R. C. Montgomery scite author profile

R. C. Montgomery

5Publications

77Citation Statements Received

12Citation Statements Given

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Langley Research Center, Virginia Tech

Publications

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Determination of stability and control derivatives using computational fluid dynamics and automatic differentiation

Park

Green

Montgomery

et al. 1999

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With the recent interest in novel control effectors there is a need to determine the stability and control derivatives of new aircraft configurations early in the design process. These derivatives are central to most control law design methods and would allow the determination of closed-loop control performance of the vehicle. Early determination of the static and dynamic behavior of an aircraft may permit significant improvement in configuration weight, cost, stealth, and performance through multidisciplinary design. The classical method of determining static stability and control derivatives-constructing and testing wind tunnel models-is expensive and requires a long lead time for the resultant data. Wind tunnel tests are also limited to the preselected control effectors of the model. To overcome these shortcomings, computational fluid

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Flight control using distributed shape-change effector arrays

Raney

Montgomery

Green

et al. 2000

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Analysis of deep-stall characteristics of T- tailed aircraft configurations and some recovery procedures.

Montgomery

Moul

1966

Journal of Aircraft

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Analysis of deep-stall characteristics of T- tailed aircraft configurations and some recovery procedures

Montgomery

Moul

1966

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Subsonic maneuvering effectiveness of high-performance aircraft that employ quasi-static shape change devices

Scott

Montgomery

Weston

1998

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This paper represents an initial study on the use of quasi-static shape change devices in aircraft maneuvering. The macroscopic effects and requirements for these devices in flight control are the focus of this study. Groups of devices are postulated to replace the conventional leading-edge flap (LEF) and the all-moving wing tip (AMT) on the tailless LMTAS-ICE (Lockheed Martin Tactical Aircraft Systems -Innovative Control Effectors) configuration. The maximum quasi-static shape changes are 13.8% and 7.7% of the wing section thickness for the LEF and AMT replacement devices, respectively. A Computational Fluid Dynamics (CFD) panel code is used to determine the control effectiveness ofgroups ofthese devices. A preliminary design of a wings-leveler autopilot is presented. Initial evaluation at 0.6 Mach at 15,000 ft. altitude is made through batch simulation. Results show small disturbance stability is achieved, however, an increase in surface deflection is needed to offset five degrees of sideslip. This only applies to the specific device groups studied, encouraging future research on optimal device placement.

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R. C. Montgomery

Determination of stability and control derivatives using computational fluid dynamics and automatic differentiation

Flight control using distributed shape-change effector arrays

Analysis of deep-stall characteristics of T- tailed aircraft configurations and some recovery procedures.

Analysis of deep-stall characteristics of T- tailed aircraft configurations and some recovery procedures

Subsonic maneuvering effectiveness of high-performance aircraft that employ quasi-static shape change devices

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