Timothy H. Cox scite author profile

Timothy H. Cox

5Publications

17Citation Statements Received

3Citation Statements Given

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Affiliations

Armstrong Flight Research Center, Ames Research Center

Publications

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A Generic Inner-Loop Control Law Structure for Six-Degree-of-Freedom Conceptual Aircraft Design

Cox

Cotting²

2005

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A generic control system framework for both real-time and batch six-degree-of-freedom (6-DOF) simulations is presented. This framework uses a simplified dynamic inversion technique to allow for stabilization and control of any type of aircraft at the pilot interface level. The simulation, designed primarily for the real-time simulation environment, also can be run in a batch mode through a simple guidance interface. Direct vehicle-state acceleration feedback is required with the simplified dynamic inversion technique. The estimation of surface effectiveness within real-time simulation timing constraints also is required. The generic framework provides easily modifiable control variables, allowing flexibility in the variables that the pilot commands. A direct control allocation scheme is used to command aircraft effectors. Primary uses for this system include conceptual and preliminary design of aircraft, when vehicle models are rapidly changing and knowledge of vehicle 6-DOF performance is required. A simulated airbreathing hypersonic vehicle and simulated high-performance fighter aircraft are used to demonstrate the flexibility and utility of the control system.

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Flight stability and control and performance results from the Linear Aerospike SR-71 Experiment (LASRE)

Moes

Cobleigh

Cox

et al. 1998

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A design procedure for the handling qualities optimization of the X-29A aircraft

Bosworth

Cox

1989

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A design technique for handling qualities improvement was developed for the X-29A aircraft. As with any new aircraft, the X-29A control law designers were presented with a relatively high degree of uncertainty in their mathematical models. The presence of uncertainties, and the high level of static instability of the X-29A caused the control law designers to stress stability and robustness over handling qualities. During flight test, the mathematical models of the vehicle were validated or corrected to match the vehicle dynamic behavior. The updated models were then used to fine tune the control system to provide fighter-like handling characteristics. A design methodology was developed which works within the existing control system architecture to provide improved handling qualities and acceptable stability with a minimum of cost in both implementation as well as software verification and validation.

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Limited Handling Qualities Assessment of Very Large Aerial Tankers for the Wildfire Suppression Mission

Klyde

Álvarez

Schulze

et al. 2010

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Supersonic flying qualities experience using the SR-71

Cox

Jackson²

1997

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Timothy H. Cox

A Generic Inner-Loop Control Law Structure for Six-Degree-of-Freedom Conceptual Aircraft Design

Flight stability and control and performance results from the Linear Aerospike SR-71 Experiment (LASRE)

A design procedure for the handling qualities optimization of the X-29A aircraft

Limited Handling Qualities Assessment of Very Large Aerial Tankers for the Wildfire Suppression Mission

Supersonic flying qualities experience using the SR-71

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