• DocumentCode
    3009936
  • Title

    Control system design using radioactive pickoff

  • Author

    Friedland, B. ; Richman, Jack

  • Author_Institution
    The Singer Company, Little Falls, New Jersey
  • fYear
    1975
  • fDate
    10-12 Dec. 1975
  • Firstpage
    422
  • Lastpage
    427
  • Abstract
    An accelerometer can be constructed using a radioactive proof mass the position of which can be determined on the basis of the difference between the mean number of emitted charged particles detected at opposite walls when the proof mass is not centered. If the emission rate is relatively small, however, the mean counting rate is very noisy; satisfactory operation requires optimum signal processing. The control system, designed by linear stochastic control theory, generates forces that tend to keep the proof mass centered between walls of the instrument and simultaneously produces on estimated acceleration output. The Poisson-type noise of the pickoff is approximated by Gaussian noise; the acceleration input is modeled as a random walk. It is found by simulation that for an instrument with 1.0 inch spacing between the walls, the proof mass excursion can be confined to a peak-to-peak amplitude of 0.36 inch in a severe acceleration environment. The accelerometer output tracks a constant input without error and, when the input acceleration has a random component, the rms error is of the order of ten percent of the random component.
  • Keywords
    Acceleration; Accelerometers; Control systems; Force control; Gaussian noise; Instruments; Process control; Radio control; Signal processing; Weight control;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Decision and Control including the 14th Symposium on Adaptive Processes, 1975 IEEE Conference on
  • Conference_Location
    Houston, TX, USA
  • Type

    conf

  • DOI
    10.1109/CDC.1975.270724
  • Filename
    4045451