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1

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Internal structure of Io and the global distribution of its topography (1990)

Spohn, T. ; Schubert, G. ; Gaskell, R. W. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: A global topography is presently calculated for two multilayer Io models in which dissipation occurs in a viscous asthenosphere and a solid mantle: (1) a 'thermal swell' model, in which topography and heat flow are positively correlated, and (2) a 'differentiated lithosphere' model, in which topography and heat flow are negatively correlated. Both the polar topography and the hypsometric distribution of elevations in the differentiated lithosphere model are better matched with observations than the thermal swell model. The shift of the equatorial basin-swell pattern indicates a recent zonal rotation of about 25 deg for Io's lithosphere.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Icarus (ISSN 0019-1035); 85; 309-325

Format: text

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2

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Digital identification of cartographic control points (1988)

Gaskell, R. W.

In: Other Sources

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Publication Date: 2011-08-19

Description: Techniques have been developed for the sub-pixel location of control points in satellite images returned by the Voyager spacecraft. The procedure uses digital imaging data in the neighborhood of the point to form a multipicture model of a piece of the surface. Comparison of this model with the digital image in each picture determines the control point locations to about a tenth of a pixel. At this level of precision, previously insignificant effects must be considered, including chromatic aberration, high level imaging distortions, and systematic errors due to navigation uncertainties. Use of these methods in the study of Jupiter's satellite Io has proven very fruitful.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: Photogrammetric Engineering and Remote Sensing (ISSN 0099-1112); 54; 723-727

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3

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Martian surface simulations (1992)

Gaskell, R. W.

In: CASI

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Publication Date: 2013-08-29

Description: Current scenarios for a Mars landing involve the extensive analysis of the surface near the landing site. Pinpoint landing, for example, requires a detailed mapping of the area from orbit for landmark identification and landing site selection, and the use by the lander of its own imaging data to recognize these landmarks and to guide itself safely to the surface. Hazard avoidance requires sufficient orbital imaging to ensure that safe landing sites exist, with the lander using its sensory data to find one of them. Once on the surface, a rover must be able to avoid or surmount obstacles, travel across surfaces with varying compositions and slopes, and navigate to a desired destination. Computer simulated Martian surfaces are being constructed to aid in the development of these exploration technologies. These surface simulations attempt to mimic the specific geologic episodes that built the surface, such as cratering, lava flows, and aeolian activity. Each episode takes a preexisting surface as a starting point, alters it in some way, and stores the new surface for further processing. This modular construction makes it possible for new processes to be included without altering existing software.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Lunar and Planetary Inst., Workshop on the Martian Surface and Atmosphere Through Time; p 57-58

Format: text

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4

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Large scale topography of Io (1987)

Synnott, S. P. ; Gaskell, R. W.

In: CASI

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Publication Date: 2013-08-31

Description: To investigate the large scale topography of the Jovian satellite Io, both limb observations and stereographic techniques applied to landmarks are used. The raw data for this study consists of Voyager 1 images of Io, 800x800 arrays of picture elements each of which can take on 256 possible brightness values. In analyzing this data it was necessary to identify and locate landmarks and limb points on the raw images, remove the image distortions caused by the camera electronics and translate the corrected locations into positions relative to a reference geoid. Minimizing the uncertainty in the corrected locations is crucial to the success of this project. In the highest resolution frames, an error of a tenth of a pixel in image space location can lead to a 300 m error in true location. In the lowest resolution frames, the same error can lead to an uncertainty of several km.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: NASA, Washington, Reports of Planetary Geology and Geophysics Program, 1986; p 522-523

Format: application/pdf

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5

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Autonomous precision landing using terrain-following navigation (1991)

Klumpp, A. R. ; Vaughan, R. M. ; Synnott, S. P. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Terrain-following navigation studies that have been done over the past two years in the navigation system section at JPL are described. A descent to Mars scenario based on Mars Rover and Sample Return mission profiles is described, and navigation and image processing issues pertaining to descent phases where landmark picture can be obtained are examined. A covariance analysis is performed to verify that landmark measurements from a terrain-following navigation system can satisfy precision landing requirements. Image processing problems involving known landmarks in actual pictures are considered. Mission design alternatives that can alleviate some of these problems are suggested.

Keywords: LAUNCH VEHICLES AND SPACE VEHICLES

Type: AAS PAPER 91-137 , In: Spaceflight mechanics 1991; Proceedings of the 1st AAS(AIAA Annual Spaceflight Mechanics Meeting, Houston, TX, Feb. 11-13, 1991. Pt. 1 (A93-17901 05-13); p. 57-75.

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6

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Three dimensional landmark templates (2002)

Gaskell, R. W.

In: Other Sources

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Publication Date: 2018-06-08

Description: Three-dimensional surface templates are being used to identify and locate landmarks on Mars and Phobos. They can be aligned both with images and the MOLA map to help tie these two data types together. The Martian templates form a control network of well-defined and easily identified landmarks.

Type: AGU 2002 Fall Meeting; San Francisco, CA; United States

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7

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Optical-only determination of small body shape and topography (2003)

Gaskell, R. W.

In: Other Sources

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Publication Date: 2018-06-08

Type: ISPRS WG IV/9 Extraterrestrial Mapping Workshop; Houston, TX; United States

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8

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Optical-only determination of small body shape and topography (2003)

Gaskell, R. W.

In: Other Sources

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Publication Date: 2018-06-08

Type: ISPRS WG IV/9 Extraterrestrial Mapping Workshop; Houston, TX; United States

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9

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Detailed shape and topography of Phobos (2003)

Gaskell, R. W.

In: Other Sources

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Publication Date: 2018-06-08

Type: 34th Lunar and Planetary Science Conference; Houston, TX; United States

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10

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The Dawn Topography Investigation (2011)

Zuber, M. T. ; Roatsch, T. ; Gaskell, R. W. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The objective of the Dawn topography investigation is to derive the detailed shapes of 4 Vesta and 1 Ceres in order to create orthorectified image mosaics for geologic interpretation, as well as to study the asteroids' landforms, interior structure, and the processes that have modified their surfaces over geologic time. In this paper we describe our approaches for producing shape models, plans for acquiring the needed image data for Vesta, and the results of a numerical simulation of the Vesta mapping campaign that quantify the expected accuracy of our results. Multi-angle images obtained by Dawn's framing camera will be used to create topographic models with 100 m/pixel horizontal resolution and 10 m height accuracy at Vesta, and 200 m/pixel horizontal resolution and 20 m height accuracy at Ceres. Two different techniques, stereophotogrammetry and stereophotoclinometry, are employed to model the shape; these models will be merged with the asteroidal gravity fields obtained by Dawn to produce geodetically controlled topographic models for each body. The resulting digital topography models, together with the gravity data, will reveal the tectonic, volcanic and impact history of Vesta, and enable co-registration of data sets to determine Vesta's geologic history. At Ceres, the topography will likely reveal much about processes of surface modification as well as the internal structure and evolution of this dwarf planet.

Keywords: Lunar and Planetary Science and Exploration

Type: GSFC-E-DAA-TN9315 , Space Science Review (ISSN 0038-6308); 163; 4-Jan; 487-510

Format: application/pdf

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