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An economic analysis of five selected LANDSAT assisted information systems in Oregon (1979)

Maher, K. M. ; Solomon, S.

In: CASI

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Publication Date: 2019-06-27

Description: A comparative cost analysis was performed on five LANDSAT-based information systems. In all cases, the LANDSAT system was found to have cost advantages over its alternative. The information sets generated by LANDSAT and the alternative method are not identical but are comparable in terms of satisfying the needs of the sponsor. The information obtained from the LANDSAT system in some cases is said to lack precision and detail. On the other hand, it was found to be superior in terms of providing information on areas that are inaccessible and unobtainable through conventional means. There is therefore a trade-off between precision and detail, and considerations of costs. The projects examined were concerned with locating irrigation circles in Morrow County; monitoring tansy ragwort infestation; inventoring old growth Douglas fir near Spotted Owl habitats; inventoring vegetation and resources in all state-owned lands; and determining and use for Columbia River water policies.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: NASA-CR-162434 , BCL-OA-TFR-79-5

Format: application/pdf

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MESSENGER Observation of Mercury's Magnetopause: Structure and Dynamics (2008)

Slavin, J. A. ; Gold, R. E. ; Raines, J. M. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-19

Description: MESSENGER'S 14 January 2008 encounter with Mercury has provided new observations of the magnetopause of this small magnetosphere, particularly concerning the effect of the direction of the interplanetary magnetic field (IMF) on the structure and dynamics of this boundary. The IMF was northward immediately prior to and following the passage of the MESSENGER spacecraft through Mercury's magnetosphere. However, several-minute episodes of southward IMF were observed in the magnetosheath during the inbound portion of the encounter. Evidence for reconnection at the dayside magnetopause in the form of well-developed flux transfer events (FTEs) was observed in the magnetosheath following some of these southward-B, intervals. The inbound magnetopause crossing seen in the magnetic field measurements is consistent with a transition from the magnetosheath into the plasma sheet. Immediately following MESSENGER'S entry into the magnetosphere, rotational perturbations in the magnetic field similar to those seen at the Earth in association with large-scale plasma sheet vortices driven by Kelvin-Helmholtz waves along the magnetotail boundary at the Earth were observed. The outbound magnetopause occurred during northward IMF B(sub z) and had the characteristics of a tangential discontinuity. These new observations by MESSENGER may be combined and compared with the magnetopause measurements collected by Mariner 10 to derive new understanding of the response of Mercury's magnetopause to IMF direction and its effect on the rate of solar wind energy and mass input to this small magnetosphere.

Keywords: Space Sciences (General)

Format: text

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Quantifying the Storm Time Thermospheric Neutral Density Variations Using Model and Observations (2019)

Eyiguler, E. Ceren Kalafatoglu ; Sutton, E. K. ; Kaymaz, Z. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-12

Description: Accurate determination of thermospheric neutral density holds crucial importance for satellited rag calculations. The problem is twofold and involves the correct estimation of the quiet time climatology and storm time variations. In this work, neutral density estimations from two empirical and threephysics based models of the ionosphere thermosphere are compared with the neutral densities along the Challenging MicroSatellite Payload satellite track for six geomagnetic storms. Storm time variations are extracted from neutral density by (1) subtracting the mean difference between model and observation (bias),(2) setting climatological variations to zero, and (3) multiplying model data with the quiet time ratio between the model and observation. Several metrics are employed to evaluate the model performances. We find that the removal of bias or climatology reveals actual performance of the model in simulating the storm time variations. When bias is removed, depending on event and model, storm time errors in neutral density can decrease by an amount of 113% or can increase by an amount of 12% with respect to error in models with quiet time bias. It is shown that using only average and maximum values of neutral density to determine the model performances can be misleading since a model can estimate the averages fairly well but may not capture the maximum value or vice versa. Since each of the metrics used for determining model performances provides different aspects of the error, among these, we suggest employing mean absolute error, prediction efficiency, and normalized root mean square error together as a standard set ofmetrics for the neutral density.

Keywords: Space Sciences (General)

Type: GSFC-E-DAA-TN70226 , Space Weather (ISSN 1539-4956) (e-ISSN 1542-7390); 17; 2; 269-284

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4

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Tectonic stress: Models and magnitudes (1979)

Richardson, R. M. ; Solomon, S. C. ; Bergman, E. A.

In: CASI

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Publication Date: 2019-07-13

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

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: E79-10296 , NASA-CR-162327 , USGS Conf. on the Magnitude of Deviatoric Stresses in the Earth''s Crust and Upper Mantle; Jul 29, 1979 - Aug 02, 1979; Carmel, CA; United States

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Mercury's Na Exosphere from MESSENGER Data (2012)

Vervack, R. J. ; Sprague, A. L. ; Burger, M. H. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-19

Description: MESSENGER entered orbit about Mercury on March 18, 2011. Since then, the Ultraviolet and Visible Spectrometer (UWS) channel of MESSENGER's Mercury Atmospheric and Surface Composition Spectrometer (MASCS) has been observing Mercury's exosphere nearly continuously. Daily measurements of Na brightness were fitted with non-uniform exospheric models. With Monte Carlo sampling we traced the trajectories of a representative number of test particles, generally one million per run per source process, until photoionization, escape from the gravitational well, or permanent sticking at the surface removed the atom from the simulation. Atoms were assumed to partially thermally accommodate on each encounter with the surface with accommodation coefficient 0.25. Runs for different assumed source processes are run separately, scaled and co-added. Once these model results were saved onto a 3D grid, we ran lines of sight from the MESSENGER spacecraft :0 infinity using the SPICE kernels and we computed brightness integrals. Note that only particles that contribute to the measurement can be constrained with our method. Atoms and molecules produced on the nightside must escape the shadow in order to scatter light if the excitation process is resonant-light scattering, as assumed here. The aggregate distribution of Na atoms fits a 1200 K gas, with a PSD distribution, along with a hotter component. Our models constrain the hot component, assumed to be impact vaporization, to be emitted with a 2500 K Maxwellian. Most orbits show a dawnside enhancement in the hot component broadly spread over the leading hemisphere. However, on some dates there is no dawn/dusk asymmetry. The portion of the hot/cold source appears to be highly variable.

Keywords: Space Sciences (General)

Type: GSFC.ABS.7431.2012 , Division for Planetary Sciences Meeting; Oct 14, 2012 - Oct 19, 2012; Reno, NV; United States

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