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1

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The system and hardware design of real-time fan beam scatterometer data processors (1979)

Clark, B. V. ; Newton, R. W. ; Stroud, R. O. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: There are no author-identified significant results in this report.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: E80-10028 , NASA-CR-160350 , RSC-3556

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2

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Skylab S-193 Radscat microwave measurements of sea surface winds (1975)

Chan, H. L. ; Moore, R. K. ; Afarani, M. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: The S-193 Radscat made extensive measurements of many sea conditions. Measurements were taken in a tropical hurricane (Ava), a tropical storm (Christine), and in portions of extratropical cyclones. Approximately 200 scans of ocean data at 105 kilometer spacings were taken during the first two Skylab missions and another 200 during the final mission when the characteristics of the measurements changed due to damage of the antenna. Backscatter with four transmit/receive polarization combinations and emissions with horizontal and vertical receive polarizations were measured. Other surface parameters investigated for correlation with the measurements included sea temperature, air/sea temperature difference, and gravity-wave spectrum. Methods were developed to correct the microwave measurements for atmospheric effects. The radiometric data were corrected accurately for clear sky and light cloud conditions only. The radiometer measurements were used to recover the surface scattering characteristics for all atmospheric conditions excluding rain. The radiometer measurements also detected the presence of rain which signaled when the scattering measurement should not be used for surface wind estimation. Regression analysis was used to determine empirically the relation between surface parameters and the microwave measurements, after correction for atmospheric effects. Results indicate a relationship approaching square-law at 50 deg between differential scattering coefficient and wind speed with horizontally polarized scattering data showing slightly more sensitivity to wind speed than vertically polarized data.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: M-3 , NASA. Lyndon B. Johnson Space Center NASA Earth Resources Surv. Symp., Vol. 1-C; p 1937-1952

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3

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AAFE RADSCAT data reduction programs user's guide (1976)

Claassen, J. P.

In: CASI

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Publication Date: 2019-06-27

Description: Theory, design and operation of the computer programs which automate the reduction of joint radiometer and scatterometer observations are presented. The programs reduce scatterometer measurements to the normalized scattering coefficient; whereas the radiometer measurements are converted into antenna temperatures. The programs are both investigator and user oriented. Supplementary parameters are provided to aid in the interpretation of the observations. A hierarchy of diagnostics is available to evaluate the operation of the instrument, the conduct of the experiments and the quality of the records. General descriptions of the programs and their data products are also presented. This document therefore serves as a user's guide to the programs and is therefore intended to serve both the experimenter and the program operator.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: NASA-CR-144992 , CRES-TR-186-9

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4

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Radar systems for a polar mission, volume 2 (1976)

Mcmillan, S. B. ; Erickson, R. L. ; Parashar, S. K. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: For abstract, see N77-28560.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: NASA-CR-152511 , RSL-TR-291-2-VOL-2

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5

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Radar systems for the water resources mission, volume 1 (1976)

Claassen, J. P. ; Erickson, R. L. ; Komen, M. J. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: The state of the art determination was made for radar measurement of: soil moisture, snow, standing and flowing water, lake and river ice, determination of required spacecraft radar parameters, study of synthetic-aperture radar systems to meet these parametric requirements, and study of techniques for on-board processing of the radar data. Significant new concepts developed include the following: scanning synthetic-aperture radar to achieve wide-swath coverage; single-sideband radar; and comb-filter range-sequential, range-offset SAR processing. The state of the art in radar measurement of water resources parameters is outlined. The feasibility for immediate development of a spacecraft water resources SAR was established. Numerous candidates for the on-board processor were examined.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: NASA-CR-152424 , RSL-TR-295-3-VOL-1

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6

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Radar systems for a polar mission, volume 1 (1977)

Fong, R. K. T. ; Komen, M. J. ; Mcmillan, S. B. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: The application of synthetic aperture radar (SAR) in monitoring and managing earth resources is examined. Synthetic aperture radars form a class of side-looking airborne radar, often referred to as coherent SLAR, which permits fine-resolution radar imagery to be generated at long operating ranges by the use of signal processing techniques. By orienting the antenna beam orthogonal to the motion of the spacecraft carrying the radar, a one-dimensional imagery ray system is converted into a two-dimensional or terrain imaging system. The radar's ability to distinguish - or resolve - closely spaced transverse objects is determined by the length of the pulse. The transmitter components receivers, and the mixer are described in details.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: NASA-CR-152510 , RSL-TR-291-2-VOL-1

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7

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Radar systems for the water resources mission, volume 3 (1976)

Parashar, S. K. ; Fong, R. K. T. ; Moore, R. K. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: Recent work was reviewed in the field of remote sensing relative to soil moisture. The target parameters were recognized that are necessary if optimum data retrieval is to be realized, and proper sensor instrumentation was recommended to achieve this goal.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: NASA-CR-152426 , RSL-TR-295-3-VOL-3

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8

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Radar systems for the water resources mission. Volume 4: Appendices E-I (1976)

Komen, M. J. ; Fong, R. K. T. ; Parashar, S. K. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: The use of a scanning antenna beam for a synthetic aperture system was examined. When the resolution required was modest, the radar did not use all the time the beam was passing a given point on the ground to build a synthetic aperture, so time was available to scan the beam to other positions and build several images at different ranges. The scanning synthetic-aperture radar (SCANSAR) could achieve swathwidths of well over 100 km with modest antenna size. Design considerations for a SCANSAR for hydrologic parameter observation are presented. Because of the high sensitivity to soil moisture at angles of incidence near vertical, a 7 to 22 deg swath was considered for that application. For snow and ice monitoring, a 22 to 37 deg scan was used. Frequencies from X-band to L-band were used in the design studies, but the proposed system operated in C-band at 4.75 GHz. It achieved an azimuth resolution of about 50 meters at all angles, with a range resolution varying from 150 meters at 7 deg to 31 meters at 37 deg. The antenna required an aperture of 3 x 4.16 meters, and the average transmitter power was under 2 watts.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: NASA-CR-152427 , RSL-TR-295-3-VOL-4-APP

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9

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Radar systems for the water resources mission, volume 2 (1976)

Parashar, S. K. ; Moore, R. K. ; Claassen, J. P. ; [et al.]

In: CASI

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Publication Date: 2019-06-27

Description: The application of synthetic aperture radar (SAR) in monitoring and managing earth resources was examined. The function of spaceborne radar is to provide maps and map imagery to be used for earth resource and oceanographic applications. Spaceborne radar has the capability of mapping the entire United States regardless of inclement weather; however, the imagery must have a high degree of resolution to be meaningful. Attaining this resolution is possible with the SAR system. Imagery of the required quality must first meet mission parameters in the following areas: antenna patterns, azimuth and range ambiguities, coverage, and angle of incidence.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: NASA-CR-152425 , RSL-TR-295-3-VOL-2

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