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  • 1
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    Trajectory Guidance for Mars Robotic Precursors: Aerocapture, Entry, Descent, and Landing (2011)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: Future crewed missions to Mars require improvements in landed mass capability beyond that which is possible using state-of-the-art Mars Entry, Descent, and Landing (EDL) systems. Current systems are capable of an estimated maximum landed mass of 1-1.5 metric tons (MT), while human Mars studies require 20-40 MT. A set of technologies were investigated by the EDL Systems Analysis (SA) project to assess the performance of candidate EDL architectures. A single architecture was selected for the design of a robotic precursor mission, entitled Exploration Feed Forward (EFF), whose objective is to demonstrate these technologies. In particular, inflatable aerodynamic decelerators (IADs) and supersonic retro-propulsion (SRP) have been shown to have the greatest mass benefit and extensibility to future exploration missions. In order to evaluate these technologies and develop the mission, candidate guidance algorithms have been coded into the simulation for the purposes of studying system performance. These guidance algorithms include aerocapture, entry, and powered descent. The performance of the algorithms for each of these phases in the presence of dispersions has been assessed using a Monte Carlo technique.
    Keywords: Spacecraft Design, Testing and Performance
    Type: JSC-CN-23876 , International Planetary Probe Workshop (IPPW-8); Jun 06, 2011 - Jun 10, 2011; Portsmouth, VA; United States
    Format: application/pdf
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    NASA TECHNICAL REPORTS
  • 2
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    Overview of the NASA Entry, Descent and Landing Systems Analysis Exploration Feed-Forward Study (2011)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: Technology required to land large payloads (20 to 50 mt) on Mars remains elusive. In an effort to identify the most viable investment path, NASA and others have been studying various concepts. One such study, the Entry, Descent and Landing Systems Analysis (EDLSA) Study [1] identified three potential options: the rigid aeroshell, the inflatable aeroshell and supersonic retropropulsion (SRP). In an effort to drive out additional levels of design detail, a smaller demonstrator, or exploration feed-forward (EFF), robotic mission was devised that utilized two of the three (inflatable aeroshell and SRP) high potential technologies in a configuration to demonstrate landing a two to four metric ton payload on Mars. This paper presents and overview of the maximum landed mass, inflatable aeroshell controllability and sensor suite capability assessments of the selected technologies and recommends specific technology areas for additional work.
    Keywords: Spacecraft Design, Testing and Performance
    Type: NF1676L-12195 , 8th International Planetary Probe Workshop 2011 (IPPW-8); Jun 06, 2010 - Jun 10, 2010; Portsmouth, VA; United States
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    NASA TECHNICAL REPORTS
  • 3
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    Entry, Descent, and Landing Performance for a Mid-Lift-to-Drag Ratio Vehicle at Mars (2018)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: In an effort to mature the design of the Mid-Lift-to-Drag ratio Rigid Vehicle (MRV) candidate of the NASA Evolvable Mars Campaign (EMC) architecture study, end-to-end six-degree-of-freedom (6DOF) simulations are needed to ensure a successful entry, descent, and landing (EDL) design. The EMC study is assessing different vehicle and mission architectures to determine which candidate would be best to deliver a 20 metric ton payload to the surface of Mars. Due to the large mass payload and the relatively low atmospheric density of Mars, all candidates of the EMC study propose to use Supersonic Retro-Propulsion (SRP) throughout the descent and landing phase, as opposed to parachutes, in order to decelerate to a subsonic touchdown. This paper presents a 6DOF entry-to-landing performance and controllability study with sensitivities to dispersions, particularly in the powered descent and landing phases.
    Keywords: Spacecraft Design, Testing and Performance; Astronautics (General)
    Type: JSC-E-DAA-TN51349 , 2018 American Astronautical Society Guidance and Control Conference; Feb 02, 2018 - Feb 07, 2018; Breckenridge, CO; United States
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    NASA TECHNICAL REPORTS
  • 4
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    Mid Lift-to-Drag Ratio Rigid Vehicle 6-DoF Performance for Human Mars Entry, Descent, and Landing: A Fractional Polynomial Powered Descent Guidance Approach (2020)
    In:  CASI
    Details
    Publication Date: 2020-01-17
    Description: Defining a feasible vehicle design and mission architecture capable of reliably delivering apayload of 20 metric tons (mt) or more is a great challenge for landing humans on Mars. TheMid Lift-to-Drag Rigid Vehicle (MRV), a rigid decelerator studied in NASAs Entry, Descent,and Landing Architecture Study (EDLAS), has shown to be a viable vehicle candidate forfuture human Mars missions. As the vehicle concept matures, models of increasing fidelity areadded to the six-degree-of-freedom (6DoF) EDL simulation. This paper presents 6DoFsimulation results using model updates for vehicle mass properties, fineness ratio, andaerodynamic-propulsive interactions. Additionally, an assessment of the Fractional-Polynomial Powered Descent Guidance (FP2DG) performance is presented, and the vehicleperformance is compared with the Tunable Apollo Powered Descent Guidance (TAPDG).Finally, Monte Carlo results of the vehicle design trades are presented.
    Keywords: Spacecraft Design, Testing and Performance
    Type: JSC-E-DAA-TN75777 , AIAA SciTech 2020; Jan 06, 2020 - Jan 10, 2020; Orlando, FL; United States
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    NASA TECHNICAL REPORTS
  • 5
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    Overview of the NASA Entry, Descent and Landing Systems Analysis Study (2010)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: NASA senior management commissioned the Entry, Descent and Landing Systems Analysis (EDL-SA) Study in 2008 to identify and roadmap the Entry, Descent and Landing (EDL) technology investments that the agency needed to make in order to successfully land large payloads at Mars for both robotic and human-scale missions. This paper summarizes the approach and top-level results from Year 1 of the Study, which focused on landing 10-50 mt on Mars, but also included a trade study of the best advanced parachute design for increasing the landed payloads within the EDL architecture of the Mars Science Laboratory (MSL) mission.
    Keywords: Astrodynamics
    Type: NF1676L-10179 , AIAA SPACE 2010 Conference and Exposition; Aug 31, 2010 - Sep 02, 2010; Anaheim, CA; United States
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    NASA TECHNICAL REPORTS
  • 6
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    Advances in POST2 End-to-End Descent and Landing Simulation for the ALHAT Project (2008)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: Program to Optimize Simulated Trajectories II (POST2) is used as a basis for an end-to-end descent and landing trajectory simulation that is essential in determining design and integration capability and system performance of the lunar descent and landing system and environment models for the Autonomous Landing and Hazard Avoidance Technology (ALHAT) project. The POST2 simulation provides a six degree-of-freedom capability necessary to test, design and operate a descent and landing system for successful lunar landing. This paper presents advances in the development and model-implementation of the POST2 simulation, as well as preliminary system performance analysis, used for the testing and evaluation of ALHAT project system models.
    Keywords: Spacecraft Design, Testing and Performance
    Type: AIAA/AAS Astrodynamics Specialist Conference; Aug 18, 2008 - Aug 21, 2008; Honolulu, HI; United States
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    NASA TECHNICAL REPORTS
  • 7
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    Maraia Capsule Flight Testing and Results for Entry, Descent, and Landing (2016)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: The Maraia concept is a modest size (150 lb., 30" diameter) capsule that has been proposed as an ISS based, mostly autonomous earth return capability to function either as an Entry, Descent, and Landing (EDL) technology test platform or as a small on-demand sample return vehicle. A flight test program has been completed including high altitude balloon testing of the proposed capsule shape, with the purpose of investigating aerodynamics and stability during the latter portion of the entry flight regime, along with demonstrating a potential recovery system. This paper includes description, objectives, and results from the test program.
    Keywords: Spacecraft Design, Testing and Performance; Space Transportation and Safety
    Type: JSC-CN-34870 , AIAA SciTech Conference 2016; Jan 04, 2016 - Jan 08, 2016; San Diego, CA; United States
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    NASA TECHNICAL REPORTS
  • 8
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    Lunar Ascent and Rendezvous Trajectory Design (2008)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: The Lunar Lander Ascent Module (LLAM) will leave the lunar surface and actively rendezvous in lunar orbit with the Crew Exploration Vehicle (CEV). For initial LLAM vehicle sizing efforts, a nominal trajectory, along with required delta-V and a few key sensitivities, is very useful. A nominal lunar ascent and rendezvous trajectory is shown, along with rationale and discussion of the trajectory shaping. Also included are ascent delta-V sensitivities to changes in target orbit and design thrust-to-weight of the vehicle. A sample launch window for a particular launch site has been completed and is included. The launch window shows that budgeting enough delta-V for two missed launch opportunities may be reasonable. A comparison between yaw steering and on-orbit plane change maneuvers is included. The comparison shows that for large plane changes, which are potentially necessary for an anytime return from mid-latitude locations, an on-orbit maneuver is much more efficient than ascent yaw steering. For a planned return, small amounts of yaw steering may be necessary during ascent and must be accounted for in the ascent delta-V budget. The delta-V cost of ascent yaw steering is shown, along with sensitivity to launch site latitude. Some discussion of off-nominal scenarios is also included. In particular, in the case of a failed Powered Descent Initiation burn, the requirements for subsequent rendezvous with the Orion vehicle are outlined.
    Keywords: Spacecraft Design, Testing and Performance
    Type: AAS 08-066 , 31st Annual AAS Guidance and Control Conference; Feb 01, 2008 - Feb 06, 2008; Breckenridge, Co; United States
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    NASA TECHNICAL REPORTS
  • 9
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    Powered Descent Trajectory Guidance and Some Considerations for Human Lunar Landing (2007)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: The Autonomous Precision Landing and Hazard Detection and Avoidance Technology development (ALHAT) will enable an accurate (better than 100m) landing on the lunar surface. This technology will also permit autonomous (independent from ground) avoidance of hazards detected in real time. A preliminary trajectory guidance algorithm capable of supporting these tasks has been developed and demonstrated in simulations. Early results suggest that with expected improvements in sensor technology and lunar mapping, mission objectives are achievable.
    Keywords: Lunar and Planetary Science and Exploration
    Type: AAS-07-051 , 2007 AAS Guidance and Control Conference; Feb 03, 2007 - Feb 07, 2007; Breckenridge, CO; United States
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    NASA TECHNICAL REPORTS
  • 10
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    Application of a Fully Numerical Guidance to Mars Aerocapture (2017)
    In:  CASI
    Details
    Publication Date: 2019-07-13
    Description: An advanced guidance algorithm, Fully Numerical Predictor-corrector Aerocapture Guidance (FNPAG), has been developed to perform aerocapture maneuvers in an optimal manner. It is a model-based, numerical guidance that benefits from requiring few adjustments across a variety of different hypersonic vehicle lift-to-drag ratios, ballistic co-efficients, and atmospheric entry conditions. In this paper, FNPAG is first applied to the Mars Rigid Vehicle (MRV) mid lift-to-drag ratio concept. Then the study is generalized to a design map of potential Mars aerocapture missions and vehicles, ranging from the scale and requirements of recent robotic to potential human and precursor missions. The design map results show the versatility of FNPAG and provide insight for the design of Mars aerocapture vehicles and atmospheric entry conditions to achieve desired performance.
    Keywords: Astrodynamics; Spacecraft Design, Testing and Performance; Lunar and Planetary Science and Exploration
    Type: JSC-CN-38303 , AIAA SciTech Forum 2017; Jan 09, 2017 - Jan 13, 2017; Grapevine, TX; United States
    Format: application/pdf
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    NASA TECHNICAL REPORTS
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