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Hyper-X Post-Flight Trajectory Reconstruction (2004)

Toniolo, Matthew D. ; Blanchard, RobertC. ; Karlgaard, Christopher D. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This paper discusses the formulation and development of a trajectory reconstruction tool for the NASA X{43A/Hyper{X high speed research vehicle, and its implementation for the reconstruction and analysis of ight test data. Extended Kalman ltering techniques are employed to reconstruct the trajectory of the vehicle, based upon numerical integration of inertial measurement data along with redundant measurements of the vehicle state. The equations of motion are formulated in order to include the effects of several systematic error sources, whose values may also be estimated by the ltering routines. Additionally, smoothing algorithms have been implemented in which the nal value of the state (or an augmented state that includes other systematic error parameters to be estimated) and covariance are propagated back to the initial time to generate the best-estimated trajectory, based upon all available data. The methods are applied to the problem of reconstructing the trajectory of the Hyper-X vehicle from ight data.

Keywords: Astrodynamics

Type: AIAA Paper 2004-4829 , AIAA Atmospheric Flight Mechanics Conference and Exhibit; Aug 16, 2004 - Aug 19, 2004; Providence, RI; United States

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Modeling Multibody Stage Separation Dynamics Using Constraint Force Equation Methodology (2011)

Karlgaard, Christopher D. ; Tartabini, Paul V. ; Roithmayr, Carlos M. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This paper discusses the application of the constraint force equation methodology and its implementation for multibody separation problems using three specially designed test cases. The first test case involves two rigid bodies connected by a fixed joint, the second case involves two rigid bodies connected with a universal joint, and the third test case is that of Mach 7 separation of the X-43A vehicle. For the first two cases, the solutions obtained using the constraint force equation method compare well with those obtained using industry- standard benchmark codes. For the X-43A case, the constraint force equation solutions show reasonable agreement with the flight-test data. Use of the constraint force equation method facilitates the analysis of stage separation in end-to-end simulations of launch vehicle trajectories

Keywords: Spacecraft Design, Testing and Performance

Type: NF1676L-11076 , AIAA Modeling and Simulation Technologies Conference and Exhibit; Aug 18, 2008 - Aug 21, 2008; Honolulu, HI; United States

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Impact of Vehicle Flexibility on IRVE-II Flight Dynamics (2011)

Bose, David M. ; Cheatwood, F. M. ; Hughes, Stephen J. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The Inflatable Re-entry Vehicle Experiment II (IRVE-II) successfully launched from Wallops Flight Facility (WFF) on August 17, 2009. The primary objectives of this flight test were to demonstrate inflation and re-entry survivability, assess the thermal and drag performance of the reentry vehicle, and to collect flight data for refining pre-flight design and analysis tools. Post-flight analysis including trajectory reconstruction outlined in O Keefe3 demonstrated that the IRVE-II Research Vehicle (RV) met mission objectives but also identified a few anomalies of interest to flight dynamics engineers. Most notable of these anomalies was high normal acceleration during the re-entry pressure pulse. Deflection of the inflatable aeroshell during the pressure pulse was evident in flight video and identified as the likely cause of the anomaly. This paper provides a summary of further post-flight analysis with particular attention to the impact of aeroshell flexibility on flight dynamics and the reconciliation of flight performance with pre-flight models. Independent methods for estimating the magnitude of the deflection of the aeroshell experienced on IRVE-II are discussed. The use of the results to refine models for pre-flight prediction of vehicle performance is then described.

Keywords: Spacecraft Design, Testing and Performance

Type: NF1676L-11508 , 21st AIAA Aerodynamic Decelerator Systems Technology Conference and Seminar; May 23, 2011 - May 26, 2011; Dublin; Ireland

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Verification of a Constraint Force Equation Methodology for Modeling Multi-Body Stage Separation (2008)

Tartabini, Paul V. ; Roithmayr, Carlos ; Karlgaard, Christopher ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This paper discusses the verification of the Constraint Force Equation (CFE) methodology and its implementation in the Program to Optimize Simulated Trajectories II (POST2) for multibody separation problems using three specially designed test cases. The first test case involves two rigid bodies connected by a fixed joint; the second case involves two rigid bodies connected with a universal joint; and the third test case is that of Mach 7 separation of the Hyper-X vehicle. For the first two cases, the POST2/CFE solutions compared well with those obtained using industry standard benchmark codes, namely AUTOLEV and ADAMS. For the Hyper-X case, the POST2/CFE solutions were in reasonable agreement with the flight test data. The CFE implementation in POST2 facilitates the analysis and simulation of stage separation as an integral part of POST2 for seamless end-to-end simulations of launch vehicle trajectories.

Keywords: Aerodynamics

Type: AIAA Modeling and Simulation Technologies Conference; Aug 18, 2008 - Aug 21, 2008; Honolulu, HI; United States

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Constraint Force Equation Methodology for Modeling Multi-Body Stage Separation Dynamics (2008)

Pamadi, Bandu N. ; Tartabini, Paul V. ; Hotchko, Nathaniel ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: This paper discusses a generalized approach to the multi-body separation problems in a launch vehicle staging environment based on constraint force methodology and its implementation into the Program to Optimize Simulated Trajectories II (POST2), a widely used trajectory design and optimization tool. This development facilitates the inclusion of stage separation analysis into POST2 for seamless end-to-end simulations of launch vehicle trajectories, thus simplifying the overall implementation and providing a range of modeling and optimization capabilities that are standard features in POST2. Analysis and results are presented for two test cases that validate the constraint force equation methodology in a stand-alone mode and its implementation in POST2.

Keywords: Fluid Mechanics and Thermodynamics

Type: 46th AIAA Aerospace Sciences Meeting and Exhibit; Jan 07, 2008 - Jan 10, 2008; Reno, NV; United States

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Application of CFE/POST2 for Simulation of Launch Vehicle Stage Separation (2009)

Toniolo, Matthew D. ; Karlgaard, Christopher D. ; Tartabini, Paul V. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: The constraint force equation (CFE) methodology provides a framework for modeling constraint forces and moments acting at joints that connect multiple vehicles. With implementation in Program to Optimize Simulated Trajectories II (POST 2), the CFE provides a capability to simulate end-to-end trajectories of launch vehicles, including stage separation. In this paper, the CFE/POST2 methodology is applied to the Shuttle-SRB separation problem as a test and validation case. The CFE/POST2 results are compared with STS-1 flight test data.

Keywords: Spacecraft Design, Testing and Performance

Type: LF99-9267 , AIAA Paper 2009-5842 , AIAA Atmospheric Flight Mechanics Conference; Aug 10, 2009 - Aug 13, 2009; Chicago, Il; United States

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Development of Constraint Force Equation Methodology for Application to Multi-Body Dynamics Including Launch Vehicle Stage Seperation (2016)

Pamadi, Bandu N. ; Toniolo, Matthew D. ; Albertson, Cindy W. ; [et al.]

In: CASI

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Publication Date: 2019-07-12

Description: The objective of this report is to develop and implement a physics based method for analysis and simulation of multi-body dynamics including launch vehicle stage separation. The constraint force equation (CFE) methodology discussed in this report provides such a framework for modeling constraint forces and moments acting at joints when the vehicles are still connected. Several stand-alone test cases involving various types of joints were developed to validate the CFE methodology. The results were compared with ADAMS(Registered Trademark) and Autolev, two different industry standard benchmark codes for multi-body dynamic analysis and simulations. However, these two codes are not designed for aerospace flight trajectory simulations. After this validation exercise, the CFE algorithm was implemented in Program to Optimize Simulated Trajectories II (POST2) to provide a capability to simulate end-to-end trajectories of launch vehicles including stage separation. The POST2/CFE methodology was applied to the STS-1 Space Shuttle solid rocket booster (SRB) separation and Hyper-X Research Vehicle (HXRV) separation from the Pegasus booster as a further test and validation for its application to launch vehicle stage separation problems. Finally, to demonstrate end-to-end simulation capability, POST2/CFE was applied to the ascent, orbit insertion, and booster return of a reusable two-stage-to-orbit (TSTO) vehicle concept. With these validation exercises, POST2/CFE software can be used for performing conceptual level end-to-end simulations, including launch vehicle stage separation, for problems similar to those discussed in this report.

Keywords: Spacecraft Design, Testing and Performance

Type: NASA/TP-2016-219326 , L-20644 , NF1676L-23195

Format: application/pdf

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Preliminary Dynamic Feasibility and Analysis of a Spherical, Wind-Driven (Tumbleweed), Martian Rover (2005)

Flick, John J. ; Toniolo, Matthew D.

In: CASI

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Publication Date: 2019-07-13

Description: The process and findings are presented from a preliminary feasibility study examining the dynamics characteristics of a spherical wind-driven (or Tumbleweed) rover, which is intended for exploration of the Martian surface. The results of an initial feasibility study involving several worst-case mobility situations that a Tumbleweed rover might encounter on the surface of Mars are discussed. Additional topics include the evaluation of several commercially available analysis software packages that were examined as possible platforms for the development of a Monte Carlo Tumbleweed mission simulation tool. This evaluation lead to the development of the Mars Tumbleweed Monte Carlo Simulator (or Tumbleweed Simulator) using the Vortex physics software package from CM-Labs, Inc. Discussions regarding the development and evaluation of the Tumbleweed Simulator, as well as the results of a preliminary analysis using the tool are also presented. Finally, a brief conclusions section is presented.

Keywords: Lunar and Planetary Science and Exploration

Type: AIAA Paper 2005-0250 , 43rd AIAA Aerospace Sciences Meeting and Exhibit; Jan 10, 2005 - Jan 13, 2005; Reno, NV; United States

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