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Preliminary subsonic aerodynamic model for simulation studies of the HL-20 lifting body (1992)

Jackson, E. Bruce ; Cruz, Christopher I.

In: CASI

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Publication Date: 2019-06-28

Description: A nonlinear, six-degree-of-freedom aerodynamic model for an early version of the HL-20 lifting body is described and compared with wind tunnel data upon which it is based. Polynomial functions describing most of the aerodynamic parameters are given and tables of these functions are presented. Techniques used to arrive at these functions are described. Basic aerodynamic coefficients were modeled as functions of angles of attack and sideslip. Vehicle lateral symmetry was assumed. Compressibility (Mach) effects were ignored. Control-surface effectiveness was assumed to vary linearly with angle of deflection and was assumed to be invariant with the angle of sideslip. Dynamic derivatives were obtained from predictive aerodynamic codes. Landing-gear and ground effects were scaled from Space Shuttle data. The model described is provided to support pilot-in-the-loop simulation studies of the HL-20. By providing the data in tabular format, the model is suitable for the data interpolation architecture of many existing engineering simulation facilities. Because of the preliminary nature of the data, however, this model is not recommended for study of the absolute performance of the HL-20.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: NASA-TM-4302 , L-16956 , NAS 1.15:4302

Format: application/pdf

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2

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Real-time simulation model of the HL-20 lifting body (1992)

Cruz, Christopher I. ; Ragsdale, W. A. ; Jackson, E. Bruce

In: CASI

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Publication Date: 2019-06-28

Description: A proposed manned spacecraft design, designated the HL-20, has been under investigation at Langley Research Center. Included in that investigation are flight control design and flying qualities studies utilizing a man-in-the-loop real-time simulator. This report documents the current real-time simulation model of the HL-20 lifting body vehicle, known as version 2.0, presently in use at NASA Langley Research Center. Included are data on vehicle aerodynamics, inertias, geometries, guidance and control laws, and cockpit displays and controllers. In addition, trim case and dynamic check case data is provided. The intent of this document is to provide the reader with sufficient information to develop and validate an equivalent simulation of the HL-20 for use in real-time or analytical studies.

Keywords: LAUNCH VEHICLES AND SPACE VEHICLES

Type: NASA-TM-107580 , NAS 1.15:107580

Format: application/pdf

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3

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Manual for a workstation-based generic flight simulation program (LaRCsim), version 1.4 (1995)

Jackson, E. Bruce

In: CASI

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Publication Date: 2019-06-28

Description: LaRCsim is a set of ANSI C routines that implement a full set of equations of motion for a rigid-body aircraft in atmospheric and low-earth orbital flight, suitable for pilot-in-the-loop simulations on a workstation-class computer. All six rigid-body degrees of freedom are modeled. The modules provided include calculations of the typical aircraft rigid-body simulation variables, earth geodesy, gravity and atmospheric models, and support several data recording options. Features/limitations of the current version include English units of measure, a 1962 atmosphere model in cubic spline function lookup form, ranging from sea level to 75,000 feet, rotating oblate spheroidal earth model, with aircraft C.G. coordinates in both geocentric and geodetic axes. Angular integrations are done using quaternion state variables Vehicle X-Z symmetry is assumed.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: NASA-TM-110164 , NAS 1.15:110164

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4

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Launch-pad abort capabilities of the HL-20 lifting body (1994)

Rivers, Robert A. ; Chowdhry, Rajiv S. ; Ragsdale, W. A. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The capability of the HL-20 lifting body to perform an abort maneuver from the launch pad to a horizontal landing was studied. The study involved both piloted and batch simulation models of the vehicle. A point-mass model of the vehicle was used for trajectory optimization studies. The piloted simulation was performed in the Langley Visual/Motion Simulator in the fixed-base mode. A candidate maneuver was developed and refined for the worst-case launch-pad-to-landing-site geometry with an iterative procedure of off-line maneuver analysis followed by piloted evaluations and heuristic improvements to the candidate maneuver. The resulting maneuver demonstrates the launch-site abort capability of the HL-20 and dictates requirements for nominal abort-motor performance. The sensitivity of the maneuver to variations in several design parameters was documented.

Keywords: AIRCRAFT STABILITY AND CONTROL

Type: NASA-TM-4550 , L-17330 , NAS 1.15:4550

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Progress Toward a Format Standard for Flight Dynamics Models (2006)

Jackson, E. Bruce ; Hildreth, Bruce L.

In: CASI

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Publication Date: 2019-07-27

Description: In the beginning, there was FORTRAN, and it was... not so good. But it was universal, and all flight simulator equations of motion were coded with it. Then came ACSL, C, Ada, C++, C#, Java, FORTRAN-90, Matlab/Simulink, and a number of other programming languages. Since the halcyon punch card days of 1968, models of aircraft flight dynamics have proliferated in training devices, desktop engineering and development computers, and control design textbooks. With the rise of industry teaming and increased reliance on simulation for procurement decisions, aircraft and missile simulation models are created, updated, and exchanged with increasing frequency. However, there is no real lingua franca to facilitate the exchange of models from one simulation user to another. The current state-of-the-art is such that several staff-months if not staff-years are required to 'rehost' each release of a flight dynamics model from one simulation environment to another one. If a standard data package or exchange format were to be universally adopted, the cost and time of sharing and updating aerodynamics, control laws, mass and inertia, and other flight dynamic components of the equations of motion of an aircraft or spacecraft simulation could be drastically reduced. A 2002 paper estimated over $ 6 million in savings could be realized for one military aircraft type alone. This paper describes the efforts of the American Institute of Aeronautics and Astronautics (AIAA) to develop a standard flight dynamic model exchange standard based on XML and HDF-5 data formats.

Keywords: Aircraft Stability and Control

Type: 2006 Fall Simulation Interoperability Workshop; 10-15 Sept. 2006; Orlando, FL; United States

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6

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Flight-Simulated Launch-Pad-Abort-to-Landing Maneuvers for a Lifting Body (1998)

Rivers, Robert A. ; Jackson, E. Bruce

In: CASI

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Publication Date: 2019-07-13

Description: The results of an in-flight investigation of the feasibility of conducting a successful landing following a launch-pad abort of a vertically-launched lifting body are presented. The study attempted to duplicate the abort-to-land-ing trajectory from the point of apogee through final flare and included the steep glide and a required high-speed, low-altitude turn to the runway heading. The steep glide was flown by reference to ground-provided guidance. The low-altitude turn was flown visually with a reduced field- of-view duplicating that of the simulated lifting body. Results from the in-flight experiment are shown to agree with ground-based simulation results; however, these tests should not be regarded as a definitive due to performance and control law dissimilarities between the two vehicles.

Keywords: Ground Support Systems and Facilities (Space)

Type: AIAA Paper 98-4254 , Atmospheric Flight Mechanics Conference; Aug 10, 1998 - Aug 12, 1998; Boston, MA; United States

Format: application/pdf

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7

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Autoreturn Function for a Remotely Piloted Vehicle (2002)

McMinn, J. D. ; Jackson, E. Bruce

In: CASI

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Publication Date: 2019-07-13

Description: An algorithm to maneuver an air vehicle to intercept and follow a pre-planned path while remaining within an arbitrary, closed boundary is outlined. The immediate application is for an autonomous lost-link return-to-runway function for a remotely piloted vehicle being developed by NASA, but other applications are hypothesized. Results of implementation in a flight simulator are given.

Keywords: Avionics and Aircraft Instrumentation

Type: AIAA Paper 2002-4673 , Guidance, Navigation and Control Conference; Aug 05, 2002 - Aug 08, 2002; Monterey, CA; United States

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Flight Dynamic Model Exchange using XML (2002)

Jackson, E. Bruce ; Hildreth, Bruce L.

In: CASI

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Publication Date: 2019-07-13

Description: The AIAA Modeling and Simulation Technical Committee has worked for several years to develop a standard by which the information needed to develop physics-based models of aircraft can be specified. The purpose of this standard is to provide a well-defined set of information, definitions, data tables and axis systems so that cooperating organizations can transfer a model from one simulation facility to another with maximum efficiency. This paper proposes using an application of the eXtensible Markup Language (XML) to implement the AIAA simulation standard. The motivation and justification for using a standard such as XML is discussed. Necessary data elements to be supported are outlined. An example of an aerodynamic model as an XML file is given. This example includes definition of independent and dependent variables for function tables, definition of key variables used to define the model, and axis systems used. The final steps necessary for implementation of the standard are presented. Software to take an XML-defined model and import/export it to/from a given simulation facility is discussed, but not demonstrated. That would be the next step in final implementation of standards for physics-based aircraft dynamic models.

Keywords: Computer Programming and Software

Type: AIAA Paper 2002-4482 , Modeling and Simulation Conference; Aug 05, 2002 - Aug 08, 2002; Monterey, CA; United States

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Handling Qualities Implications for Crewed Spacecraft Operations (2012)

Jackson, E. Bruce ; Bailey, Randall E. ; Arthur, J. J.

In: CASI

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Publication Date: 2019-07-13

Description: Abstract Handling qualities embody those qualities or characteristics of an aircraft that govern the ease and precision with which a pilot is able to perform the tasks required in support of an aircraft role. These same qualities are as critical, if not more so, in the operation of spacecraft. A research, development, test, and evaluation process was put into effect to identify, understand, and interpret the engineering and human factors principles which govern the pilot-vehicle dynamic system as they pertain to space exploration missions and tasks. Toward this objective, piloted simulations were conducted at the NASA Langley Research Center and Ames Research Center for earth-orbit proximity operations and docking and lunar landing. These works provide broad guidelines for the design of spacecraft to exhibit excellent handling characteristics. In particular, this work demonstrates how handling qualities include much more than just stability and control characteristics of a spacecraft or aircraft. Handling qualities are affected by all aspects of the pilot-vehicle dynamic system, including the motion, visual and aural cues of the vehicle response as the pilot performs the required operation or task. A holistic approach to spacecraft design, including the use of manual control, automatic control, and pilot intervention/supervision is described. The handling qualities implications of design decisions are demonstrated using these pilot-in-the-loop evaluations of docking operations and lunar landings.

Keywords: Air Transportation and Safety

Type: NF1676L-13682 , 2012 IEEE Aerospace Conference; Mar 03, 2012 - Mar 10, 2012; Big Sky, MT; United States

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Assessment of the Draft AIAA S-119 Flight Dynamic Model Exchange Standard (2011)

Jessick, Matthew V. ; Vuong, Nghia ; Murri, Daniel G. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: An assessment of a draft AIAA standard for flight dynamics model exchange, ANSI/AIAA S-119-2011, was conducted on behalf of NASA by a team from the NASA Engineering and Safety Center. The assessment included adding the capability of importing standard models into real-time simulation facilities at several NASA Centers as well as into analysis simulation tools. All participants were successful at importing two example models into their respective simulation frameworks by using existing software libraries or by writing new import tools. Deficiencies in the libraries and format documentation were identified and fixed; suggestions for improvements to the standard were provided to the AIAA. An innovative tool to generate C code directly from such a model was developed. Performance of the software libraries compared favorably with compiled code. As a result of this assessment, several NASA Centers can now import standard models directly into their simulations. NASA is considering adopting the now-published S-119 standard as an internal recommended practice.

Keywords: Aeronautics (General)

Type: AIAA Paper 2011-6583 , NF1676L-11965 , AIAA Modeling and Simulation Technologies Conference; Aug 08, 2011 - Aug 11, 2011; Portland, OR; United States

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