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radiometer造句
31. The topography is from digital elevation data collected by the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) on NASA's Terra satellite. 32. The Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) on NASA's Terra satellite captured this false-color image of the landslide lake on the Hunza River on May 2, 2010. 33. The calibration noise sources of microwave radiometer. gives a quantitative noise power. They are an important and necessary part in calibration of microwave radiometer. 34. The Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) on NASA's Terra satellite captured these false-color images before and after the tsunami. 35. Because of the radiometer provides data can get real's control procedures. 36. In the low SNR condition of radiometer, the usual generalized solution of the inverse problem may be completely corrupted by noise and therefore completely deprived of the exact solution. 37. The operation principle and calibration of W-band K-factor total power radiometer are also discussed; moreover, the sources of the measurements and analysis errors are also analyzed. 38. A broadband infrared grating scan spectral radiometer, whose measurement range is 1~20 μ m, has been developed. 39. Strato - mesospheric measurements of carbon monoxide with the Odin Sub - Millimetre Radiometer : Retrieval and first results. 40. MODIS and Advanced Microwave Scanning Radiometer - Earth Observing System ( AMSR - E ) supplies different methods of snow detection. 41. The Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) on the Terra satellite acquired this false-color image of the landslide lake on June 1, 2010 - now 16km (10 mi) long. 42. The Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) on NASA's Terra satellite acquired this image at 1:50 p.m. local time on April 19. 43. The millimeter wave radiometer passive detection technique is applied in the important fields, sush as homing guidance in anti-armour missile and smart bomb. 44. The mid - resolution a conical scanning total power radiometer a fixed visual angle and double - reference temperature. 45. The signal processing techniques of infrared spectrum radiometer for detecting spatial objects was investigated. 46. Synthetic aperture technology is introduced to microwave radiometer in order to improve the space resolution. 47. The Advanced Spaceborne Thermal Emission and Reflection Radiometer(ASTER) on NASA's Terra satellite captured this false-color image of Chiyli Crater on October 10, 2007. 48. As a result, some instructive suggestions about the selections of detectors for microwave radiometer are given. 49. In this paper, some basic considerations about the stealthy target detection by microwave radiometer are studied. 50. Then the radiometer antenna temperature of coating stealth material was modeled. 51. The structure and the choice of parameters of the radiometer are emphasized. 52. In this paper, digital multi - beam microwave radiometer is introduced. 53. Firstly, based on the calibration and measurement research of the microwave radiometer, this thesis analyses the character of the reverse-direction radiating noise temperature. 54. The impacts of receivers rectangular frequency response imperfections on the complex correlation measurement of 2D aperture synthesis microwave radiometer were presented. 55. By means of introducing transcendental information, the low frequency compensation of the alternating current(AC) signal of the scanning millimeter wave(MMW) total power radiometer is researched. 56. This paper presents a way of inverse-direction radiating noise temperature calculation in microwave radiometer receiver. And two methods are given to reduce the radiating noise. 57. Measurements can be made with an infrared radiometer. Blackbody radiation at the same temperature of the object is obtained using a cylindrical direct reflection cavity. 58. The trap based filter radiometer is a key unit of new optical radiometric standard detectors, and has potential applications in radiometric calibration of field, air borne and space borne sensors. 59. The signal given by the antenna of spaceborne microwave radiometer is a wide band noise power signal.