Scientific Research
Author锛欰dministrator Source锛歸ebsite Time锛?016-01-11 11:27:22
The Main Research Bases
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State Observatory for Atmospheric Remote Sensing: This Geophysics station is approved by the Ministry of Science and Technology of China .It is the only National Geophysical Field Station directly under the Ministry of Education, and it has become an important atmospheric environmental monitoring research base, and developed into a lidar research and development center and related personnel training center, it is committing to the development of new lidar and other ground-based and space-based high-precision optical remote sensing equipment, providing reliable detection methods for the National Space Environment Support System.
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Geospace Environment and Geodesy Ministry of Education Key Open Laboratory: This laboratory is the first Ministry of Education Key laboratory meshing space physics and geodesy, and the only space physics and geodesy key discipline and “211 project” key construction program in our country.The laboratory is engaged in the study of theories and technologies in such fields: the upper atmosphere, ionosphere and magnetosphere, Earth's gravity field, space geodesy, disturbance propagation in Sun-Earth system, space weather forecasting, remote sensing in the near-Earth space.
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| Spatial Information Intellisense Engineering Technology Research Center, National Administration of Surveying,Mapping and Geoinformation (SIIETRC)锛欬br />
SIIETRC concerns the basic theories and key techniques that focus on spatial information capture technology and equipment. The main research areas include: photoelectric surveying and mapping instrument, spatial information detecting and transmitting, machine vision and image measuring, air-space-land observation sensor network, SAR image analyzing and processing . |
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Hubei Engineering & Technology Research Center of Spectrum and Imaging Instruments锛歍he center can provide a multidisciplinary integration platform for research and exchange in the fields of new instrument research, development, design and manufacturing. The major Research & Development orientation includes new spectral component development, IR detection, ultrasound imaging, microscopic image analysis, image measurement and machine vision, in which the research of new spectral component development and IR detection techniques are in the international advanced level.
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Hubei Key Laboratory of Radar and Wireless Communication Technology 锛 The laboratory consists of Radio Wave Propagation Laboratory, Laser Radar Laboratory, Signal Processing Laboratory, Wireless Communications Laboratory, Integrated Circuits Laboratory, Pattern Recognition Research, EDA and DSP Laboratory. The Research & Development capabilities and experimental conditions of our lab have achieved the domestic advanced level.
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Laboratories Thirteenth and XVI of Wuhan University Advanced Technology Research Institute: They were mainly engaged in the aerospace products design, development, production and service work.
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Chongyang MST Radar Station of Wuhan University under the National Meridian Space Weather Monitoring Project: The MST(Mesosphere-Stratosphere-Tropsosphere ) radar of Wuhan University is located in the Chongyang County in Hubei Province, occupying an area of 43 acres. It is under the co-construction of Wuhan University and “The Eleventh Five-Year Plan” major national science and technology infrastructure project - Meridian Space Weather Monitoring Project. As one of the five key equipments constructed in the Project, Wuhan MST radar provides real-time atmospheric measurements to the Data Center of Meridian Space Weather Monitoring Project for releases to the nation-wide 12 application divisions in 7 ministries and commissions, thus offering services of space environment monitoring and forecasting for meteorology, aerospace, and other applications.
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| Scientific Research Scale |
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Main Research Areas
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鐢垫尝浼犳挱鐞嗚鍙婂伐绋?nbsp;
鏃犵嚎鐢甸仴鎰熸妧鏈?nbsp;
璁$畻鐢电瀛?nbsp;
鐜颁唬澶╃嚎鐞嗚涓庢妧鏈?nbsp;
闆疯揪淇″彿妫€娴嬩笌澶勭悊
灏勯鐢佃矾 |
Radio Wave Propagation Theory and Engineering
Radio Remote Sensing Technology
Computational Electromagnetics
Modern Antenna Theory and Technology
Radar Signal Detection and Processing
Radio-frequency Circuit |
涓€侀珮灞傚ぇ姘旂墿鐞?nbsp;
婵€鍏夋帰娴嬬悊璁轰笌鎶€鏈?nbsp;
鐢电灞備笌纾佸眰鐗╃悊
鏃ュ湴鐗╃悊 |
Middle and Upper Atmosphere Physics
Laser Exploration Theory and Technology
Ionosphere and Magnetosphere Physics
Solar-terrestrial Physics |
鐜颁唬鐢佃矾璁捐涓庡簲鐢?nbsp;
DSP搴旂敤涓庢櫤鑳芥帶鍒舵妧鏈?nbsp;
宓屽叆寮忕郴缁熶笌SoC璁捐 |
Modern Circuit Design and Application
DSP Application and Intelligent Control Technology
Embedded System and SoC Design |
澶氬獟浣撲俊鎭鐞嗕笌閫氫俊
鏃犵嚎閫氫俊涓庣綉缁?nbsp;
鐜颁唬閫氫俊鐞嗚涓庢妧鏈
鐜颁唬鏁板瓧淇″彿澶勭悊
鍥惧儚澶勭悊涓庢ā寮忚瘑鍒?/td>
| Multimedia Information Processing and Communication
Wireless Communication and Network
Modern Communication Theory and Technology
Modern Digital Signal Processing
Image Processing and Pattern Recognition |
鍏夊閬ユ劅涓庢縺鍏夋妧鏈?nbsp;
婵€鍏夐€氫俊
绮惧瘑鍏夊娴嬭瘯鎶€鏈?/td>
| Optical Remote Sensing and Laser Technology
Laser Communication
Precision Optical Testing Technology |
鏈哄櫒瑙嗚涓庡浘鍍忔祴閲?nbsp;
澶氬厜璋辨垚鍍忎笌鍒嗘瀽浠櫒
鏅鸿兘浠櫒涓庢祴鎺х綉缁淈/td>
| Machine Vision and Image Measurement
Multi-spectral Imaging and Analysis Instrument
Intelligent Instrument and Measurement & Control Networ |
| Part of the Achievements ( Past Decade) |
鍩烘湰鎯呭喌 / 骞翠唤
Basic Condition/Year |
2005 |
2006 |
2007 |
2008 |
2009 |
2010 |
2011 |
2012 |
2013 |
2014 |
| SCI Papers |
14 |
30 |
36 |
41 |
33 |
41 |
41 |
63 |
64 |
81 |
| EI Papers |
20 |
29 |
41 |
54 |
50 |
61 |
69 |
96 |
95 |
110 |
| 涓撳埄 Patent |
16 |
36 |
16 |
31 |
25 |
49 |
35 |
56 |
65 |
69 |
| 涓撹憲Monograph |
5 |
6 |
4 |
1 |
6 |
4 |
5 |
5 |
6 |
5 |
| 骞翠唤Year |
鑾峰鍚嶇О Award Title
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鑾峰绫诲埆 Category |
| 2005 |
缃戠粶鍖栭噸鐐逛汉鍙g鐞嗕笌绗旇抗鑷姩璇嗗埆妫€绱㈣蒋浠剁郴缁烖br />
Software System of Automatic Handwriting Recognition Retrieval and Key Population Network Management |
鍏畨閮ㄧ瀛︽妧鏈笁绛夊
Ministry of Public Security Science and Technology Award,3rd Prize |
| 2006 |
鏄熻浇婵€鍏夊悗鍚戝弽灏勯暅闃靛垪鐨勭爺鍒迭br />
Development of the Satellite-borne Laser Retroreflector Array |
娴嬬粯绉戞妧杩涙浜岀瓑濂朁br />
Second Prize of Surveying and Mapping Science and Technology Progress |
| 2008 |
SOC绯荤粺鑺墖IP鏍哥爺鍒迭br />
System-on-Chip IP Core Research and Development |
婀栧寳鐪佺鎶€杩涙浜岀瓑濂朁br />
Hubei Science and Technology Progress Award, 2nd Prize |
| 2010 |
楂橀鍦版尝闆疯揪OSMAR071
HF Surface Wave Radar OSMAR071 |
涓浗鑸硅埗閲嶅伐闆嗗洟绉戞妧鎴愭灉浜岀瓑濂朁br />
CSIC Science & Technology Award, 2nd Class |
| 2012 |
浣庤建鍗槦婵€鍏夎鍙嶅皠鍣ㄨ璁$悊璁哄強娴嬭瘯鏂规硶
The Design Theory and Testing Method for Low Earth Orbit Satellite Laser Retroreflector Array |
楂樼瓑瀛︽牎鎶€鏈彂鏄庝竴绛夊
University Award for Technological Invention, First Prize |
| 2012 |
鍚堟垚瀛斿緞闆疯揪鍥惧儚瑙h瘧
Understanding Synthetic Aperture Radar Images |
婀栧寳鐪佽嚜鐒剁瀛︿笁绛夊
Hubei Natural Science Award, 3rd Prize |
| 2012 |
闈㈠悜WLAN鐨勬柊涓€浠f櫤鑳界綉缁滆瘎娴嬬郴缁烖br />
New Generation WLAN Performance Test and Evaluation System” |
婀栧寳鐪佹妧鏈彂鏄庝笁绛夊
Hubei Technological Invention Award,3rd Prize
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| 2012 |
闈㈠悜鏈嶅姟鏋舵瀯鐨勬柊涓€浠f暟瀛楀煄甯傚叡浜湇鍔″钩鍙板強鍏剁ず鑼冨簲鐢?br />
A Service-oriented Architecture Spatial Information
Sharing Framework for New Generation Digital City |
涓浗娴嬬粯绉戞妧杩涙濂栦竴绛夊
The First Prize for Technology Progress of Surveying and Mapping
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| 2012 |
鍏盁鍖栫~鍦ㄧ數鍔涚郴缁熷簲鐢ㄨ繃绋嬩腑鍏抽敭鎶€鏈爺绌迭br />
The Study on Key Technologies of the Application of Sulfur Hexafluoride in Power Systems |
骞胯タ澹棌鑷不鍖虹鎶€杩涙浜岀瓑濂朁br />
The Second Prize of Science and Technology Progress, Guangxi Zhuang Autonomous Region |
| 2012 |
鍙版咕娴峰场鍙婂懆杈规捣鍩熸捣娲嬬幆澧冪珛浣撳疄鏃剁洃娴嬬郴缁烖br />
Real Time Ocean Environment Surveillance System of Taiwan Straight and Its Neibouring Area |
娴锋磱宸ョ▼绉戝鎶€鏈
China Oceanic Engineering Science & Technology Award, 1st Class |
| 2012 |
鏁板瓧娉板窞鍦扮悊绌洪棿妗嗘灦寤鸿
Construction of Geospatial Framework of Digital TAIZHUO City Construction of Geospatial Framework of Digital City |
姹熻嫃鐪佹祴缁樼鎶€杩涙涓€绛夊
The First Prize for Technology Progress of Surveying and Mapping of JIAGSU
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| 2013 |
鍩轰簬浠跨敓鍡呰鐨凷F6鍦ㄧ嚎鐩戞祴棰勮绯荤粺鐮旂┒
The Study on Online Monitoring and Warning System of SF6 Decomposition Products Based on Bionic Olfactory Technology |
骞胯タ澹棌鑷不鍖虹鎶€杩涙浜岀瓑濂朁br />
The Second Prize of Science and Technology Progress, Guangxi Zhuang Autonomous Region |
| 2014 |
鍩轰簬楂樻晥鍘嬬缉缂栫爜鐨勬櫤鑳藉濯掍綋淇℃伅澶勭悊鍙婂疄鏃朵紶杈撶郴缁烖br />
Intelligent Multimedia Information Processing and Real-time Transmission System Based on Efficient Coding |
婀栧寳鐪佺鎶€杩涙濂栦笁绛夊
Hubei Science and Technology Progress Award, 3rd Prize
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| 2014 |
鍩轰簬鐗╄仈缃戠殑鍏矾瀹夊叏鐩戞祴鍙婇璀︾郴缁烖br />
Road Security Monitoring and Warning System Based on IOT |
娴嬬粯绉戞妧杩涙濂栦簩绛夊
The Second Prize for Technology Progress of Surveying and Mapping |
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