Single-photon-counting laser altimetry is a new measurement technique offering significant advantages in vertical resolution, reducing instrument size, mass, and power, and reducing laser complexity as compared to analog or threshold detection laser altimetry techniques. However, these improvements come at the cost of a dramatically increased requirement for on-board real-time data processing. Reconfigurable computing has been shown to offer considerable performance advantages in performing this processing. These advantages have been demonstrated on the multi-kilohertz micro-laser altimeter (MMLA), an aircraft based single-photon-counting laser altimeter developed by NASA Goddard Space Flight Center with several potential spaceflight applications. This paper describes how reconfigurable computing technology was employed to perform MMLA data processing in real-time under realistic operating constraints, along with the results observed. This paper also expands on these prior results to identify concepts for using reconfigurable computing to enable spaceflight single-photon-counting laser altimeter instruments.


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    Title :

    Reconfigurable computing as an enabling technology for single-photon-counting laser altimetry


    Contributors:
    Powell, W. (author) / Hicks, E. (author) / Pinchinat, M. (author) / Dabney, P. (author) / McGarry, J. (author) / Murray, P. (author)


    Publication date :

    2004-01-01


    Size :

    969222 byte





    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English





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