Mars Exploration Rover Athena Panoramic Camera (Pancam) investigation

J. F. Bell; S. W. Squyres; K. E. Herkenhoff; J. N. Maki; H. M. Arneson; D. Brown; S. A. Collins; A. Dingizian; S. T. Elliot; E. C. Hagerott; A. G. Hayes; M. J. Johnson; J. R. Johnson; J. Joseph; K. Kinch; M. T. Lemmon; R. V. Morris; L. Scherr; M. Schwochert; M. K. Shepard; G. H. Smith; J. N. Sohl-Dickstein; R. J. Sullivan; W. T. Sullivan; M. Wadsworth

doi:10.1029/2003je002070

Mars Exploration Rover Athena Panoramic Camera (Pancam) investigation

J. F. Bell, S. W. Squyres, K. E. Herkenhoff, J. N. Maki, H. M. Arneson, D. Brown, S. A. Collins, A. Dingizian, S. T. Elliot, E. C. Hagerott, A. G. Hayes, M. J. Johnson, J. R. Johnson, J. Joseph, K. Kinch, M. T. Lemmon, R. V. Morris, L. Scherr, M. Schwochert, M. K. ShepardG. H. Smith, J. N. Sohl-Dickstein, R. J. Sullivan, W. T. Sullivan, M. Wadsworth

Research output: Contribution to journal › Article › peer-review

254 Scopus citations

Abstract

The Panoramic Camera (Pancam) investigation is part of the Athena science payload launched to Mars in 2003 on NASA's twin Mars Exploration Rover (MER) missions. The scientific goals of the Pancam investigation are to assess the high-resolution morphology, topography, and geologic context of each MER landing site, to obtain color images to constrain the mineralogic, photometric, and physical properties of surface materials, and to determine dust and aerosol opacity and physical properties from direct imaging of the Sun and sky. Pancam also provides mission support measurements for the rovers, including Sun-finding for rover navigation, hazard identification and digital terrain modeling to help guide long-term rover traverse decisions, high-resolution imaging to help guide the selection of in situ sampling targets, and acquisition of education and public outreach products. The Pancam optical, mechanical, and electronics design were optimized to achieve these science and mission support goals. Pancam is a multispectral, stereoscopic, panoramic imaging system consisting of two digital cameras mounted on a mast 1.5 m above the Martian surface. The mast allows Pancam to image the full 360° in azimuth and ±90° in elevation. Each Pancam camera utilizes a 1024 × 1024 active imaging area frame transfer CCD detector array. The Pancam optics have an effective focal length of 43 mm and a focal ratio f/20, yielding an instantaneous field of view of 0.27 mrad/pixel and a field of view of 16° × 16°. Each rover's two Pancam "eyes" are separated by 30 cm and have a 1° toe-in to provide adequate stereo parallax. Each eye also includes a small eight position filter wheel to allow surface mineralogic studies, multispectral sky imaging, and direct Sun imaging in the 400-1100 nm wavelength region. Pancam was designed and calibrated to operate within specifications on Mars at temperatures from -55° to +5°C. An onboard calibration target and fiducial marks provide the capability to validate the radiometric and geometric calibration on Mars.

Original language	English (US)
Pages (from-to)	ROV 4-1 - ROV 4-30
Journal	Journal of Geophysical Research: Planets
Volume	108
Issue number	12
DOIs	https://doi.org/10.1029/2003je002070
State	Published - Dec 25 2003
Externally published	Yes

Keywords

Mars
Mars Exploration Rover
Multispectral imaging
Space missions

ASJC Scopus subject areas

Geochemistry and Petrology
Geophysics
Earth and Planetary Sciences (miscellaneous)
Space and Planetary Science
Atmospheric Science
Astronomy and Astrophysics
Oceanography

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10.1029/2003je002070

Cite this

Bell, J. F., Squyres, S. W., Herkenhoff, K. E., Maki, J. N., Arneson, H. M., Brown, D., Collins, S. A., Dingizian, A., Elliot, S. T., Hagerott, E. C., Hayes, A. G., Johnson, M. J., Johnson, J. R., Joseph, J., Kinch, K., Lemmon, M. T., Morris, R. V., Scherr, L., Schwochert, M., ... Wadsworth, M. (2003). Mars Exploration Rover Athena Panoramic Camera (Pancam) investigation. Journal of Geophysical Research: Planets, 108(12), ROV 4-1 - ROV 4-30. https://doi.org/10.1029/2003je002070

Bell, JF, Squyres, SW, Herkenhoff, KE, Maki, JN, Arneson, HM, Brown, D, Collins, SA, Dingizian, A, Elliot, ST, Hagerott, EC, Hayes, AG, Johnson, MJ, Johnson, JR, Joseph, J, Kinch, K, Lemmon, MT, Morris, RV, Scherr, L, Schwochert, M, Shepard, MK, Smith, GH, Sohl-Dickstein, JN, Sullivan, RJ, Sullivan, WT & Wadsworth, M 2003, 'Mars Exploration Rover Athena Panoramic Camera (Pancam) investigation', Journal of Geophysical Research: Planets, vol. 108, no. 12, pp. ROV 4-1 - ROV 4-30. https://doi.org/10.1029/2003je002070

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title = "Mars Exploration Rover Athena Panoramic Camera (Pancam) investigation",

abstract = "The Panoramic Camera (Pancam) investigation is part of the Athena science payload launched to Mars in 2003 on NASA's twin Mars Exploration Rover (MER) missions. The scientific goals of the Pancam investigation are to assess the high-resolution morphology, topography, and geologic context of each MER landing site, to obtain color images to constrain the mineralogic, photometric, and physical properties of surface materials, and to determine dust and aerosol opacity and physical properties from direct imaging of the Sun and sky. Pancam also provides mission support measurements for the rovers, including Sun-finding for rover navigation, hazard identification and digital terrain modeling to help guide long-term rover traverse decisions, high-resolution imaging to help guide the selection of in situ sampling targets, and acquisition of education and public outreach products. The Pancam optical, mechanical, and electronics design were optimized to achieve these science and mission support goals. Pancam is a multispectral, stereoscopic, panoramic imaging system consisting of two digital cameras mounted on a mast 1.5 m above the Martian surface. The mast allows Pancam to image the full 360° in azimuth and ±90° in elevation. Each Pancam camera utilizes a 1024 × 1024 active imaging area frame transfer CCD detector array. The Pancam optics have an effective focal length of 43 mm and a focal ratio f/20, yielding an instantaneous field of view of 0.27 mrad/pixel and a field of view of 16° × 16°. Each rover's two Pancam {"}eyes{"} are separated by 30 cm and have a 1° toe-in to provide adequate stereo parallax. Each eye also includes a small eight position filter wheel to allow surface mineralogic studies, multispectral sky imaging, and direct Sun imaging in the 400-1100 nm wavelength region. Pancam was designed and calibrated to operate within specifications on Mars at temperatures from -55° to +5°C. An onboard calibration target and fiducial marks provide the capability to validate the radiometric and geometric calibration on Mars.",

keywords = "Mars, Mars Exploration Rover, Multispectral imaging, Space missions",

author = "Bell, {J. F.} and Squyres, {S. W.} and Herkenhoff, {K. E.} and Maki, {J. N.} and Arneson, {H. M.} and D. Brown and Collins, {S. A.} and A. Dingizian and Elliot, {S. T.} and Hagerott, {E. C.} and Hayes, {A. G.} and Johnson, {M. J.} and Johnson, {J. R.} and J. Joseph and K. Kinch and Lemmon, {M. T.} and Morris, {R. V.} and L. Scherr and M. Schwochert and Shepard, {M. K.} and Smith, {G. H.} and Sohl-Dickstein, {J. N.} and Sullivan, {R. J.} and Sullivan, {W. T.} and M. Wadsworth",

year = "2003",

month = dec,

day = "25",

doi = "10.1029/2003je002070",

language = "English (US)",

volume = "108",

pages = "ROV 4--1 -- ROV 4--30",

journal = "Journal of Geophysical Research: Planets",

issn = "0148-0227",

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T1 - Mars Exploration Rover Athena Panoramic Camera (Pancam) investigation

AU - Bell, J. F.

AU - Squyres, S. W.

AU - Herkenhoff, K. E.

AU - Maki, J. N.

AU - Arneson, H. M.

AU - Brown, D.

AU - Collins, S. A.

AU - Dingizian, A.

AU - Elliot, S. T.

AU - Hagerott, E. C.

AU - Hayes, A. G.

AU - Johnson, M. J.

AU - Johnson, J. R.

AU - Joseph, J.

AU - Kinch, K.

AU - Lemmon, M. T.

AU - Morris, R. V.

AU - Scherr, L.

AU - Schwochert, M.

AU - Shepard, M. K.

AU - Smith, G. H.

AU - Sohl-Dickstein, J. N.

AU - Sullivan, R. J.

AU - Sullivan, W. T.

AU - Wadsworth, M.

PY - 2003/12/25

Y1 - 2003/12/25

N2 - The Panoramic Camera (Pancam) investigation is part of the Athena science payload launched to Mars in 2003 on NASA's twin Mars Exploration Rover (MER) missions. The scientific goals of the Pancam investigation are to assess the high-resolution morphology, topography, and geologic context of each MER landing site, to obtain color images to constrain the mineralogic, photometric, and physical properties of surface materials, and to determine dust and aerosol opacity and physical properties from direct imaging of the Sun and sky. Pancam also provides mission support measurements for the rovers, including Sun-finding for rover navigation, hazard identification and digital terrain modeling to help guide long-term rover traverse decisions, high-resolution imaging to help guide the selection of in situ sampling targets, and acquisition of education and public outreach products. The Pancam optical, mechanical, and electronics design were optimized to achieve these science and mission support goals. Pancam is a multispectral, stereoscopic, panoramic imaging system consisting of two digital cameras mounted on a mast 1.5 m above the Martian surface. The mast allows Pancam to image the full 360° in azimuth and ±90° in elevation. Each Pancam camera utilizes a 1024 × 1024 active imaging area frame transfer CCD detector array. The Pancam optics have an effective focal length of 43 mm and a focal ratio f/20, yielding an instantaneous field of view of 0.27 mrad/pixel and a field of view of 16° × 16°. Each rover's two Pancam "eyes" are separated by 30 cm and have a 1° toe-in to provide adequate stereo parallax. Each eye also includes a small eight position filter wheel to allow surface mineralogic studies, multispectral sky imaging, and direct Sun imaging in the 400-1100 nm wavelength region. Pancam was designed and calibrated to operate within specifications on Mars at temperatures from -55° to +5°C. An onboard calibration target and fiducial marks provide the capability to validate the radiometric and geometric calibration on Mars.

AB - The Panoramic Camera (Pancam) investigation is part of the Athena science payload launched to Mars in 2003 on NASA's twin Mars Exploration Rover (MER) missions. The scientific goals of the Pancam investigation are to assess the high-resolution morphology, topography, and geologic context of each MER landing site, to obtain color images to constrain the mineralogic, photometric, and physical properties of surface materials, and to determine dust and aerosol opacity and physical properties from direct imaging of the Sun and sky. Pancam also provides mission support measurements for the rovers, including Sun-finding for rover navigation, hazard identification and digital terrain modeling to help guide long-term rover traverse decisions, high-resolution imaging to help guide the selection of in situ sampling targets, and acquisition of education and public outreach products. The Pancam optical, mechanical, and electronics design were optimized to achieve these science and mission support goals. Pancam is a multispectral, stereoscopic, panoramic imaging system consisting of two digital cameras mounted on a mast 1.5 m above the Martian surface. The mast allows Pancam to image the full 360° in azimuth and ±90° in elevation. Each Pancam camera utilizes a 1024 × 1024 active imaging area frame transfer CCD detector array. The Pancam optics have an effective focal length of 43 mm and a focal ratio f/20, yielding an instantaneous field of view of 0.27 mrad/pixel and a field of view of 16° × 16°. Each rover's two Pancam "eyes" are separated by 30 cm and have a 1° toe-in to provide adequate stereo parallax. Each eye also includes a small eight position filter wheel to allow surface mineralogic studies, multispectral sky imaging, and direct Sun imaging in the 400-1100 nm wavelength region. Pancam was designed and calibrated to operate within specifications on Mars at temperatures from -55° to +5°C. An onboard calibration target and fiducial marks provide the capability to validate the radiometric and geometric calibration on Mars.

KW - Mars

KW - Mars Exploration Rover

KW - Multispectral imaging

KW - Space missions

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JO - Journal of Geophysical Research: Planets

JF - Journal of Geophysical Research: Planets

IS - 12

ER -

Mars Exploration Rover Athena Panoramic Camera (Pancam) investigation

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Keywords

ASJC Scopus subject areas

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