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A PC-based multispectral scanner data evaluation workstation: Application to Daedalus scanners (1991)

Atkinson, Robert J. ; James, Mark W. ; Jedlovec, Gary J. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: In late 1989, a personal computer (PC)-based data evaluation workstation was developed to support post flight processing of Multispectral Atmospheric Mapping Sensor (MAMS) data. The MAMS Quick View System (QVS) is an image analysis and display system designed to provide the capability to evaluate Daedalus scanner data immediately after an aircraft flight. Even in its original form, the QVS offered the portability of a personal computer with the advanced analysis and display features of a mainframe image analysis system. It was recognized, however, that the original QVS had its limitations, both in speed and processing of MAMS data. Recent efforts are presented that focus on overcoming earlier limitations and adapting the system to a new data tape structure. In doing so, the enhanced Quick View System (QVS2) will accommodate data from any of the four spectrometers used with the Daedalus scanner on the NASA ER2 platform. The QVS2 is designed around the AST 486/33 MHz CPU personal computer and comes with 10 EISA expansion slots, keyboard, and 4.0 mbytes of memory. Specialized PC-McIDAS software provides the main image analysis and display capability for the system. Image analysis and display of the digital scanner data is accomplished with PC-McIDAS software.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: NASA, Washington, 4th Airborne Geoscience Workshop; p 183-184

Format: application/pdf

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2

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The advanced microwave precipitation radiometer: A new aircraft radiometer for passive precipitation remote sensing (1991)

Spencer, Roy W. ; Hood, Robbie E. ; James, Mark W.

In: CASI

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Publication Date: 2013-08-31

Description: Past studies of passive microwave measurements of precipitating systems have yielded broad empirical relationships between hydrometeors and microwave transmission. In general, these relationships fall into two categories of passive microwave precipitation retrievals rely upon the observed effect of liquid precipitation to increase the brightness temperature of a radiometrically cold background such as an ocean surface. A scattering-based method is based upon the effect that frozen hydrometeors tend to decrease the brightness temperature of a radiometrically warm background such as land. One step toward developing quantitative brightness temperature-rain rate relationships is the recent construction of a new aircraft instrument sponsored by National Aeronautics and Space Administration/Marshall Space Flight Center (NASA/MSFC). This instrument is the Advanced Microwave Precipitation Radiometer (AMPR) designed and built by Georgia Tech Research Institute to fly aboard high altitude research aircraft such as the NASA ER-2. The AMPR and its accompanying data acquisition system are mounted in the Q-bay compartment of the NASA ER-2.

Keywords: EARTH RESOURCES AND REMOTE SENSING

Type: NASA, Washington, 4th Airborne Geoscience Workshop; p 179-180

Format: application/pdf

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Integrated Formulation of Beacon-Based Exception Analysis for Multimissions (2003)

Mackey, Ryan ; Zak, Mickail ; James, Mark ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: Further work on beacon-based exception analysis for multimissions (BEAM), a method of real-time, automated diagnosis of a complex electromechanical systems, has greatly expanded its capability and suitability of application. This expanded formulation, which fully integrates physical models and symbolic analysis, is described. The new formulation of BEAM expands upon previous advanced techniques for analysis of signal data, utilizing mathematical modeling of the system physics, and expert-system reasoning,

Keywords: Quality Assurance and Reliability

Type: NPO-21126 , NASA Tech Briefs, March 2003; 47-48

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Hypothetical Scenario Generator for Fault-Tolerant Diagnosis (2007)

James, Mark

In: CASI

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Publication Date: 2019-07-12

Description: The Hypothetical Scenario Generator for Fault-tolerant Diagnostics (HSG) is an algorithm being developed in conjunction with other components of artificial- intelligence systems for automated diagnosis and prognosis of faults in spacecraft, aircraft, and other complex engineering systems. By incorporating prognostic capabilities along with advanced diagnostic capabilities, these developments hold promise to increase the safety and affordability of the affected engineering systems by making it possible to obtain timely and accurate information on the statuses of the systems and predicting impending failures well in advance. The HSG is a specific instance of a hypothetical- scenario generator that implements an innovative approach for performing diagnostic reasoning when data are missing. The special purpose served by the HSG is to (1) look for all possible ways in which the present state of the engineering system can be mapped with respect to a given model and (2) generate a prioritized set of future possible states and the scenarios of which they are parts.

Keywords: Quality Assurance and Reliability

Type: NPO-42516 , NASA Tech Briefs, June 2007; 30

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Real-time spatio-temporal coherence estimation for autonomous mode identification and invariance tracking (2003)

Mackey, Ryan M. E. ; Park, Han G. ; Zak, Michail ; [et al.]

In: CASI

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Publication Date: 2019-08-15

Description: A general method of anomaly detection from time-correlated sensor data is disclosed. Multiple time-correlated signals are received. Their cross-signal behavior is compared against a fixed library of invariants. The library is constructed during a training process, which is itself data-driven using the same time-correlated signals. The method is applicable to a broad class of problems and is designed to respond to any departure from normal operation, including faults or events that lie outside the training envelope.

Keywords: Quality Assurance and Reliability

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