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Error reduction of the Doppler lidar signal using a re-normalization method

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this paper, we present a re-normalization method for a Doppler signal of a Doppler lidar system. For the Doppler lidar system, we used an injection-seeded pulsed Nd:YAG laser as a transmitter and an iodine cell as a Doppler frequency discriminator. A frequency locking system that uses the absorption feature of iodine gas is too sensitive to the external or internal noises (iodine cell temperature instability, laser frequency fluctuation, environmental noises, etc.) to maintain its locking point ideally, and this frequency locking error makes the Doppler lidar system acquire the noises as the Doppler frequency shifts. To reduce the Doppler signal error induced by a frequency locking error, we used a re-normalization method by an addition of a laser beam path separated from a transmitter to the Doppler frequency discriminator for re-normalization. In this method, fluctuations of the Doppler signal were reduced using the reference signal. The reduced amount of standard deviation between the Doppler signal and the re-normalization signal was 4.838×10–3 and the Doppler signals showed a 53.3% fluctuation reduction of the averaged error value by this method.
Czasopismo
Rocznik
Strony
103--111
Opis fizyczny
Bibliogr. 9 poz., wykr., tab.
Twórcy
autor
  • Korea Atomic Energy Research Institute, 1045 Daedeokdaero, Yuseong-gu, Daejeon 305-353, Republic of Korea
autor
  • Korea Atomic Energy Research Institute, 1045 Daedeokdaero, Yuseong-gu, Daejeon 305-353, Republic of Korea
autor
  • Korea Atomic Energy Research Institute, 1045 Daedeokdaero, Yuseong-gu, Daejeon 305-353, Republic of Korea
autor
  • Korea Atomic Energy Research Institute, 1045 Daedeokdaero, Yuseong-gu, Daejeon 305-353, Republic of Korea
autor
  • Division of Cultural Studies, Hanbat National University, 16-1 Duckmyoung-Dong, Yuseong-gu, Daejeon 305-719, Republic of Korea
Bibliografia
  • [1] FRIEDMAN J.S., TEPLEY C.A., CASTLEBERG P.A., ROE H., Middle-atmospheric Doppler lidar using an iodine-vapor edge filter, Optics Letters 22(21), 1997, pp. 1648–1650.
  • [2] MCKAY J.A., Assessment of a multibeam Fizeau wedge interferometer for Doppler wind lidar, Applied Optics 41(9), 2002, pp. 1760–1767.
  • [3] CHIAO-YAO SHE, JIA YUE, ZHAO-AI YAN, HAIR J.W., JIN-JIA GUO, SONG-HUA WU, ZHI-SHEN LIU, Direct detection Doppler wind measurements with a Cabannes–Mie lidar: A. Comparison between iodine vapor filter and Fabry–Perot interferometer methods, Applied Optics 46(20), 2007, pp. 4434–4443.
  • [4] CHIAO-YAO SHE, JIA YUE, ZHAO-AI YAN, HAIR J.W., JIN-JIA GUO, SONG-HUA WU, ZHI-SHEN LIU, Direct-detection Doppler wind measurements with a Cabannes–Mie lidar: B. Impact of aerosol variation on iodine vapor filter methods, Applied Optics 46(20), 2007, pp. 4444–4454.
  • [5] LEI TANG, ZHIFENG SHU, JIHUI DONG, GUOCHENG WANG, YONGTAO WANG, WENJING XU, DONGDONG HU, TINGDI CHEN, XIANKANG DOU, DONGSONG SUN, HYUNKI CHA, Mobile Rayleigh Doppler wind lidar based on double-edge technique, Chinese Optics Letters 8(8), 2010, pp. 726–731.
  • [6] LIU Z.S., LIU B.Y., LI Z.G., YAN Z.A., WU S.H., SUN Z.B., Wind measurements with incoherent Doppler lidar based on iodine filters at night and day, Applied Physics B 88(2), 2007, pp. 327–335.
  • [7] MENZIES R.T., Doppler lidar atmospheric wind sensor: a comparative performance evaluation for global measurement application from earth orbit, Applied Optics 25(15), 1986, pp. 2546–2553.
  • [8] LI F.Q., CHENG X.W., LIN X., YANG Y., WU K.J., LIU Y.J., GONG S.S., SONG S.L., A Doppler lidar with atomic Faraday devices frequency stabilization and discrimination, Optics and Laser Technology 44(6), 2012, pp. 1982–1986.
  • [9] SUNGCHUL CHOI, SUNGHOON BAIK, SEUNGKYU PARK, IMKANG SONG, DUKHYEON KIM, JINMAN JUNG, Development of single-filter Doppler signal discrimination method for incoherent Doppler lidar system, Optica Applicata 42(3), 2012, pp. 545–553.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1fd7bf2a-a5f2-43c4-a3d4-fdab08c4b0ee
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