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1

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Flight evaluation of pursuit displays for precision approach of powered-lift aircraft (1989)

Martin, James L. ; Innis, Robert C. ; Hynes, Charles S. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Flight experiments with NASA Ames Research Center's quiet short-haul research aircraft evaluated the influence of pursuit displays on the ability of pilots to execute precision-instrument flight operations in the terminal area, particularly approaches to and landings on a short runway. The aircraft is a powered-lift, short-takeoff and landing configuration equipped with a modern digital fly-by-wire flight control system, a head-up display, and a color head-down display that make it possible to investigate control and display concepts for full-envelope, powered-lift operations. Flight-path-oriented displays that provide status and command information in a format with minimal clutter were investigated. The pilots could fly the aircraft with the precision associated with flight-director guidance and with a high degree of situation awareness. The primary benefits of this display concept were realized when the pilot was required to execute a complex transition and approach under instrument conditions and in the presence of a wide range of wind and turbulence conditions.

Keywords: AIRCRAFT INSTRUMENTATION

Type: Journal of Guidance, Control, and Dynamics (ISSN 0731-5090); 12; 521-529

Format: text

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2

Unknown

Piloting considerations for terminal area operations of civil tiltwing and tiltrotor aircraft (1993)

Tucker, George E. ; Hindson, William S. ; Hardy, Gordon H. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: The existing body of research to investigate airworthiness, performance, handling, and operational requirements for STOL and V/STOL aircraft was reviewed for its applicability to the tiltrotor and tiltwing design concepts. The objective of this study was to help determine the needs for developing civil certification criteria for these aircraft concepts. Piloting tasks that were considered included configuration and thrust vector management, glidepath control, deceleration to hover, and engine failure procedures. Flight control and cockpit display systems that have been found necessary to exploit the low-speed operating characteristics of these aircraft are described, and beneficial future developments are proposed.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: Piloting Vertical Flight Aircraft: A Conference on Flying Qualities and Human Factors; p 393-410

Format: application/pdf

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3

Unknown

Lateral-directional stability and control characteristics of the Quiet Short-Haul Research Aircraft (QSRA) (1990)

Jeske, James A. ; Stephenson, Jack D. ; Hardy, Gordon H.

In: CASI

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Publication Date: 2019-06-28

Description: The results are presented of flight experiments to determine the lateral-directional stability and control characteristics of the Quiet Short-Haul Research Aircraft (QSRA), an experimental aircraft designed to furnish information on various aerodynamic characteristics of a transport type of airplane that makes use of the upper-surface blown (USB) flap technology to achieve short takeoff and landing (STOL) performance. The flight program designed to acquire the data consisted of maneuvers produced by rudder and control-wheel inputs with the airplane in several configurations that had been proposed for landing approach and takeoff operation. The normal stability augmentation system was not engaged during these maneuvers. Time-history records from the maneuvers were analyzed with a parameter estimation procedure to extract lateral-directional stability and control derivatives. For one aircraft configuration in which the USB flaps were deflected 50 deg, several maneuvers were performed to determine the effects of varying the average angle of attack, varying the thrust coefficient, and setting the airplane's upper surface spoilers at a 13 deg symmetrical bias angle . The effects on the lateral characteristics of deflecting the spoilers were rather small and generally favorable. The data indicate that for one test, conducted at low thrust (a thrust coefficient of 0.38), compared with results from tests at thrust coefficients of 0.77 and larger, there was a significant decrease in the lateral control effectiveness, in the yaw damping and in the directional derivative. The directional derivative was also decreased (by about 30 percent) when the average angle of attack of the test was increased from 3 to 16 deg.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: NASA-TM-102250 , A-90007 , NAS 1.15:102250

Format: application/pdf

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4

Unknown

Simulation evaluation of a low-altitude helicopter flight guidance system adapted for a helmet-mounted display (1992)

Dearing, Munro G. ; Hardy, Gordon H. ; Zelenka, Richard E. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: A computer aiding concept for low-altitude helicopter flight was developed and evaluated in a real-time piloted simulation. The concept included an optimal control trajectory-generation algorithm based upon dynamic programming and a helmet-mounted display (HMD) presentation of a pathway-in-the-sky, a phantom aircraft, and flight-path vector/predictor guidance symbology. The trajectory-generation algorithm uses knowledge of the global mission requirements, a digital terrain map, aircraft performance capabilities, and advanced navigation information to determine a trajectory between mission way points that seeks valleys to minimize threat exposure. The pilot evaluation was conducted at NASA ARC moving base Vertical Motion Simulator (VMS) by pilots representing NASA, the U.S. Army, the Air Force, and the helicopter industry. The pilots manually tracked the trajectory generated by the algorithm utilizing the HMD symbology. The pilots were able to satisfactorily perform the tracking tasks while maintaining a high degree of awareness of the outside world.

Keywords: AIRCRAFT COMMUNICATIONS AND NAVIGATION

Type: NASA-TM-103883 , A-91219 , NAS 1.15:103883

Format: application/pdf

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5

Unknown

Wind-shear endurance capability for powered-lift aircraft (1993)

Hynes, Charles S. ; Hardy, Gordon H. ; Tanaka, Keiji ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: The present treatment of safety margin considerations for powered-lift (upper wing surface blowing) STOL aircraft emphasizes wind shear endurance, in order to establish safety margin criteria for such aircraft that are equivalent to those of conventional transport aircraft. The simulation results obtained show that a 6.6 deg climb gradient at V(app) for STOL aircraft is required for equivalent shear endurance in approaching a long STOL airport runway, if the STOL aircraft is equipped with an elaborate control/display system and is permitted a change in configuration.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: AIAA PAPER 93-3670 , In: AIAA Atmospheric Flight Mechanics Conference, Monterey, CA, Aug. 9-11, 1993, Technical Papers (A93-48301 20-08); p. 461-469.

Format: text

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6

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A method of wind shear detection for powered-lift STOL aircraft (1993)

Tanaka, Keiji ; Hardy, Gordon H. ; Bando, Toshio ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: A new wind shear warning system for powered-lift STOL aircraft was evaluated by using a flight simulator. Wind shear warning systems for CTOL aircraft have been designed to detect horizontal shear only. Because the approach air speed of STOL aircraft is lower than that for CTOL aircraft, STOL aircraft are more vulnerable to vertical wind due to (1) a gradient of horizontal shear that is smaller for STOL than for CTOL aircraft because of slower airspeed; (2) STOL aircraft spend longer time in a downdraft; and (3) vertical wind causes a more radical change in the STOL aircraft's flight path because of its lower airspeed. In order to detect the vertical wind, the wind shear warning system proposed calculates the difference between potential flight path measured on-board during shear traversal and trimmed flight path estimated from aircraft status. The most characteristic feature of this new system is that it utilizes only inertial information and pitot-static airspeed data; this yields a convenient means of on-board implementation. Simulation test results confirm that the new system can detect the vertical shear.

Keywords: AIRCRAFT INSTRUMENTATION

Type: AIAA PAPER 93-3667 , In: AIAA Atmospheric Flight Mechanics Conference, Monterey, CA, Aug. 9-11, 1993, Technical Papers (A93-48301 20-08); p. 442-447.

Format: text

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7

Unknown

Design and flight evaluation of an integrated navigation and near-terrain helicopter guidance system for night-time and adverse weather operations (1994)

Davis, Tom ; Zelenka, Richard E. ; Dearing, Munro G. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: NASA and the U.S. Army have designed, developed, and flight evaluated a Computer Aiding for Low Altitude Helicopter Flight (CALAHF) guidance system. This system provides guidance to the pilot for near terrain covert helicopter operations. It automates the processing of precision navigation information, helicopter mission requirements, and terrain flight guidance. The automation is presented to the pilot through symbology on a helmet-mounted display. The symbology is a 'pilot-centered' design which preserves pilot flexibility and authority over the CALAHF system's automation. An extensive flight evaluation of the system has been conducted using the U.S. Army's NUH-60 STAR (Systems Testbed for Avionics Research) research helicopter. The evaluations were flown over a multiwaypoint helicopter mission in rugged mountainous terrain, at terrain clearance altitudes from 300 to 125 ft and airspeeds from 40 to 110 knots. The results of these evaluations showed that the pilots could precisely follow the automation symbology while maintaining a high degree of situational awareness.

Keywords: AIRCRAFT COMMUNICATIONS AND NAVIGATION

Type: NASA-TM-108837 , A-94112 , NAS 1.15:108837

Format: application/pdf

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8

Unknown

Simulation evaluation of transition and hover flying qualities of the E-7A STOVL aircraft (1988)

Engelland, Shawn A. ; Stortz, Michael W. ; Franklin, James A. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: The generalized simulation model developed for the E-7A STOVL fighter-type aircraft configuration has attempted to define the limits of acceptibility for a vertical-to-horizontal-to-vertical flight transition envelope. An effort was also made to determine the control power required during hover and transition, and to evaluate whether the integration of flight and propulsion controls thus far effected achieves good flying qualities throughout the low-speed flight envelope. The results thus obtained furnish a general view of the acceptable transition corridor, expressed in terms of the minimum-climb capability.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: SAE PAPER 881430

Format: text

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9

Unknown

Simulation evaluation of a speed-guidance law for Harrier approach transitions (1991)

Gerdes, Ronald M. ; Stortz, Michael W. ; Moralez, Ernesto ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: An exponential-deceleration speed guidance law is formulated which mimics the technique currently used by Harrier pilots to perform decelerating approaches to a hover. This guidance law was tested along with an existing two-step constant deceleration speed guidance law, using a fixed-base piloted simulator programmed to represent a YAV-8B Harrier. Decelerating approaches to a hover at a predetermined station-keeping point were performed along a straight (-3 deg glideslope) path in headwinds up to 40 knots and turbulence up to 6 ft./sec. Visibility was fixed at one-quarter nautical mile and 100 ft. cloud ceiling. Three Harrier pilots participated in the experiment. Handling qualities with the aircraft equipped with the standard YAV-8B rate damped attitude stability augmentation system were adequate (level 2) using either speed guidance law. However, the exponential deceleration speed guidance law was rated superior to the constant-deceleration speed guidance law by a Cooper-Harper handling qualities rating of about one unit independent of the level of wind and turbulence. Replacing the attitude control system of the YAV-8B with a high fidelity model following attitude flight controller increased the approach accuracy and reduced the pilot workload. With one minor exception, the handling qualities for the approach were rated satisfactory (level 1). It is concluded that the exponential deceleration speed guidance law is the most cost effective.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: NASA-TM-102853 , A-90247 , NAS 1.15:102853

Format: application/pdf

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10

Unknown

Simulation evaluation of transition and hover flying qualities of a mixed-flow, remote-lift STOVL aircraft (1989)

Martin, James L. ; Stortz, Michael W. ; Franklin, James A. ; [et al.]

In: Other Sources

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Publication Date: 2019-06-28

Description: Using a generalized simulation model developed for piloted evaluations of STOVL aircraft, an initial fixed-base simulation of a mixed-flow, remote-lift configuration has been completed. Objectives were to evaluate the integration of the aircraft's flight and propulsion controls to achieve good flying qualities throughout the low-speed flight envelope; to determine control power used during transition, hover, and vertical landing; and to evaluate the transition flight envelope considering the influence of thrust deflection of the remote-lift component. Pilots' evaluations indicated that Level 1 flying qualities could be achieved for deceleration to hover in instrument conditions, for airfield landings, and for recovery to a small ship when attitude and velocity stabilization and command augmentation control modes were provided. Level 2 flying qualities were obtained for these same tasks when only the attitude command mode was used, leaving the pilot to perform the task of thrust management required to control the flight-path and speed in transition and the horizontal and vertical translational velocities in hover. Thrust margins were defined for vertical landing as a function of ground effect and hot-gas ingestion.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: SAE PAPER 892284

Format: text

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