The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results

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Zeitschriftentitel:	Journal of Geophysical Research: Planets
Personen und Körperschaften:	Stoker, C. R., Cabrol, N. A., Roush, T. R., Moersch, J., Aubele, J., Barlow, N., Bettis, E. A., Bishop, J., Chapman, M., Clifford, S., Cockell, C., Crumpler, L., Craddock, R., De Hon, R., Foster, T., Gulick, V., Grin, E., Horton, K., Hovde, G., Johnson, J. R., Lee, P. C., Lemmon, M. T., Marshall, J., Newsom, H. E., Ori, G. G., Reagan, M., Rice, J. W., Ruff, S. W., Schreiner, J., Sims, M., Smith, P. H., Tanaka, K., Thomas, H. J., Thomas, G., Yingst, R. A.
In:	Journal of Geophysical Research: Planets, 106, 2001, E4, S. 7639-7663
Format:	E-Article
Sprache:	Englisch
veröffentlicht:	American Geophysical Union (AGU)
Schlagwörter:	Paleontology Space and Planetary Science Earth and Planetary Sciences (miscellaneous) Atmospheric Science Earth-Surface Processes Geochemistry and Petrology Soil Science Water Science and Technology Ecology Aquatic Science Forestry Oceanography Geophysics

author_facet	Stoker, C. R. Cabrol, N. A. Roush, T. R. Moersch, J. Aubele, J. Barlow, N. Bettis, E. A. Bishop, J. Chapman, M. Clifford, S. Cockell, C. Crumpler, L. Craddock, R. De Hon, R. Foster, T. Gulick, V. Grin, E. Horton, K. Hovde, G. Johnson, J. R. Lee, P. C. Lemmon, M. T. Marshall, J. Newsom, H. E. Ori, G. G. Reagan, M. Rice, J. W. Ruff, S. W. Schreiner, J. Sims, M. Smith, P. H. Tanaka, K. Thomas, H. J. Thomas, G. Yingst, R. A. Stoker, C. R. Cabrol, N. A. Roush, T. R. Moersch, J. Aubele, J. Barlow, N. Bettis, E. A. Bishop, J. Chapman, M. Clifford, S. Cockell, C. Crumpler, L. Craddock, R. De Hon, R. Foster, T. Gulick, V. Grin, E. Horton, K. Hovde, G. Johnson, J. R. Lee, P. C. Lemmon, M. T. Marshall, J. Newsom, H. E. Ori, G. G. Reagan, M. Rice, J. W. Ruff, S. W. Schreiner, J. Sims, M. Smith, P. H. Tanaka, K. Thomas, H. J. Thomas, G. Yingst, R. A.
author	Stoker, C. R. Cabrol, N. A. Roush, T. R. Moersch, J. Aubele, J. Barlow, N. Bettis, E. A. Bishop, J. Chapman, M. Clifford, S. Cockell, C. Crumpler, L. Craddock, R. De Hon, R. Foster, T. Gulick, V. Grin, E. Horton, K. Hovde, G. Johnson, J. R. Lee, P. C. Lemmon, M. T. Marshall, J. Newsom, H. E. Ori, G. G. Reagan, M. Rice, J. W. Ruff, S. W. Schreiner, J. Sims, M. Smith, P. H. Tanaka, K. Thomas, H. J. Thomas, G. Yingst, R. A.
spellingShingle	Stoker, C. R. Cabrol, N. A. Roush, T. R. Moersch, J. Aubele, J. Barlow, N. Bettis, E. A. Bishop, J. Chapman, M. Clifford, S. Cockell, C. Crumpler, L. Craddock, R. De Hon, R. Foster, T. Gulick, V. Grin, E. Horton, K. Hovde, G. Johnson, J. R. Lee, P. C. Lemmon, M. T. Marshall, J. Newsom, H. E. Ori, G. G. Reagan, M. Rice, J. W. Ruff, S. W. Schreiner, J. Sims, M. Smith, P. H. Tanaka, K. Thomas, H. J. Thomas, G. Yingst, R. A. Journal of Geophysical Research: Planets The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results Paleontology Space and Planetary Science Earth and Planetary Sciences (miscellaneous) Atmospheric Science Earth-Surface Processes Geochemistry and Petrology Soil Science Water Science and Technology Ecology Aquatic Science Forestry Oceanography Geophysics
author_sort	stoker, c. r.
spelling	Stoker, C. R. Cabrol, N. A. Roush, T. R. Moersch, J. Aubele, J. Barlow, N. Bettis, E. A. Bishop, J. Chapman, M. Clifford, S. Cockell, C. Crumpler, L. Craddock, R. De Hon, R. Foster, T. Gulick, V. Grin, E. Horton, K. Hovde, G. Johnson, J. R. Lee, P. C. Lemmon, M. T. Marshall, J. Newsom, H. E. Ori, G. G. Reagan, M. Rice, J. W. Ruff, S. W. Schreiner, J. Sims, M. Smith, P. H. Tanaka, K. Thomas, H. J. Thomas, G. Yingst, R. A. 0148-0227 American Geophysical Union (AGU) Paleontology Space and Planetary Science Earth and Planetary Sciences (miscellaneous) Atmospheric Science Earth-Surface Processes Geochemistry and Petrology Soil Science Water Science and Technology Ecology Aquatic Science Forestry Oceanography Geophysics http://dx.doi.org/10.1029/1999je001178 <jats:p>We report on a field experiment held near Silver Lake playa in the Mojave Desert in February 1999 with the Marsokhod rover. The payload (Descent Imager, PanCam, Mini‐TES, and Robotic Arm Camera), data volumes, and data transmission/receipt windows simulated those planned for the Mars Surveyor mission selected for 2001. A central mast with a pan and tilt platform at 150 cm height carried a high‐resolution color stereo imager to simulate the PanCam and a visible/near‐infrared fiberoptic spectrometer (operating range 0.35–2.5 μm). Monochrome stereo navigation cameras were mounted on the mast and the front and rear of the rover near the wheels. A field portable infrared spectroradiometer (operating range 8–14 μm) simulated the Mini‐TES. A Robotic Arm Camera, capable of close‐up color imaging at 23 μm/pixel resolution, was used in conjunction with the excavation of a trench into the subsurface. The science team was also provided with simulated images from the Mars Descent Imager and orbital panchromatic and multispectral imaging of the site obtained with the French SPOT, airborne Thermal Infrared Mapping Spectrometer, and Landsat Thematic Mapper instruments. Commands sequences were programmed and sent daily to the rover, and data returned were limited to 40 Mbits per communication cycle. During the simulated mission, 12 commands were uplinked to the rover, it traversed ∼90 m, six sites were analyzed, 11 samples were collected for laboratory analysis, and over 5 Gbits of data were collected. Twenty‐two scientists, unfamiliar with the location of the field site, participated in the science mission from a variety of locations, accessing data via the World Wide Web. Remote science interpretations were compared with ground truth from the field and laboratory analysis of collected samples. Using this payload and mission approach, the science team synergistically interpreted orbital imaging and infrared spectroscopy, descent imaging, rover‐based imaging, infrared spectroscopy, and microscopic imaging to deduce a consistent and largely correct interpretation of the geology, mineralogy, stratigraphy, and exobiology of the site. Use of imaging combined with infrared spectroscopy allowed source outcrops to be identified for local rocks on an alluvial fan. Different lithologies were distinguished both near the rover and at distances of hundreds of meters or more. Subtle differences such as a contact between dolomite and calcite were identified at a distance of 0.5 km. A biomarker for endolithic microbiota, a plausible life form to be found on Mars, was successfully identified. Microscopic imaging of soils extracted from the surface and subsurface allowed the mineralogy and fluvial history of the trench site to be deduced. The scientific productivity of this simulation shows that this payload and mission approach has high science value and would contribute substantially to achieving the goals of Mars exploration.</jats:p> The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results Journal of Geophysical Research: Planets
doi_str_mv	10.1029/1999je001178
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title	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
title_unstemmed	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
title_full	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
title_fullStr	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
title_full_unstemmed	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
title_short	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
title_sort	the 1999 marsokhod rover mission simulation at silver lake, california: mission overview, data sets, and summary of results
topic	Paleontology Space and Planetary Science Earth and Planetary Sciences (miscellaneous) Atmospheric Science Earth-Surface Processes Geochemistry and Petrology Soil Science Water Science and Technology Ecology Aquatic Science Forestry Oceanography Geophysics
url	http://dx.doi.org/10.1029/1999je001178
publishDate	2001
physical	7639-7663
description	<jats:p>We report on a field experiment held near Silver Lake playa in the Mojave Desert in February 1999 with the Marsokhod rover. The payload (Descent Imager, PanCam, Mini‐TES, and Robotic Arm Camera), data volumes, and data transmission/receipt windows simulated those planned for the Mars Surveyor mission selected for 2001. A central mast with a pan and tilt platform at 150 cm height carried a high‐resolution color stereo imager to simulate the PanCam and a visible/near‐infrared fiberoptic spectrometer (operating range 0.35–2.5 μm). Monochrome stereo navigation cameras were mounted on the mast and the front and rear of the rover near the wheels. A field portable infrared spectroradiometer (operating range 8–14 μm) simulated the Mini‐TES. A Robotic Arm Camera, capable of close‐up color imaging at 23 μm/pixel resolution, was used in conjunction with the excavation of a trench into the subsurface. The science team was also provided with simulated images from the Mars Descent Imager and orbital panchromatic and multispectral imaging of the site obtained with the French SPOT, airborne Thermal Infrared Mapping Spectrometer, and Landsat Thematic Mapper instruments. Commands sequences were programmed and sent daily to the rover, and data returned were limited to 40 Mbits per communication cycle. During the simulated mission, 12 commands were uplinked to the rover, it traversed ∼90 m, six sites were analyzed, 11 samples were collected for laboratory analysis, and over 5 Gbits of data were collected. Twenty‐two scientists, unfamiliar with the location of the field site, participated in the science mission from a variety of locations, accessing data via the World Wide Web. Remote science interpretations were compared with ground truth from the field and laboratory analysis of collected samples. Using this payload and mission approach, the science team synergistically interpreted orbital imaging and infrared spectroscopy, descent imaging, rover‐based imaging, infrared spectroscopy, and microscopic imaging to deduce a consistent and largely correct interpretation of the geology, mineralogy, stratigraphy, and exobiology of the site. Use of imaging combined with infrared spectroscopy allowed source outcrops to be identified for local rocks on an alluvial fan. Different lithologies were distinguished both near the rover and at distances of hundreds of meters or more. Subtle differences such as a contact between dolomite and calcite were identified at a distance of 0.5 km. A biomarker for endolithic microbiota, a plausible life form to be found on Mars, was successfully identified. Microscopic imaging of soils extracted from the surface and subsurface allowed the mineralogy and fluvial history of the trench site to be deduced. The scientific productivity of this simulation shows that this payload and mission approach has high science value and would contribute substantially to achieving the goals of Mars exploration.</jats:p>
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author	Stoker, C. R., Cabrol, N. A., Roush, T. R., Moersch, J., Aubele, J., Barlow, N., Bettis, E. A., Bishop, J., Chapman, M., Clifford, S., Cockell, C., Crumpler, L., Craddock, R., De Hon, R., Foster, T., Gulick, V., Grin, E., Horton, K., Hovde, G., Johnson, J. R., Lee, P. C., Lemmon, M. T., Marshall, J., Newsom, H. E., Ori, G. G., Reagan, M., Rice, J. W., Ruff, S. W., Schreiner, J., Sims, M., Smith, P. H., Tanaka, K., Thomas, H. J., Thomas, G., Yingst, R. A.
author_facet	Stoker, C. R., Cabrol, N. A., Roush, T. R., Moersch, J., Aubele, J., Barlow, N., Bettis, E. A., Bishop, J., Chapman, M., Clifford, S., Cockell, C., Crumpler, L., Craddock, R., De Hon, R., Foster, T., Gulick, V., Grin, E., Horton, K., Hovde, G., Johnson, J. R., Lee, P. C., Lemmon, M. T., Marshall, J., Newsom, H. E., Ori, G. G., Reagan, M., Rice, J. W., Ruff, S. W., Schreiner, J., Sims, M., Smith, P. H., Tanaka, K., Thomas, H. J., Thomas, G., Yingst, R. A., Stoker, C. R., Cabrol, N. A., Roush, T. R., Moersch, J., Aubele, J., Barlow, N., Bettis, E. A., Bishop, J., Chapman, M., Clifford, S., Cockell, C., Crumpler, L., Craddock, R., De Hon, R., Foster, T., Gulick, V., Grin, E., Horton, K., Hovde, G., Johnson, J. R., Lee, P. C., Lemmon, M. T., Marshall, J., Newsom, H. E., Ori, G. G., Reagan, M., Rice, J. W., Ruff, S. W., Schreiner, J., Sims, M., Smith, P. H., Tanaka, K., Thomas, H. J., Thomas, G., Yingst, R. A.
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description	<jats:p>We report on a field experiment held near Silver Lake playa in the Mojave Desert in February 1999 with the Marsokhod rover. The payload (Descent Imager, PanCam, Mini‐TES, and Robotic Arm Camera), data volumes, and data transmission/receipt windows simulated those planned for the Mars Surveyor mission selected for 2001. A central mast with a pan and tilt platform at 150 cm height carried a high‐resolution color stereo imager to simulate the PanCam and a visible/near‐infrared fiberoptic spectrometer (operating range 0.35–2.5 μm). Monochrome stereo navigation cameras were mounted on the mast and the front and rear of the rover near the wheels. A field portable infrared spectroradiometer (operating range 8–14 μm) simulated the Mini‐TES. A Robotic Arm Camera, capable of close‐up color imaging at 23 μm/pixel resolution, was used in conjunction with the excavation of a trench into the subsurface. The science team was also provided with simulated images from the Mars Descent Imager and orbital panchromatic and multispectral imaging of the site obtained with the French SPOT, airborne Thermal Infrared Mapping Spectrometer, and Landsat Thematic Mapper instruments. Commands sequences were programmed and sent daily to the rover, and data returned were limited to 40 Mbits per communication cycle. During the simulated mission, 12 commands were uplinked to the rover, it traversed ∼90 m, six sites were analyzed, 11 samples were collected for laboratory analysis, and over 5 Gbits of data were collected. Twenty‐two scientists, unfamiliar with the location of the field site, participated in the science mission from a variety of locations, accessing data via the World Wide Web. Remote science interpretations were compared with ground truth from the field and laboratory analysis of collected samples. Using this payload and mission approach, the science team synergistically interpreted orbital imaging and infrared spectroscopy, descent imaging, rover‐based imaging, infrared spectroscopy, and microscopic imaging to deduce a consistent and largely correct interpretation of the geology, mineralogy, stratigraphy, and exobiology of the site. Use of imaging combined with infrared spectroscopy allowed source outcrops to be identified for local rocks on an alluvial fan. Different lithologies were distinguished both near the rover and at distances of hundreds of meters or more. Subtle differences such as a contact between dolomite and calcite were identified at a distance of 0.5 km. A biomarker for endolithic microbiota, a plausible life form to be found on Mars, was successfully identified. Microscopic imaging of soils extracted from the surface and subsurface allowed the mineralogy and fluvial history of the trench site to be deduced. The scientific productivity of this simulation shows that this payload and mission approach has high science value and would contribute substantially to achieving the goals of Mars exploration.</jats:p>
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spelling	Stoker, C. R. Cabrol, N. A. Roush, T. R. Moersch, J. Aubele, J. Barlow, N. Bettis, E. A. Bishop, J. Chapman, M. Clifford, S. Cockell, C. Crumpler, L. Craddock, R. De Hon, R. Foster, T. Gulick, V. Grin, E. Horton, K. Hovde, G. Johnson, J. R. Lee, P. C. Lemmon, M. T. Marshall, J. Newsom, H. E. Ori, G. G. Reagan, M. Rice, J. W. Ruff, S. W. Schreiner, J. Sims, M. Smith, P. H. Tanaka, K. Thomas, H. J. Thomas, G. Yingst, R. A. 0148-0227 American Geophysical Union (AGU) Paleontology Space and Planetary Science Earth and Planetary Sciences (miscellaneous) Atmospheric Science Earth-Surface Processes Geochemistry and Petrology Soil Science Water Science and Technology Ecology Aquatic Science Forestry Oceanography Geophysics http://dx.doi.org/10.1029/1999je001178 <jats:p>We report on a field experiment held near Silver Lake playa in the Mojave Desert in February 1999 with the Marsokhod rover. The payload (Descent Imager, PanCam, Mini‐TES, and Robotic Arm Camera), data volumes, and data transmission/receipt windows simulated those planned for the Mars Surveyor mission selected for 2001. A central mast with a pan and tilt platform at 150 cm height carried a high‐resolution color stereo imager to simulate the PanCam and a visible/near‐infrared fiberoptic spectrometer (operating range 0.35–2.5 μm). Monochrome stereo navigation cameras were mounted on the mast and the front and rear of the rover near the wheels. A field portable infrared spectroradiometer (operating range 8–14 μm) simulated the Mini‐TES. A Robotic Arm Camera, capable of close‐up color imaging at 23 μm/pixel resolution, was used in conjunction with the excavation of a trench into the subsurface. The science team was also provided with simulated images from the Mars Descent Imager and orbital panchromatic and multispectral imaging of the site obtained with the French SPOT, airborne Thermal Infrared Mapping Spectrometer, and Landsat Thematic Mapper instruments. Commands sequences were programmed and sent daily to the rover, and data returned were limited to 40 Mbits per communication cycle. During the simulated mission, 12 commands were uplinked to the rover, it traversed ∼90 m, six sites were analyzed, 11 samples were collected for laboratory analysis, and over 5 Gbits of data were collected. Twenty‐two scientists, unfamiliar with the location of the field site, participated in the science mission from a variety of locations, accessing data via the World Wide Web. Remote science interpretations were compared with ground truth from the field and laboratory analysis of collected samples. Using this payload and mission approach, the science team synergistically interpreted orbital imaging and infrared spectroscopy, descent imaging, rover‐based imaging, infrared spectroscopy, and microscopic imaging to deduce a consistent and largely correct interpretation of the geology, mineralogy, stratigraphy, and exobiology of the site. Use of imaging combined with infrared spectroscopy allowed source outcrops to be identified for local rocks on an alluvial fan. Different lithologies were distinguished both near the rover and at distances of hundreds of meters or more. Subtle differences such as a contact between dolomite and calcite were identified at a distance of 0.5 km. A biomarker for endolithic microbiota, a plausible life form to be found on Mars, was successfully identified. Microscopic imaging of soils extracted from the surface and subsurface allowed the mineralogy and fluvial history of the trench site to be deduced. The scientific productivity of this simulation shows that this payload and mission approach has high science value and would contribute substantially to achieving the goals of Mars exploration.</jats:p> The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results Journal of Geophysical Research: Planets
spellingShingle	Stoker, C. R., Cabrol, N. A., Roush, T. R., Moersch, J., Aubele, J., Barlow, N., Bettis, E. A., Bishop, J., Chapman, M., Clifford, S., Cockell, C., Crumpler, L., Craddock, R., De Hon, R., Foster, T., Gulick, V., Grin, E., Horton, K., Hovde, G., Johnson, J. R., Lee, P. C., Lemmon, M. T., Marshall, J., Newsom, H. E., Ori, G. G., Reagan, M., Rice, J. W., Ruff, S. W., Schreiner, J., Sims, M., Smith, P. H., Tanaka, K., Thomas, H. J., Thomas, G., Yingst, R. A., Journal of Geophysical Research: Planets, The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results, Paleontology, Space and Planetary Science, Earth and Planetary Sciences (miscellaneous), Atmospheric Science, Earth-Surface Processes, Geochemistry and Petrology, Soil Science, Water Science and Technology, Ecology, Aquatic Science, Forestry, Oceanography, Geophysics
title	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
title_full	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
title_fullStr	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
title_full_unstemmed	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
title_short	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
title_sort	the 1999 marsokhod rover mission simulation at silver lake, california: mission overview, data sets, and summary of results
title_unstemmed	The 1999 Marsokhod rover mission simulation at Silver Lake, California: Mission overview, data sets, and summary of results
topic	Paleontology, Space and Planetary Science, Earth and Planetary Sciences (miscellaneous), Atmospheric Science, Earth-Surface Processes, Geochemistry and Petrology, Soil Science, Water Science and Technology, Ecology, Aquatic Science, Forestry, Oceanography, Geophysics
url	http://dx.doi.org/10.1029/1999je001178