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Notice of Retraction Research on the thermal infrared brightness temperature of the 2008 Ms7.3 earthquake in Yutian, Xinjiang of China
2010 Edition, Volume 1, August 1, 2010 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

This article has been retracted by the publisher.

Thermal infrared variation associated with strong earthquakes in Xinjiang using satellite data
2016 Edition, July 1, 2016 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

NOAA outgoing longwave radiation (OLR) data associated with five earthquakes (M > 6.0) in the Xinjiang area of China between 2008 and 2014 were analyzed in this research. The results of spatio-temporal analysis...

Evaluation of two kernel-driven models for estimating directional brightness temperature in the thermal infrared
2017 Edition, July 1, 2017 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

Directional anisotropy limits the application of land surface temperature (LST) and a simplified parametric model to effectively estimate directional brightness temperature (DBT) in the thermal infrared is critical. This study used a...

GEOSS-Based Thermal Parameters Analysis for Earthquake Anomaly Recognition
2012 Edition, Volume 100, October 1, 2012 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

Although earthquakes are difficult to be predicted because of the complexity of the Earth system and the uncertainty of seismogenic processes, GEOSS provides multiple sources of observation data and brings a possibility to extract a...

Study on Short-Term and Imminent Earthquake Prediction Using the Satellite Thermal Infrared Technique
2009 Edition, November 1, 2009 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

This paper provides a brief description of the basic principles of satellite thermal infrared brightness temperature anomaly and overview of the meteorological satellite, analyzes the building of the remote sensing...

Detection of Anomaly Temperature Based on ASTER and ETM+ Thermal Infrared Image
2008 Edition, Volume 6, December 1, 2008 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

Thermal remote sensing is an important field in research of remote sensing. The authors performed a verification study on the brightness temperature derived from thermal infrared band image data of...

Brightness Temperature Computation of Microwave Calibration Targets
Volume PP - IEEE - Institute of Electrical and Electronics Engineers, Inc.

A rigorous numerical technique to compute the brightness temperature of arbitrarily shaped microwave calibration targets is presented. The proposed method allows the brightness temperature of calibration targets to be investigated...

Estimation of heat and mass fluxes from IR brightness temperature
1996 Edition, Volume 34, September 1, 1996 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

Soil-vegetation-atmosphere transfer models have been developed to simulate mass and energy exchanges between vegetation canopies, the soil, and the atmosphere. They may be used in conjunction with remote sensing data through inversion procedures. In this study,...

Modeling of Land Surface Thermal Anisotropy Based on Directional and Equivalent Brightness Temperatures Over Complex Terrain
2019 Edition, Volume 12, February 1, 2019 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

Rugged terrain, as a large percentage of the Earth's terrestrial surface, is frequently reported to cause directionality of land surface thermal radiation (LSTR), and seriously affects the retrieval accuracy of land surface temperature (LST) and...

Analysis on the impact of geothermal exploitation on ground temperature with thermal infrared remote sensing technology
2011 Edition, Volume 4, May 1, 2011 - IEEE - Institute of Electrical and Electronics Engineers, Inc.

The paper analyzes the impact of geothermal exploitation in Dongda region of Guanzhong Basin on ground temperature by means of thermal infrared remote sensing technology and brightness temperature method. Through...

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