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Obadiah Poster - OPRA

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Title: Obadiah Poster - OPRA Author: Obadiah Last modified by: Lauren Created Date: 4/5/2006 10:00:44 PM Document presentation format: Custom Other titles – PowerPoint PPT presentation

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Title: Obadiah Poster - OPRA


1
Automated Data Acquisition for an Infrared
Spectrometer Lauren Foster 1, Obadiah Kegege 2,
and Alan Mantooth 2,3 1 Manhattan College,
Bronx, NY, 2 Arkansas Center for Space and
Planetary Sciences, University of Arkansas,
Fayetteville, AR. 3 Department of Electrical
Engineering, University of Arkansas,
Fayetteville, AR.
Automated Integrated System
  • Background of Research
  • OPRA
  • - Optical Probe for Regolith Analysis
  • A NASA funded project currently under
    development by the University of Arkansas
  • Current data
  • - Obtained manually
  • - Insertion withdrawal of a probe
  • in regolith (loose soil and rock)
  • - Data acquisition
  • Future data
  • - Obtained from an automated control system
  • - Acquire, store and analyze data
  • - From infrared spectrometer on a robotic arm
    or rover
  • Operating Procedure
  • The operator specifies operating mode
  • - (1) Constant Velocity
  • - (2) Constant Force
  • Press start data acquisition
  • System will create relationship between
  • - Regolith Strength vs. Depth
  • Obtain IR data
  • (1) Constant Velocity Mode
  • - Probe is inserted at constant speed
  • to a designated depth
  • - Penetration Force vs. Depth recorded
  • - IR data taken
  • (2) Constant Force Mode
  • - Probe is inserted at constant force
  • - Probe inserted until balanced by the
    resistance
  • strength from the regolith.
  • - Penetration Depth vs. Time recorded
  • - IR data taken

Motor
PLC
  • HMI (Human to Machine Interface)
  • Automated System controlling
  • - insertion, withdrawal, and data acquisition

Spectrometer on Rover
fiber optics to IR module
window over the fiber optic illuminate and sense
elements
  • Objectives
  • Design, assemble and program all electrical and
    mechanical parts of the automated control system
  • Produce an OPRA prototype to acquire IR
    (infrared) data for spectrometer on a robotic arm
    or rover
  • Data Storage and Plotting
  • Computer
  • - Force and depth data stored
  • - Data plotted for analysis
  • IR data stored by onboard spectrometer
  • Analog Sensor Interface
  • Analog sensors
  • - Force, Depth, Speed
  • Example
  • - Wheatstone bridge is very common for design
  • The circuit is balanced if Ssensor _ Vout 0
  • Where Rsensor is the resistance of an analog
    sensor at reference voltage

Control of Speed and Force of the Probe
  • Conclusions
  • The automated system will be very helpful for IR
    data acquisition, plotting, and analysis
  • It will also help to characterize strength of
    regolith at each depth

and
  • Acknowledgements
  • I would like to offer my thanks to all
    individuals who advised me, especially my fellow
    participants in the OPRA project. It is an honor
    to be part of a project that may one day find its
    way to the Moon or Mars.

For feedback controls
  • Calibration
  • Software calibration done such that the sensor is
    balanced at a given reference value
  • Output scaling done from the HMI tag formulas
  • References
  • Ulrich et al. (2006). Fiber Optic Spectral Array
    on a Regolith Probe for Surface and Sub-Surface
    Mineralogical Profiling Optical Probe for
    Regolith Analysis, Arkansas Center for Space
    Planetary Sciences, University of Arkansas
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