National conference on opto-electronic technology and system”, and “the 2016 National conference on opto-electronic technology and system”.I now serve as the president of Image Science and Engineering Branch of China Instrument and Control Society , the director of Chinese Optical Society, the managing member of Optoelectronic Technology Special Committee of Chinese Optical Society, the managing director of Optical Electromechanical Technology and System Integration Branch of China Instrument and Control Society, the senior member of Chinese Mechanical Engineering Society, the managing director of Tianjin Optical Society, the director of the Institute of Tianjin Graphics & Imaging.I also serve a committee member or review expert for the highest Prize of Science and Technology in China (2009), the Prize of Innovation of the Ministry of Science and Technology of China (since 2014), the National Natural Science Foundation of China (since 2010), the Tianjin Science and Technology Award (since 2004),the Foundation of Science and Technology of the Ministry of Education in China (since 2006), the Science and Technology Award of the Instruments Society (since 2011), the Tianjin Science and Technology Foundation (since 2004), the Foundation of Science and Technology in Guangdong province (since 2012).I was elected to be a member of the editorial board of “Optics and Opto-electronics Technology” and “Laser Magazine”. I was elected to be the degree thesis reviewer of Ministry of Education degree and Graduate Student Education Development Center. I was elected to be the reviewer of "Optical Precision Machinery", " Acta Optica Sinica ", "Acta Photon", "Journal of Physics" and "Opto-electronic Engineering". I serve as the deputy director of the Key Laboratory of Ministry of Education for Optoelectronics and Information Technology (Tianjin university) (since 2011), the deputy director of Key Laboratory Tianjin Municipality for Integrated Optoelectronic Technology and Devices (since 2016); a member of the degree committee of the School of Precision Instrument and Optoelectronics Engineering at the Tianjin University (since 2003), a member of the committee of teaching instruction of the School of Precision Instrument And Optoelectronics Engineering at the Tianjin university (since 2016). D. Concluding Remarks-- All of my research directions aim for practical applications. Based on our research results in wire tire X-ray image processing and laser speckle detection, new methods for recognition and identification of multi-laminated bead wire and multi-distribution of air bubble defects have been used to improve the detection precision and the recognition rate,. We have realized the breakthrough from the manual recognition to automatic identification. The patented technologies is currently used by Mesnac Co., the company with the highest revenue in its sector in its rubber machine production and tire laser speckle X-ray detection machine products. .They are sold to more than 10 domestic tire manufacturing enterprises, and marketing to more than 10 countries and regions of the world. Various types of well-developed high-precision time measurement instruments and velocity measurement instruments have accomplished more than 6000 field trials, effectively guarantee the success of industrial product development and large-scale manufacture.Currently, there are still a number of research achievements to be commercialized. The important task of the future is to cooperate with the enterprises for commercialization and to apply them in order to serve social development and national economy.Regarding international cooperation, I organize the “Joint Laboratory of Tianjin University - Central Florida University (UCF in the US) - Southampton University (UK) for Integrated Optoelectronic Devices and Optical Communications”. I collaborate with a professor in the Center for Research and Education in Optics and Lasers (CREOL), UCF, and we jointly undertook the international science and technology cooperation project in Tianjin, "The few-mode optical fiber sensors".In future work, I will strengthen cooperation with international peers and combine with the new platform for the integrated optoelectronic devices. In imaging optics and optoelectronic detection of integrated optoelectronic devices, I will further carry out the joint graduate-student cultivation and cooperation with young teachers in academic visit and scientific research projects and make original innovation results from the aspects of principle and devices. Oopto-Electronic Detection Technology and Equipment: Digital Image Processing Technology and Applications: Optical imaging: 暂无内容 暂无内容 教育经历 1990.3-1992.3 Tianjin University   Optical Engineering   Doctoral Degree 1986.8-1990.3 Tianjin University   Optical Engineering   Master Degree 1982.8-1986.8 Huazhong University of Science and Technology   Optical Engineering   Bachelor Degree 工作经历 2016.3 -2019.12 |Key Laboratory Tianjin Municipality for Integrated Optoelectronic Technology and Devices|Tianjin University|Deputy director|professor 2011.3 -2019.12 |Key Laboratory of Ministry of Education for Optoelectronics and Information Technology|Tianjin University|Deputy director|professor 2003.6 -2019.12 |School of Precision Instrument & Opto-electronics Engineering|Tianjin University|Professor 2002.6 -2009.11 |School of Precision Instrument & Opto-electronics Engineerin|Tianjin University|Associate dean|professor 1994.12 -2003.6 |School of Precision Instrument & Opto-electronics Engineering|Tianjin University|Associate professor 1992.7 -1994.12 |School of Precision Instrument & Opto-electronics Engineering|Tianjin University|Lecturer

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