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      KCI등재 SCOPUS

      한반도 중파장적외선 지표 복사율 분포 연구 = A Study on the Land Surface Emissivity (LSE) Distribution of Mid-wavelength Infrared (MWIR) over the Korean Peninsula

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      https://www.riss.kr/link?id=A102167097

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      다국어 초록 (Multilingual Abstract)

      Surface emissivity and its background values according to each sensor are mandatorily necessary for Mid-Wavelength Infrared (MWIR) remote sensing to retrieve surface temperature and temporal variation. This study presents the methods and results of La...

      Surface emissivity and its background values according to each sensor are mandatorily necessary for Mid-Wavelength Infrared (MWIR) remote sensing to retrieve surface temperature and temporal variation. This study presents the methods and results of Land Surface Emissivity (LSE) of the MWIR according to land cover over the Korean Peninsula. The MWIR emissivity was estimated by applying the Temperature Independent Spectral Indices (TISI) method to the Visible Infrared Imaging Radiometer Suite (VIIRS) band 4 Day/Night images (3.74 μm in center wavelength). The obtained values were classified according to land-cover types, and the obtained emissivity was then compared with those calculated from a standard Advanced Spaceborne Thermal Emission Reflection Radiometer (ASTER) spectral library. The annual means of MWIR emissivity of Deciduous Broadleaf Forest (0.958) and Mixed Forest (0.935) are higher than those of Croplands (0.925) and Natural Vegetation Mosaics (0.935) by about 2-3%. The annual mean of Urban area is the lowest (0.914) with an annual variation of about 2% which is by larger than those (1%) of other land-covers. The TISI and VIIRS based emissivity is slightly lower than the ASTER spectral library by about 2-3% supposedly due to various reasons such as lack of land cover homogeneity. The results will be used to understand the MWIR emissivity properties of the Korean Peninsula and to examine the seasonal and other environmental changes using MWIR images.

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      참고문헌 (Reference)

      1 Sobrino, J.A., "Toward remote sensing methods for land cover dynamic monitoring: application to Morocco" 21 (21): 353-366, 2000

      2 Snyder, W.C., "Thermal infrared (3-14μm) bidirectional reflectance measurements of sands and soils" 60 (60): 101-109, 1997

      3 Willmes, S., "The microwave emissivity variability of snow covered first-year sea ice from late winter to early summer: a model study" 8 (8): 891-904, 2014

      4 Baldridge, A.M., "The ASTER spectral library version 2.0" 113 (113): 711-715, 2009

      5 Becker, F., "Temperatureindependent spectral indices in thermal infrared bands" 32 (32): 17-33, 1990

      6 Schmugge, T., "Temperature and emissivity separation from multispectral thermal infrared observations" 79 (79): 189-198, 2002

      7 Dash, P., "Separating surface emissivity and temperature using two-channel spectral indices and emissivity composites and comparison with a vegetation fraction method" 96 (96): 1-17, 2005

      8 Boyd, D.S., "Remote sensing of the terrestrial environment using middle infrared radiation (3.0-3.5 μm)" 25 (25): 3343-3368, 2004

      9 Hulley, G.C., "Quantifying uncertainties in land surface temperature and emissivity retrievals from ASTER and MODIS thermal infrared data" 117 (117): 1-18, 2012

      10 Van de Griend, A., "On the relationship between thermal emissivity and the normalized difference vegetation index for natural surfaces" 14 (14): 1119-1131, 1993

      1 Sobrino, J.A., "Toward remote sensing methods for land cover dynamic monitoring: application to Morocco" 21 (21): 353-366, 2000

      2 Snyder, W.C., "Thermal infrared (3-14μm) bidirectional reflectance measurements of sands and soils" 60 (60): 101-109, 1997

      3 Willmes, S., "The microwave emissivity variability of snow covered first-year sea ice from late winter to early summer: a model study" 8 (8): 891-904, 2014

      4 Baldridge, A.M., "The ASTER spectral library version 2.0" 113 (113): 711-715, 2009

      5 Becker, F., "Temperatureindependent spectral indices in thermal infrared bands" 32 (32): 17-33, 1990

      6 Schmugge, T., "Temperature and emissivity separation from multispectral thermal infrared observations" 79 (79): 189-198, 2002

      7 Dash, P., "Separating surface emissivity and temperature using two-channel spectral indices and emissivity composites and comparison with a vegetation fraction method" 96 (96): 1-17, 2005

      8 Boyd, D.S., "Remote sensing of the terrestrial environment using middle infrared radiation (3.0-3.5 μm)" 25 (25): 3343-3368, 2004

      9 Hulley, G.C., "Quantifying uncertainties in land surface temperature and emissivity retrievals from ASTER and MODIS thermal infrared data" 117 (117): 1-18, 2012

      10 Van de Griend, A., "On the relationship between thermal emissivity and the normalized difference vegetation index for natural surfaces" 14 (14): 1119-1131, 1993

      11 Prata, A.J., "Land surface temperatures derived from the advanced very high resolution radiometer and the along-track scanning radiometer: 1. Theory" 98 (98): 16689-16702, 1993

      12 Dash, P., "Land surface temperature and emissivity estimation from passive sensor data: Theory and practice-current trends" 23 (23): 2563-2594, 2002

      13 Petitcolin, F., "Land surface reflectance, emissivity and temperature from MODIS middle and thermal infrared data" 83 (83): 112-134, 2002

      14 Sobrino, J.A., "Land surface emissivity retrieval from different VNIR and TIR sensors" 46 (46): 316-327, 2008

      15 Park, W., "Land Surface Temperature Retrieval from a Space-born Single-Channel Midwavelength Infrares (MWIR)" Yonsei University 2015

      16 Wang, H., "Investigating the impact of soil moisture on thermal infrared emissivity using ASTER data" 12 (12): 294-298, 2015

      17 Shukla, J., "Influence of landsurface evapotranspiration on the earth’s climate" 215 (215): 1498-1501, 1982

      18 Cristóbal, J., "Improvements in land surface temperature retrieval from the Landsat series thermal band using water vapor and air temperature" 114 (114): 103-, 2009

      19 Prakash, S., "Global Land Surface Emissivity Estimation From AMSR2Observations" 13 (13): 1270-1274, 2016

      20 Emami, H., "Fusion Methods for Land Surface Emissivity and Temperature Retrieval of the Landsat Data Continuity Mission Data" 54 (54): 3842-3855, 2016

      21 Avdelidis, N.P., "Emissivity considerations in building thermography" 35 (35): 663-667, 2003

      22 Snyder, W.C., "Classification-based emissivity for land surface temperature measurement from space" 19 (19): 2753-2774, 1998

      23 Nerry, F., "Bidirectional reflectivity in AVHRR channel 3:application to a region in northern Africa" 66 (66): 298-316, 1998

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      연월일 이력구분 이력상세 등재구분
      2027 평가예정 재인증평가 신청대상 (재인증)
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      2011-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2007-01-01 평가 등재학술지 유지 (등재유지) KCI등재
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      외국어명 : Korean Journal of Remote Sensing      		 KCI등재
      2005-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2002-07-01 평가 등재학술지 선정 (등재후보2차) KCI등재
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      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.52 0.52 0.54
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
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