Effect Analysis of Spatial Resolution of Infrared Channels on Fire Point Monitoring Application

Ya-jun LI; Wei ZHENG; Jie CHEN; Shi-hao TANG; Cheng LIU

doi:10.3969/j.issn.1672-8785.2021.09.005

Journals >INFRARED >Volume 42 >Issue 9 >Page 30 > Article

INFRARED
Vol. 42, Issue 9, 30 (2021)

Effect Analysis of Spatial Resolution of Infrared Channels on Fire Point Monitoring Application

Ya-jun LI, Wei ZHENG^*, Jie CHEN, Shi-hao TANG, and Cheng LIU

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[in Chinese]

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DOI: 10.3969/j.issn.1672-8785.2021.09.005 Cite this Article

LI Ya-jun, ZHENG Wei, CHEN Jie, TANG Shi-hao, LIU Cheng. Effect Analysis of Spatial Resolution of Infrared Channels on Fire Point Monitoring Application[J]. INFRARED, 2021, 42(9): 30 Copy Citation Text

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References

[1] Matson M, Schneider S R. Fire Detection Using the NOAA-Series Satellite[R]. NOAA Technical Report NESDIS 7, 1984.

[2] Zhang J J， Zhang Q S， Dian C G， et al． Detection of forest fire in Da Hinggan Ling Region by meteorological satellite[J]． Acta Meteorological Sinica， 1989， 3(4): 562-568．

[3] Kaufman Y J, Kleidman R, King M D. SCAR-B Fires in the Tropics: properties and remote sensing from EOS-MODIS[J].Journal of Geophysical Research, 1998, 103: 31955-31968.

[6] Hassini A， Benabdelouahed F． Active fire monitoring with level 1.5 MSG satellite images[J]． American Journal of Applied Sciences， 2009， 6(1): 157-166.

[11] Giglio L， Descloitres J， Justice C O， et al． An enhanced contextual fire detection algorithm for MODIS[J]． Remote Sensing of Environment， 2003，87: 273-282．

[12] Dozier J. A method for satellite identification of surface temperature fields of sub-pixel resolution[J]. Remote Sensing of Environment, 1982, 11: 221-229.

LI Ya-jun, ZHENG Wei, CHEN Jie, TANG Shi-hao, LIU Cheng. Effect Analysis of Spatial Resolution of Infrared Channels on Fire Point Monitoring Application[J]. INFRARED, 2021, 42(9): 30

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