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Volume 32 Issue 03
Mar.  2006
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Journal of Beijing University of Aeronautics and Astronautics  > 2006  >  32(03): 333-336.
Zhang Yiqiang, Zhang Qishan, Yang Dongkai, et al. Design of delay mapping receiver for GPS remote sensing[J]. Journal of Beijing University of Aeronautics and Astronautics, 2006, 32(03): 333-336. (in Chinese)
Citation: Zhang Yiqiang, Zhang Qishan, Yang Dongkai, et al. Design of delay mapping receiver for GPS remote sensing[J]. Journal of Beijing University of Aeronautics and Astronautics, 2006, 32(03): 333-336. (in Chinese)
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Design of delay mapping receiver for GPS remote sensing

  • 1.

    School of Electronics and Information Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100083, China

  • 2. Beijing Spatial Port Geosystems Co Ltd, Beijing 100038, China

  • Received Date: 08 Apr 2005
  • Publish Date: 31 Mar 2006
    Abstract
  • Signals of global positioning system (GPS) can be used for purposes such as navigation and positioning. The utility of scattered GPS signals from rough surfaces brings a new technology for microware remote sensing. Background and advantage of GPS based sea surface wind remote sensing technique and scattered GPS signal measurement technique was introduced. Five main techniques were discussed such as improving the signal noise ratio, dual radio frequency front-end circuit design, calculating the specular point code delay, receiver work mode and the embedded firmware process. Data collection campaigns were done at Tianjin near sea with the receiver mounted on an airplane. Results show that the receiver can simultaneously receive direct and ocean scattered GPS signal, correctly calculate specular point delay, successfully measure the ocean scattered signals correlation power around the specular point, and signal noise ratio is higher than 14.9 dB. Receiver outputs provide basic data sets for ocean wind retrieval. The technique can also be used in land moist sensing, sea ice age sensing, ocean wave height remote sensing.

     

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  • [1] Garrison J L, Katzberg S J, Howell C T. Detection of ocean reflected GPS signals:theory and experiment . Proceedings of the IEEE Southeastern ’97:Engineering the New Century . Blacksburg:VA, 1997. 290~294 [2] Komjathy A, Zavorotny V, Axelrad P,et al. GPS signal scattering from sea surface between experimental data and theoretical model . On Remoting Sensing for Marine & Coastal Environments,5th Int Conf . San Diego, California, 1998.530~539 [3] Zavorotny V U, Voronovich A G. Scattering of GPS signals from the ocean with wind remote sensing application [J]. IEEE Tran Geoscience and Remote Sensing, 2000,38(2):951~964 [4] Emery W J, Axelrad P, Masters D,et al. Ocean wind and land surface student satellite (OWLS) . Geoscience and Remote Sensing Symposium 2000. IGARSS 2000. IEEE 2000 International . Honolulu Hawaii, USA,2000.3084~3086 [5] Armatys M, Axelrad P, Masters D. GPS-based remote sensing of ocean-surface wind speed from space . Geoscience and Remote Sensing Symposium, 2001. IGARSS '01. IEEE 2001 International . Sydney, Australia, 2001.2522~2524 [6] Thompson D R, Elfouhaily T M. Polarization dependence of GPS signals reflected from the ocean . Geoscience and Remote Sensing Symposium, 2000. Proceedings. IGARSS 2000. IEEE 2000 International . Honolulu Hawaii, USA,2000.3099~3101 [7] 杨东凯,张益强.用于GPS遥感的延迟映射接收机设计[J].测控技术,2004,23(增刊):141~144 Yang Dongkai, Zhang Yiqiang. Delay mapping receiver design for GPS remote sensing [J]. Measurement & Control Technology, 2004,23 (supplement):141~144(in Chinese)
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