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  • 1
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    Adaptive servo control for umbilical mating (1988)
    In:  CASI
    Details
    Publication Date: 2013-08-31
    Description: Robotic applications at Kennedy Space Center are unique and in many cases require the fime positioning of heavy loads in dynamic environments. Performing such operations is beyond the capabilities of an off-the-shelf industrial robot. Therefore Robotics Applications Development Laboratory at Kennedy Space Center has put together an integrated system that coordinates state of the art robotic system providing an excellent easy to use testbed for NASA sensor integration experiments. This paper reviews the ways of improving the dynamic response of the robot operating under force feedback with varying dynamic internal perturbations in order to provide continuous stable operations under variable load conditions. The goal is to improve the stability of the system with force feedback using the adaptive control feature of existing system over a wide range of random motions. The effect of load variations on the dynamics and the transfer function (order or values of the parameters) of the system has been investigated, more accurate models of the system have been determined and analyzed.
    Keywords: MECHANICAL ENGINEERING
    Type: NASA, John F. Kennedy Space Center, NASA(ASEE Summer Faculty Fellowship Program: 1988 Research Reports; p 487-519
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 2
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    On the control aspect of laser frequency stabilization (1991)
    In:  CASI
    Details
    Publication Date: 2013-08-31
    Description: Realization of frequency stable lasers is viewed as key to progress in many areas of research; therefore, the search for more effective techniques of frequency stabilization has intensified significantly in recent years. Investigating and validating the fundamental linewidth and frequency stability limits of a Nd:YAG laser oscillator, locked to a high finesse reference cavity in the microgravity and vibration-free environment of space, is the objective of a NASA project called SUNLITE at LaRC. The objective of this paper is to further investigate the application of feedback control theory in active frequency control as a frequency stabilization technique and determine the most appropriate control strategy to be used in general and particularly in the SUNLITE Project.
    Keywords: LASERS AND MASERS
    Type: Old Dominion Univ., NASA/American Society for Engineering Ed; Old Dominion Univ.,
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    NASA TECHNICAL REPORTS
  • 3
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    Mathematical model for adaptive control system of ASEA robot at Kennedy Space Center (1989)
    In:  CASI
    Details
    Publication Date: 2013-08-31
    Description: The dynamic properties and the mathematical model for the adaptive control of the robotic system presently under investigation at Robotic Application and Development Laboratory at Kennedy Space Center are discussed. NASA is currently investigating the use of robotic manipulators for mating and demating of fuel lines to the Space Shuttle Vehicle prior to launch. The Robotic system used as a testbed for this purpose is an ASEA IRB-90 industrial robot with adaptive control capabilities. The system was tested and it's performance with respect to stability was improved by using an analogue force controller. The objective of this research project is to determine the mathematical model of the system operating under force feedback control with varying dynamic internal perturbation in order to provide continuous stable operation under variable load conditions. A series of lumped parameter models are developed. The models include some effects of robot structural dynamics, sensor compliance, and workpiece dynamics.
    Keywords: MECHANICAL ENGINEERING
    Type: University of Central Florida, NASA(ASEE Summer Faculty Fellowship Program; p 358-381
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  • 4
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    Improvement in the control aspect of laser frequency stabilization for SUNLITE project (1992)
    In:  CASI
    Details
    Publication Date: 2013-08-31
    Description: Flight Electronics Division of Langley Research Center is developing a spaceflight experiment called the Stanford University and NASA Laser In-Space Technology (SUNLITE). The objective of the project is to explore the fundamental limits on frequency stability using an FM laser locking technique on a Nd:YAG non-planar ring (free-running linewidth of 5 KHz) oscillator in the vibration free, microgravity environment of space. Compact and automated actively stabilized terahertz laser oscillators will operate in space with an expected linewidth of less than 3 Hz. To implement and verify this experiment, NASA engineers have designed and built a state of the art, space qualified high speed data acquisition system for measuring the linewidth and stability limits of a laser oscillator. In order to achieve greater stability and better performance, an active frequency control scheme requiring the use of a feedback control loop has been applied. In the summer of 1991, the application of control theory in active frequency control as a frequency stabilization technique was investigated. The results and findings were presented in 1992 at the American Control Conference in Chicago, and have been published in Conference Proceedings. The main focus was to seek further improvement in the overall performance of the system by replacing the analogue controller by a digital algorithm.
    Keywords: LASERS AND MASERS
    Type: Hampton Univ., NASA(American Society for Engineering Education (ASEE) Summer Faculty Fellowship Program 1992 p 200-203 (SEE N93-16760 05-80); Hampton Univ., NASA(
    Format: application/pdf
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