A high frame rate digital video camera installed on test stands at Stennis Space Center has been used to capture images of Space Shuttle main engine plumes during test. These plume images are processed in real time to detect and differentiate anomalous plume events occurring during a time interval on the order of 5 msec. Such speed yields near instantaneous availability of information concerning the state of the hardware. This information can be monitored by the test conductor or by other computer systems, such as the integrated health monitoring system processors, for possible test shutdown before occurrence of a catastrophic engine failure
The functional framework of a failure detection algorithm for the Space Shuttle Main Engine (SSME) i...
We describe a high speed imaging system that is used to track tracer particles in highly turbulent f...
An investigation to develop, implement, and evaluate signal analysis techniques for the detection an...
Analysis of spectral and video data for anomalous events occurring in the exhaust plume of the SSME ...
The appearance of visible objects in the exhaust plume of space shuttle main engines (SSME) during t...
A study was made of software to integrate data from about 500 sensors that monitor the Space Shuttle...
Included are four documents that outline the technical aspects of the research performed on NASA Gra...
A suite of computer programs has been developed for special test equipment (STE) that is used in ver...
The high frequency data acquisition system developed for the Space Shuttle Main Engine (SSME) single...
Man-made space debris orbit around the Earth at many altitudes in different orbits and many laun...
The Optical Plume Anomaly Detection Program, an experimental study in the attempt to create a rocket...
This work describes the development and implementation of a novel velocimetry technique to probe the...
The framing rate of the commonly-used video cameras according to the video standards CCIR / EIA is c...
Modern society depends heavily on satellite infrastructure. However, Space becomes more and more con...
We developed an algorithm to efficiently detect streaks in survey images and made a performance test...
The functional framework of a failure detection algorithm for the Space Shuttle Main Engine (SSME) i...
We describe a high speed imaging system that is used to track tracer particles in highly turbulent f...
An investigation to develop, implement, and evaluate signal analysis techniques for the detection an...
Analysis of spectral and video data for anomalous events occurring in the exhaust plume of the SSME ...
The appearance of visible objects in the exhaust plume of space shuttle main engines (SSME) during t...
A study was made of software to integrate data from about 500 sensors that monitor the Space Shuttle...
Included are four documents that outline the technical aspects of the research performed on NASA Gra...
A suite of computer programs has been developed for special test equipment (STE) that is used in ver...
The high frequency data acquisition system developed for the Space Shuttle Main Engine (SSME) single...
Man-made space debris orbit around the Earth at many altitudes in different orbits and many laun...
The Optical Plume Anomaly Detection Program, an experimental study in the attempt to create a rocket...
This work describes the development and implementation of a novel velocimetry technique to probe the...
The framing rate of the commonly-used video cameras according to the video standards CCIR / EIA is c...
Modern society depends heavily on satellite infrastructure. However, Space becomes more and more con...
We developed an algorithm to efficiently detect streaks in survey images and made a performance test...
The functional framework of a failure detection algorithm for the Space Shuttle Main Engine (SSME) i...
We describe a high speed imaging system that is used to track tracer particles in highly turbulent f...
An investigation to develop, implement, and evaluate signal analysis techniques for the detection an...