Add to ORKGA frequency-based performance identification approach was evaluated using flight data from the NASA F-15 Highly Integrated Digital Electronic Control aircraft. The approach used frequency separation to identify the effectiveness of multiple controls simultaneously as an alternative to independent control identification methods. Fourier transformations converted measured control and response data into frequency domain representations. Performance gradients were formed using multiterm frequency matching of control and response frequency domain models. An objective function was generated using these performance gradients. This function was formally optimized to produce a coordinated control trim set. This algorithm was applied to longitudinal ...
Presented at the AIAA Atmospheric Flight Mechanics, Chicago, IL, August, 2009.In-flight identificati...
A new Forced Oscillation System (FOS) has been designed and built at NASA Langley Research Center th...
Near real-time stability and control derivative extraction is required to support flight demonstrati...
Practical aspects of the frequency-domain approach for aircraft system identification are explained ...
A flight test on an F-15 airplane was performed to evaluate the utility of prescribed simultaneous i...
Frequency response estimation results are presented using piloted inputs and a real-time estimation ...
Under NASA sponsorship, an in-flight simulation of the longitudinal handling qualities of several co...
An important aspect of any flight research project is assessing aircraft stability and flight contro...
A Controller Performance Evaluation (CPE) methodology for multi-input/multi-output digital control s...
Safety and productivity of the initial flight test phase of a new vehicle have been enhanced by deve...
An approach for designing inputs to identify stability and control derivatives from flight test data...
Amethod is presented for computing multiple-input multiple-output frequency responses of bare-airfra...
A real-time, frequency-domain, equation-error parameter identification (PID) technique was used to e...
With the demand for more advanced fighter aircraft, relying on unstable flight mechanical characteri...
Integrated engine-airframe optimal control technology may significantly improve aircraft performance...
Presented at the AIAA Atmospheric Flight Mechanics, Chicago, IL, August, 2009.In-flight identificati...
A new Forced Oscillation System (FOS) has been designed and built at NASA Langley Research Center th...
Near real-time stability and control derivative extraction is required to support flight demonstrati...
Practical aspects of the frequency-domain approach for aircraft system identification are explained ...
A flight test on an F-15 airplane was performed to evaluate the utility of prescribed simultaneous i...
Frequency response estimation results are presented using piloted inputs and a real-time estimation ...
Under NASA sponsorship, an in-flight simulation of the longitudinal handling qualities of several co...
An important aspect of any flight research project is assessing aircraft stability and flight contro...
A Controller Performance Evaluation (CPE) methodology for multi-input/multi-output digital control s...
Safety and productivity of the initial flight test phase of a new vehicle have been enhanced by deve...
An approach for designing inputs to identify stability and control derivatives from flight test data...
Amethod is presented for computing multiple-input multiple-output frequency responses of bare-airfra...
A real-time, frequency-domain, equation-error parameter identification (PID) technique was used to e...
With the demand for more advanced fighter aircraft, relying on unstable flight mechanical characteri...
Integrated engine-airframe optimal control technology may significantly improve aircraft performance...
Presented at the AIAA Atmospheric Flight Mechanics, Chicago, IL, August, 2009.In-flight identificati...
A new Forced Oscillation System (FOS) has been designed and built at NASA Langley Research Center th...
Near real-time stability and control derivative extraction is required to support flight demonstrati...