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Small Satellite Missions for Earth Observation pp 341–350Cite as

Towards a Miniaturized Photon Counting Laser Altimeter and Stereoscopic Camera Instrument Suite for Microsatellites

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Abstract

In the following we review the optimization for microsatellite deployment of a highly integrated payload suite comprising a high resolution camera, an additional camera for stereoscopic imaging, and a single photon counting laser altimeter. This payload suite, the “Stereo Imaging Laser Altimeter” SILAT has been designated for deployment aboard the FAST microsatellite formation mission for Earth observation. This instrument suite has been designed for a Jupiter mission, but has been redesigned and optimized for an Earth observation mission. This chapter reviews the simulated Earth observation performance, the design modifications made for the mission and the optimization of the design for microsatellite use. Mass and power budgets are used to demonstrate the changes and the performance analysis is represented trough the simulation results. It is expected that the optimization will reduce the mass of the instrument by approximately 20% without compromising the performance of the instrument. In addition, results from breadboarding experiments of individual instrument components will be presented to show the progress from design optimization towards the FAST flight model.

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References

  1. S. Moon et al. A miniaturized laser altimeter and stereo camera for a microsatellite formation mission. In ESA Small Satellites Systems and ServicesThe 4S Symposium. Rhodes, Greece, 26–30 May 2008. ESA, The Netherlands.

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  2. J.J. Degnan. Photon-counting multikilohertz altimeters for airborne and spaceborne topographic measurements. Journal of Geodynamics, 35, 503–549, 2002.

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  3. M. Bentley, F. Varlet, S. Kraft. Consolidation of HIPS FM Preliminary Design. cosine internal communication [CR-HDD-TN-01, Issue 02]. June 06, 2007.

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  4. M. Collon et al. HIPS Breadboard Engineering Plan. Cosine internal document [CR-HIPS-PL-EP, Issue 01]. September 8, 2005.

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  5. A.J. Court et al.(TNO). 2007. TNO-SPEX (Spectropolarimeter for Planetary Exploration). Available at http://www.tno.nl, accessed May 1, 2009.

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Author information

Authors and Affiliations

  1. Cosine Research B.V., Niels Bohrweg 11, 2333, CA, Leiden, The Netherlands

    S.G. Moon, S. Hannemann & M. Collon

  2. Mecon Engineering B.V., Koopmanslaan 25, 7005, BK, Doetinchem, The Netherlands

    K. Wielinga & E. Kroesbergen

  3. Swiss Space Technology, Route de Chavalet 2, 18349, Champery, Switzerland

    J. Harris

  4. Department of Earth Observation and Space Systems, Delft University of Technology, Kluyverweg 1, 2629, HS, Delft, The Netherlands

    E. Gill & D. Maessen

Authors
  1. S.G. Moon
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  2. S. Hannemann
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  3. M. Collon
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  4. K. Wielinga
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  5. E. Kroesbergen
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  6. J. Harris
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  7. E. Gill
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  8. D. Maessen
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Corresponding author

Correspondence to S.G. Moon .

Editor information

Editors and Affiliations

  1. Luft- und Raumfahrt e.V. (DLR), Deutsches Zentrum für, Rutherfordstr. 2, Berlin, 12489, Germany

    Rainer Sandau

  2. Inst. Raumfahrtsysteme, Universität Stuttgart, Pfaffenwaldring 31, Stuttgart, 70569, Germany

    Hans-Peter Roeser

  3. Media Lario International S.A., Bosisio Parini, 23842, Italy

    Arnoldo Valenzuela

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© 2010 Springer-Verlag Berlin Heidelberg

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Moon, S. et al. (2010). Towards a Miniaturized Photon Counting Laser Altimeter and Stereoscopic Camera Instrument Suite for Microsatellites. In: Sandau, R., Roeser, HP., Valenzuela, A. (eds) Small Satellite Missions for Earth Observation. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-03501-2_32

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