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MDIM 2.1: Mars Global Digital Image MosaicOverview | Download Data | References | Credits | Coming Soon | Contact Us || Home |
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Overview
![[Click to go to the data download page for the Coprates quad]](assets/images/closeup.jpg)
Portion of the Coprates quad, which includes Valles Marineris. Go to View & Download Data to preview and download the image mosaic. |
The product available on this page is a global image map of Mars with a resolution of 256 pixels/degree (scale approximately 231 m/pixel at the equator). The black-and-white mosaic is processed to emphasize local topographic features. This mosaic, known as Mars Digital Image Model (MDIM) 2.1, replaces two earlier mosaics produced by the USGS from the same set of approximately 4600 Viking Orbiter images. The positional accuracy of features in MDIM 2.1 is estimated to be roughly one pixel (200 m), compared to 3 km for MDIM 2.0 released in 2001 and >6 km for MDIM 1.0 released in 1991. In addition to relatively imprecise geodetic control, the previous mosaics were affected by changing definitions of cartographic parameters (such as the definition of zero longitude), resulting in an overall longitude shift of as much as 0.2° between the early MDIMs and other datasets. The new mosaic uses the most recent coordinate system definitions for Mars. These definitions have been widely adopted by NASA missions and other users of planetary data and are likely to remain in use for a decade or more. As a result, MDIM 2.1 not only registers precisely with data from current missions such as MGS and 2001 Mars Odyssey but will serve as an accurate basemap on which data from future missions can be plotted.
The basis for the positional accuracy of MDIM 2.1 is the incorporation of all images in the mosaic into the evolving USGS/RAND global control network of Mars. The primary reason for the greatly improved absolute accuracy of the current version of this network is the incorporation of 1232 globally distributed "ground control points" whose latitude and longitude were constrained to values measured from Mars Orbiter Laser Altimeter (MOLA) data. The globally adjusted MOLA dataset has an absolute horizontal accuracy on the order of 100 m, but individual features in images can probably only be tied to MOLA-derived shaded-relief digital image models with a precision on the order of 200 m. Other, lesser contributors to the accuracy of the control solution and mosaic are the use of MOLA-derived elevations for all 37,652 control points, use of updated timing and orientation data for the Viking Orbiter spacecraft, improved measurements of reseau locations in the images leading to more accurate correction of image distortions, and careful checking and remeasurement of control points with large solution residuals. The mosaic is also orthorectified based on the MOLA elevation data, so that parallax distortions present in the earlier versions are eliminated. The root-mean-squared (RMS) error of the control solution is 16 micrometers (1.4 Viking image pixels, or ~300 m on the ground). Visual inspection of the mosaic indicates that both image-to-image seam mismatches and image-to-MOLA registration errors are less than one pixel almost everywhere, with maximum errors on the order of 4 pixels (1 km) occurring in only a few locations.
The cartographic constants used in MDIM 2.1 are those adopted by the IAU/IAG in 2000, which have been adopted by the majority of Mars missions and instrument teams. Coordinates (e.g., of the boundaries and centers of the individual files or map quadrangles making up the mosaic) are given in terms of east longitude and planetocentric latitude. The files in cylindrical (Equirectangular) map projection are also constructed so that lines of the map raster are equally spaced in planetocentric latitude. These files will thus register with other datasets based on planetocentric latitude either as-is or after a simple change of scale, but must be resampled in order to register to datasets based on planetographic latitude. The global mosaic is divided into 30 regions based on the USGS Mars Chart (MC) series of 1:5,000,000-scale printed maps. All regions are available in Equirectangular projection, which is a generalization of the more familiar Simple Cylindrical projection. Quadrangles 2-29 are provided only in Equirectangular, with center latitude of projection 0° this projection is identical to Simple Cylindrical. The polar quadrangles 1 and 30 are available in two Equirectangular sections with center latitudes of projection ±60° and ±75.52248781° respectively, and also as a single file in Polar Stereographic projection. The two Equirectangular sections of the polar quadrangles can be converted to center latitude of projection 0° (or equivalently to Simple Cylindrical projection) by 2:1 and 4:1 enlargement in the sample direction, respectively, after which they can be merged with the lower latitude data.
The images used to make MDIM 2.1 were obtained primarily through the red, clear, and minus-blue filters of the Viking Orbiter imaging system, and thus provide a monochromatic view of Mars weighted toward the red end of the visible spectrum. Images were obtained with a wide range of solar incidence angles. It is unfortunately not possible to correct the appearance of both albedo (reflectivity) variations and topographic features for these incidence angle variations simultaneously. The images have therefore been highpass-filtered at a scale of ~50 km to remove regional albedo variations and then normalized so that equal topographic slopes appear with equal contrast everywhere. Photometric processing for MDIM 2.1 incorporates a model of the transmission and scattering of light in the atmosphere that is substantially improved over that used in MDIM 2.0. Residual tonal mismatches between different images after photometric correction were corrected based on a least-squares adjustment of image brightness and contrast. Because of these photometric and cosmetic improvements, it was possible to use a less severe highpass filter than for MDIM 2.0, improving the overall apparance of the mosaic.
See the USGS Planetary GIS Discussions for questions and answers about the equirectangular projection, image resolution, and using the data distributed on this site.
View & Download Data
Click a region below to view the available downloads for that region. Data are available in JPEG and Isis Cube formats. Poles (MC-1 and MC-30) are projected in polar stereographic. All other quads are projected in simple cylindrical. The coordinate system is planetocentric latitude with east longitude. See "Coming Soon" for a list of planned additions and upgrades.
References
Links open in a new window. Most links are to files in PDF format. Adobe Acrobat Reader (free download) can be used to view files in PDF format.
Publications
Archinal, B. A., Kirk, R. L., Duxbury, T. C., Lee, E. M., Sucharski, R., and Cook, D., 2003, Mars Digital Image Model (MDIM) 2.1 control network, ISPRS Working Group IV/9 Workshop "Advances in Planetary Mapping 2003", Houston, March 2003. (PDF: 285k)
Archinal, B. A., Colvin, T. R., Davies, M. E., Kirk, R. L., Duxbury, T. C., Lee, E. M., Cook, D., and Gitlin, A. R., 2002, A MOLA-controlled RAND-USGS control network for Mars (abs.), Lunar Planet. Sci., XXXIII, Abstract #1632, Lunar and Planetary Institute, Houston (CD-ROM). (PDF: 110k)
Archinal, B. A., Davies, M. E., Colvin, T. R., Becker, T. L., Kirk, R. L., and Gitlin, A. R., 2001, Improving the RAND-USGS control network for Io, ISPRS Working Group IV/9 Workshop "Planetary Mapping 2001". (PDF: 2.1M)
Archinal, B. A., Kirk, R. L., Duxbury, T. C., Lee, E. M., Sucharski, R., Cook, D., 2003, Mars Digital Image Model 2.1 control network (abs.), Lunar Planet. Sci., XXXIV, Abstract #1485, Lunar and Planetary Institute, Houston (CD-ROM). (PDF: 165k)
Davies, M. E., Colvin, T. R., Kirk, R., Lee, E., Sucharski, R., and Duxbury, T., 1999, The RAND-USGS control network of Mars and the martian prime meridian (abs.), Eos Trans. AGU, v. 80, suppl., F615.
Davies, M., Colvin, T., Kirk, R., Lee, E., and Sucharski, R., 1999, Status of the RAND-USGS control network of Mars (abs.), in The Fifth International Conference on Mars., Abstract #6049, LPI Contribution No. 972, Lunar and Planetary Institute, Houston (CD-ROM). (PDF: 7k)
Duxbury, T. C., Kirk, R. L., Archinal., B. A., and Neumann, G. A., 2001, Mars Geodesy/Cartography Working Group recommendations on Mars cartographic constants and coordinate systems, ISPRS Working Group IV/9 Workshop "Planetary Mapping 2001". (PDF: 60k)
Kirk, R. L., Archinal, B. A., Lee, E. M., Davies, M. E., Colvin, T. R., and Duxbury, T. C., 2001, Global image mosaics of Mars: Assessment of geodetic accuracy (abs.), Lunar Planet. Sci., XXXII, Abstract #1856, Lunar and Planetary Institute, Houston (CD-ROM). (PDF: 230k)
Kirk, R., Becker, K., Cook, D., Hare, T., Howington-Kraus, E., Isbell, C., Lee, E., Rosanova, T., Soderblom, L., Sucharski, T., Thompson, K., Davies, M., Colvin, T., and Parker, T., 1999, Revision of the Mars control net and global digital image mosaic (abs.), in The Fifth International Conference on Mars., Abstract #6218, LPI Contribution No. 972, Lunar and Planetary Institute, Houston (CD-ROM). (PDF: 35k)
Kirk, R., Becker, K., Cook, D., Hare, T., Howington-Kraus, E., Isbell, C., Lee, E., Rosanova, T., Soderblom, L., Sucharski, T., Thompson, K., Davies, M., Colvin, T., and Parker, T., 1999, Mars DIM: The next generation (abs.), Lunar Planet. Sci., XXX, Abstract #1849. (PDF: 110k)
Kirk, R. L., Lee, E. M., Sucharski, R. M. , Richie, J. , Grecu, A., and Castro, S. K., 2000, MDIM 2.0: A Revised global digital image mosaic of Mars (abs.), Lunar Planet. Sci., XXXI, Abstract #2011, Lunar and Planetary Institute, Houston (CD-ROM). (PDF: 2.2M)
Kirk, R. L., Thompson, K. T., Becker, T. L., and Lee, E. M., 2000, Photometric modelling for planetary cartography (abs.), Lunar Planet. Sci., XXXI, Abstract #2025, Lunar and Planetary Institute, Houston (CD-ROM). (PDF: 90k)
Kirk, R. L., Thompson, K. T., and Lee, E. M., 2001, Photometry of the martian atmosphere: An improved practical model for cartography and photoclinometry (abs.), Lunar Planet. Sci., XXXII, Abstract #1874, Lunar and Planetary Institute, Houston (CD-ROM). (PDF: 90k)
Parker, T. J., and Kirk, R. L., 1999, Location and geologic setting for the three US Mars Landers (abs.), in The Fifth International Conference on Mars., Abstract #6124, LPI Contribution No. 972, Lunar and Planetary Institute, Houston (CD-ROM). (PDF: 17k)
Parker, T. J., Kirk, R. L., and Davies, M. E., 1999, Location and geologic setting for the Viking 1 Lander (abs.), Lunar Planet. Sci., XXX, Abstract #2040. (PDF: 260k)
Seidelmann, P. K., et al., 2002, Report of the IAU/IAG working group on cartographic coordinates and rotational elements of the planets and satellites: 2000, Celest. Mech. Dyn. Astron., 82, 83-110.
Additional Resources
USGS Astrogeology: NASA Planetary Data System Map-A-Planet - MDIM 1.0 and MDIM 2.0 image maps are available for browsing. Note: When using the intermediate or advanced interfaces, set the Data Set to mars_viking_bw for MDIM 1.0, or to to v2mars_viking_bw for MDIM 2.0.
Credits
The creation of MDIM 2.1 was led by Randolph Kirk and Ella Mae Lee. Others who contributed to this work include:
- Brent Archinal, Janet Barrett, Debbie Cook, Trent Hare, Bonnie Redding, Janet Richie, Deborah Lee Soltesz, Robert Sucharski, Tracie Sucharski, and Lynn Weller.
- Thomas Duxbury of NASA/JPL provided MOLA based digital image models that were used to tie the MDIM 2.1 control network to MOLA (absolute) Mars coordinates.
- We also acknowledge Tim Colvin and the late Merton Davies of the RAND Corporation, who brought the RAND-USGS Mars control network to its state before our work began on the MDIM 2.1 control network.
- Other past and present USGS employees who contributed to previous versions of the MDIM and the Mars control network include Ray Batson, Tammy Becker, Bonnie Duck, Kay Edwards, Eric Eliason, Ana Grecu, Alicyn Gitlin, Annie Howington-Kraus, Chris Isbell, Joann Isbrecht, Alfred McEwen, Jana Ruhlman, Frank Schafer, Jody Swan, Patricia Thomas, Kim Thompson, and Sherman Wu.
This work was funded in part through the NASA Planetary Geology and Geophysics Program, the NASA Mars Data Analysis Program, and the USGS Astrogeology Research Program.
Coming Soon
- MC-1 and MC-30 (poles) in Equirectangular projection.
- Data in PDS format.
- MDIM 2.1 control network files.
- Additional publications.
For information, contact:
Randy Kirk
Geophysicist
rkirk@usgs.gov
2255 N. Gemini Drive
Flagstaff, AZ 86001
(928)556-7020
Brent Archinal
Geodesist
barchinal@usgs.gov
2255 N. Gemini Drive
Flagstaff, AZ 86001
(928)556-7083