David F. Voracek scite author profile

Horizontal launch has been investigated for 60 years by over 130 different studies. During this time only one concept, Pegasus, has ever been in operation. The attractiveness of horizontal launch is the capability to provide a "mobile launch pad" that can use existing aircraft runways, cruise above weather, loiter for mission instructions, and provide precise placement for orbital intercept, rendezvous, or reconnaissance.A jointly sponsored study by DARPA and NASA, completed in 2011, explored the trade space of horizontal launch system concepts which included an exhaustive literature review of the past 70 years. The Horizontal Launch Study identified potential near-and mid-term concepts capable of delivering 15,000 lb payloads to a 28.5° due East inclination, 100 nautical-mile low-Earth orbit. Results are presented for a range of near-term system concepts selected for their availability and relatively low design, development, test, and evaluation (DDT&E) costs. This study identified a viable low-cost development path forward to make a robust and resilient horizontal launch capability a reality. Nomenclature

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Buffet-induced structural/flight-control system interaction of the X-29A aircraft

Voracek

Clarke

1994

Journal of Aircraft

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Comparison of Aeroelastic Excitation Mechanisms

Lind

Freudinger

Voracek

1998

Journal of Aircraft

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Buffet induced structural/flight-control system interaction of the X-29A aircraft

Voracek

Clarke

1991

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High-angle-of-attack flight regime research is currently being conducted for modem fighter aircraft at the NASA Ames Research Center's Dryden Flight Research Facility. This flight regime provides enhanced maneuverability to fighter pilots in combat situations. Flight research data are being acquired to compare and validate advanced computational fluid dynamic solutions and wind-tunnel models. Highangle-of-attack flight creates unique aerodynamic phenomena including wing rock and buffet on the airframe. These phenomena increase the level of excitation of the structural modes, especially on the vertical and horizontal stabilizers. With high gain digital flight-control systems, this structural response may resuit in an aeroservoelastic interaction. A structural interaction on the X-29A aircraft was observed during high-angle-of-attack flight testing. The roll and yaw rate gyros sensed the aircraft's structural modes at 11, 13, and 16 Hz. The rate gyro output signals were then amplified through the flight-control laws and sent as commands to the flaperons and redder. The flight data indicated that as the angle of attack increased, the amplitude of the buffet on the vertical stabilizer increased, which resulted in more excitation to the structural modes. The flight-control system sensors and command signals showed this increase in modal power at the structural frequencies up to 30°angle of attack. Beyond 30°angle of attack, the vertical sta-*Aerospace Engineer. Members AIAA

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David F. Voracek

Overview of recent flight flutter testing research at NASA Dryden

Near-term Horizontal Launch for Flexible Operations: Results of the DARPA/NASA Horizontal Launch Study

Buffet-induced structural/flight-control system interaction of the X-29A aircraft

Comparison of Aeroelastic Excitation Mechanisms

Buffet induced structural/flight-control system interaction of the X-29A aircraft

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