G. W. Gallops scite author profile

A second generation Kalman filter algorithm is described that has sufficient accuracy and response for real-time detection and estimation of gas turbine engine gas path damage caused by normal wear, mechanical failures and ingestion of foreign objects. The algorithm was developed for in-flight operation of aircraft engines but also has application for marine and industrial gas turbines. The control measurement and microcomputer requirements are described. The performance and sensitivity to engine transients and measurement errors is evaluated. The algorithm is demonstrated with actual engine data of ice and bird ingestion tests.

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Real-Time Estimation of Gas Turbine Engine Damage Using a Control-Based Kalman Filter Algorithm

Kerr

Nemec

Gallops

1992

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A second-generation Kalman filter algorithm is described that has sufficient accuracy and response for real-time detection and estimation of gas turbine engine gas path damage caused by normal wear, mechanical failures, and ingestion of foreign objects. The algorithm was developed for in-flight operation of aircraft engines but also has application for marine and industrial gas turbines. The control measurement and microcomputer requirements are described. The performance and sensitivity to engine transients and measurement errors is evaluated. The algorithm is demonstrated with actual engine data of ice and bird ingestion tests.

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High Stability Engine Control (HISTEC)

DeLaat

Southwick

Gallops

1996

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Development and testing of a High Stability Engine Control (HISTEC) system

Orme

DeLaat

Southwick

et al. 1998

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G. W. Gallops

Estimating in-flight engine performance variations using Kalman filter concepts

Real-Time Estimation of Gas Turbine Engine Damage Using a Control Based Kalman Filter Algorithm

Real-Time Estimation of Gas Turbine Engine Damage Using a Control-Based Kalman Filter Algorithm

High Stability Engine Control (HISTEC)

Development and testing of a High Stability Engine Control (HISTEC) system

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