Mars methane analogue mission: Mission simulation and rover operations at Jeffrey Mine and Norbestos Mine Quebec, Canada

A. Qadi; E. Cloutis; C. Samson; L. Whyte; A. Ellery; James Bell; G. Berard; A. Boivin; E. Haddad; J. Lavoie; W. Jamroz; R. Kruzelecky; A. Mack; P. Mann; K. Olsen; M. Perrot; D. Popa; T. Rhind; R. Sharma; J. Stromberg; K. Strong; A. Tremblay; R. Wilhelm; B. Wing; B. Wong

doi:10.1016/j.asr.2014.12.008

Mars methane analogue mission: Mission simulation and rover operations at Jeffrey Mine and Norbestos Mine Quebec, Canada

A. Qadi, E. Cloutis, C. Samson, L. Whyte, A. Ellery, James Bell, G. Berard, A. Boivin, E. Haddad, J. Lavoie, W. Jamroz, R. Kruzelecky, A. Mack, P. Mann, K. Olsen, M. Perrot, D. Popa, T. Rhind, R. Sharma, J. StrombergK. Strong, A. Tremblay, R. Wilhelm, B. Wing, B. Wong

Earth and Space Exploration, School of (SESE)

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

11 Scopus citations

Abstract

The Canadian Space Agency (CSA), through its Analogue Missions program, supported a microrover-based analogue mission designed to simulate a Mars rover mission geared toward identifying and characterizing methane emissions on Mars. The analogue mission included two, progressively more complex, deployments in open-pit asbestos mines where methane can be generated from the weathering of olivine into serpentine: the Jeffrey mine deployment (June 2011) and the Norbestos mine deployment (June 2012). At the Jeffrey Mine, testing was conducted over 4 days using a modified off-the-shelf Pioneer rover and scientific instruments including Raman spectrometer, Picarro methane detector, hyperspectral point spectrometer and electromagnetic induction sounder for testing rock and gas samples. At the Norbestos Mine, we used the research Kapvik microrover which features enhanced autonomous navigation capabilities and a wider array of scientific instruments. This paper describes the rover operations in terms of planning, deployment, communication and equipment setup, rover path parameters and instrument performance. Overall, the deployments suggest that a search strategy of "follow the methane" is not practical given the mechanisms of methane dispersion. Rather, identification of features related to methane sources based on image tone/color and texture from panoramic imagery is more profitable.

Original language	English (US)
Pages (from-to)	2414-2426
Number of pages	13
Journal	Advances in Space Research
Volume	55
Issue number	10
DOIs	https://doi.org/10.1016/j.asr.2014.12.008
State	Published - May 15 2015

Keywords

Analogue mission
Asbestos mine
Autonomous science
Mars methane emissions
Planetary exploration microrover
Rover operations

ASJC Scopus subject areas

Aerospace Engineering
Astronomy and Astrophysics
Geophysics
Atmospheric Science
Space and Planetary Science
Earth and Planetary Sciences(all)

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10.1016/j.asr.2014.12.008

Cite this

Qadi, A., Cloutis, E., Samson, C., Whyte, L., Ellery, A., Bell, J., Berard, G., Boivin, A., Haddad, E., Lavoie, J., Jamroz, W., Kruzelecky, R., Mack, A., Mann, P., Olsen, K., Perrot, M., Popa, D., Rhind, T., Sharma, R., ... Wong, B. (2015). Mars methane analogue mission: Mission simulation and rover operations at Jeffrey Mine and Norbestos Mine Quebec, Canada. Advances in Space Research, 55(10), 2414-2426. https://doi.org/10.1016/j.asr.2014.12.008

Qadi, A, Cloutis, E, Samson, C, Whyte, L, Ellery, A, Bell, J, Berard, G, Boivin, A, Haddad, E, Lavoie, J, Jamroz, W, Kruzelecky, R, Mack, A, Mann, P, Olsen, K, Perrot, M, Popa, D, Rhind, T, Sharma, R, Stromberg, J, Strong, K, Tremblay, A, Wilhelm, R, Wing, B & Wong, B 2015, 'Mars methane analogue mission: Mission simulation and rover operations at Jeffrey Mine and Norbestos Mine Quebec, Canada', Advances in Space Research, vol. 55, no. 10, pp. 2414-2426. https://doi.org/10.1016/j.asr.2014.12.008

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title = "Mars methane analogue mission: Mission simulation and rover operations at Jeffrey Mine and Norbestos Mine Quebec, Canada",

abstract = "The Canadian Space Agency (CSA), through its Analogue Missions program, supported a microrover-based analogue mission designed to simulate a Mars rover mission geared toward identifying and characterizing methane emissions on Mars. The analogue mission included two, progressively more complex, deployments in open-pit asbestos mines where methane can be generated from the weathering of olivine into serpentine: the Jeffrey mine deployment (June 2011) and the Norbestos mine deployment (June 2012). At the Jeffrey Mine, testing was conducted over 4 days using a modified off-the-shelf Pioneer rover and scientific instruments including Raman spectrometer, Picarro methane detector, hyperspectral point spectrometer and electromagnetic induction sounder for testing rock and gas samples. At the Norbestos Mine, we used the research Kapvik microrover which features enhanced autonomous navigation capabilities and a wider array of scientific instruments. This paper describes the rover operations in terms of planning, deployment, communication and equipment setup, rover path parameters and instrument performance. Overall, the deployments suggest that a search strategy of {"}follow the methane{"} is not practical given the mechanisms of methane dispersion. Rather, identification of features related to methane sources based on image tone/color and texture from panoramic imagery is more profitable.",

keywords = "Analogue mission, Asbestos mine, Autonomous science, Mars methane emissions, Planetary exploration microrover, Rover operations",

author = "A. Qadi and E. Cloutis and C. Samson and L. Whyte and A. Ellery and James Bell and G. Berard and A. Boivin and E. Haddad and J. Lavoie and W. Jamroz and R. Kruzelecky and A. Mack and P. Mann and K. Olsen and M. Perrot and D. Popa and T. Rhind and R. Sharma and J. Stromberg and K. Strong and A. Tremblay and R. Wilhelm and B. Wing and B. Wong",

note = "Funding Information: Acknowledgments. 　This study was supported by grants from the Japanese Foundation for Research and Promotion of Endoscopy and the JSPS Fujita Memorial Fund for Medical Research. Publisher Copyright: {\textcopyright} 2014 COSPAR.",

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AU - Qadi, A.

AU - Cloutis, E.

AU - Samson, C.

AU - Whyte, L.

AU - Ellery, A.

AU - Bell, James

AU - Berard, G.

AU - Boivin, A.

AU - Haddad, E.

AU - Lavoie, J.

AU - Jamroz, W.

AU - Kruzelecky, R.

AU - Mack, A.

AU - Mann, P.

AU - Olsen, K.

AU - Perrot, M.

AU - Popa, D.

AU - Rhind, T.

AU - Sharma, R.

AU - Stromberg, J.

AU - Strong, K.

AU - Tremblay, A.

AU - Wilhelm, R.

AU - Wing, B.

AU - Wong, B.

N1 - Funding Information: Acknowledgments. 　This study was supported by grants from the Japanese Foundation for Research and Promotion of Endoscopy and the JSPS Fujita Memorial Fund for Medical Research. Publisher Copyright: © 2014 COSPAR.

PY - 2015/5/15

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N2 - The Canadian Space Agency (CSA), through its Analogue Missions program, supported a microrover-based analogue mission designed to simulate a Mars rover mission geared toward identifying and characterizing methane emissions on Mars. The analogue mission included two, progressively more complex, deployments in open-pit asbestos mines where methane can be generated from the weathering of olivine into serpentine: the Jeffrey mine deployment (June 2011) and the Norbestos mine deployment (June 2012). At the Jeffrey Mine, testing was conducted over 4 days using a modified off-the-shelf Pioneer rover and scientific instruments including Raman spectrometer, Picarro methane detector, hyperspectral point spectrometer and electromagnetic induction sounder for testing rock and gas samples. At the Norbestos Mine, we used the research Kapvik microrover which features enhanced autonomous navigation capabilities and a wider array of scientific instruments. This paper describes the rover operations in terms of planning, deployment, communication and equipment setup, rover path parameters and instrument performance. Overall, the deployments suggest that a search strategy of "follow the methane" is not practical given the mechanisms of methane dispersion. Rather, identification of features related to methane sources based on image tone/color and texture from panoramic imagery is more profitable.

AB - The Canadian Space Agency (CSA), through its Analogue Missions program, supported a microrover-based analogue mission designed to simulate a Mars rover mission geared toward identifying and characterizing methane emissions on Mars. The analogue mission included two, progressively more complex, deployments in open-pit asbestos mines where methane can be generated from the weathering of olivine into serpentine: the Jeffrey mine deployment (June 2011) and the Norbestos mine deployment (June 2012). At the Jeffrey Mine, testing was conducted over 4 days using a modified off-the-shelf Pioneer rover and scientific instruments including Raman spectrometer, Picarro methane detector, hyperspectral point spectrometer and electromagnetic induction sounder for testing rock and gas samples. At the Norbestos Mine, we used the research Kapvik microrover which features enhanced autonomous navigation capabilities and a wider array of scientific instruments. This paper describes the rover operations in terms of planning, deployment, communication and equipment setup, rover path parameters and instrument performance. Overall, the deployments suggest that a search strategy of "follow the methane" is not practical given the mechanisms of methane dispersion. Rather, identification of features related to methane sources based on image tone/color and texture from panoramic imagery is more profitable.

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KW - Mars methane emissions

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Mars methane analogue mission: Mission simulation and rover operations at Jeffrey Mine and Norbestos Mine Quebec, Canada

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