thermal image
2.THE SATELLITE THERMAL INFRARED IMAGE AND EARTHQUAKE PRECURSORY ANOMALY——INSPIRATION FROMTHERMAL INFRARED IMAGE PRIOR TO LANCANG EARTHQUAKE
3.Study of fracture propagation in fractured rocks under the effects of coupled thermal-hydrologic-mechanical (THM) using digital image processing
4.The results indicates that the cubic logarithm polynomials can accurately reconstruct the raw thermal images in the experiment, and can effectively suppress the interference to defect recognition caused by random noise and uneven heating in the PT testing of composite laminates; the digital images from data reconstruction have clearer defect display or higher defect resolution than the raw thermal images, and the quadratic coefficient image of cubic logarithm regression shows the highest SNR.
6.DEVELOPMENT OF MICROCOMPUTER IMAGE PROCESSING AND ANALY-ZING SYSTEM FOR THE MR-1 THERMAL IMAGER
7.Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) level-lA visible image is executed atmospheric correction using two atmospheric radiative transfer model, 6S(Second Simulation of Satellite Signal in the Solar Spectrum) and SBDART (Santa Barbara DISORT Atmospheric Radiative Transfer). The plane-parallel atmospheric model is validated in the high-latitude Antarctica.
8.Theory analysis and reflective deflection method ofnondestructive detection deep defects in solid sheet materials using thermal lens effect induced by laser beam on surface of the solid are described.Three dimension image and grey image of defects which abtained by processing of two dimension scanning signals using computer are displayed.It is shown that the deep detecting defects is decreasing with increasing of modulation frequency of pump beam and detecting deepness is deeper by phase signals as compared with by amplitude signals,Which is coincident with prediction by theory analysis.
9.After 15 minexposure,some cells become condensed and shrunken entirely from outer segmentdown to synapse. 30 rain exposure causes necrosis and fusion of the receptor andthe pigment epithelium layer. Following the thermal model of Clarence and Clarke,calculation showed thetemperature elevations in the area of image due to DS_6Ⅱ and DS_4 lamp are res-pectivdy 2℃ and 10.4℃.
