Synonyme wurden verwendet für: Space
Suche ohne Synonyme: keywords:(Space environments)

1–50 von 1,360 Ergebnissen
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    Human Landing System (HLS) Program Non-Design Driver Lunar Environments

    A. Paez / R. Suggs | NTIS | 2023
    Schlagwörter: Lunar environments , Natural environments , Space environments

    ROSA and Solar Cell Module Combined Environments Test Plan

    J. Kenneth H Wright / B. Hoang / T. A. Schneider et al. | NTIS | 2022
    Schlagwörter: Space Technology , Space environments effects testing

    Can the Outer Space Treaty Prevent Conflicts in Orbit in the 21st Century

    N. M. Breen | NTIS | 2018
    Schlagwörter: Space debris , Space environments , Ost(outer space treaty) , Space weaponization , Space mining

    Haystack Ultrawideband Satellite Imaging Radar

    Usoff J. | NTIS | 2014
    Schlagwörter: Space environments , Space surveillance

    Space Debris Orbit and Attitude Prediction for Enhanced and Efficient Space Situational Awareness

    H. S. Virdee | NTIS | 2018
    Schlagwörter: Space objects , Space environments , Space situational awareness , Space debris

    Further Analysis of Materials Exposed on MISSE-6 and-7B

    M. Finckenor / A. F. Stewart / M. Kravchenko et al. | NTIS | 2013
    Schlagwörter: Space Technology , Aerospace environments , International space station , Earth orbital environments

    Purposeful Development of the Intelligence, Surveillance, and Reconnaissance for Space Cadre

    M. R. Overton | NTIS | 2016
    Schlagwörter: Space environments , Space systems , Outer space treaty

    Assessment and Mitigation of the Effects of Noise on Habitability in Deep Space Environments: Report on Non-Auditory Effects of Noise

    D. R. Begault | NTIS | 2018
    Schlagwörter: Aerospace environments , Space habitats , Cislunar space , Deep space

    Options and Challenges for OD Environment Remediation

    J. C. Liou | NTIS | 2012
    Schlagwörter: Space debris , Earth orbital environments , Space shuttles , Aerospace environments , Space missions , Space law , International space station

    Recent Activities of the Marshall Space Flight Center Natural Environments Branch Terrestrial & Planetary Environments Team

    B. C. Roberts | NTIS | 2017
    Schlagwörter: Space exploration , Planetary environments , Nasa space programs

    SpaceCom Conference 2016 MCCS Demo

    M. Spicer / S. Gano / J. Morehead | NTIS | 2016
    Schlagwörter: Space Technology , International space station , Spacecraft environments , Thermal environments , Space station power supplies , Space missions

    Study of the Impact of Long-Term Space Travel on the Astronauts' Microbiome. (Microbiome)

    A. Voorhies / M. Torralba / K. Moncera et al. | NTIS | 2017
    Schlagwörter: Space Technology , Space flight , Spacecraft environments , Space missions , International space station

    Space Debris Mitigation CONOPS Development

    E. B. Alejandro | NTIS | 2013
    Schlagwörter: Space environments , Space debris , Space law , Space debris characterization , Space debris mitigation , Space collisions

    Challenges to Security in Space

    NTIS | 2019
    Schlagwörter: Space environments , Space defense , Space exploration , Space warfare , Outer space , Space missions , Space communications

    LSAH Data Requirements

    M. G. Van Baalen | NTIS | 2018
    Schlagwörter: Space Technology , Aerospace environments

    Task Force on Defense Strategies for Ensuring the Resilience of National Space Capabilities. Executive Summary

    W. M. Austin / D. E. Frost | NTIS | 2017
    Schlagwörter: Space systems , Space situational awareness , Space environments

    SPACE MEDICINE and Medical Operations Overview

    J. Dervay | NTIS | 2009
    Schlagwörter: Space Technology , Space psychology , Spacecraft environments , Space flight , Aerospace environments

    Testing of NASA LaRC Materials under MISSE 6 and MISSE 7 Missions

    N. S. Prasad | NTIS | 2009
    Schlagwörter: Aerospace environments , Earth orbital environments , Space weathering , Extraterrestrial environments , International space station

    NASA Plum Brook Station In-Space Propulsion Facility Test Stand Characterization Hot Fire Test

    B. K. Jones / J. C. Zang / H. F. Weaver et al. | NTIS | 2018
    Schlagwörter: Space Technology , Thermal environments

    Comparative Benchmark Dose Modeling as a Tool to Make the First Estimate of Safe Human Exposure Levels to Lunar Dust

    J. T. James / C. Lam / R. R. Scully | NTIS | 2013
    Schlagwörter: Space Technology , Space habitats , Space environment simulation , Aerospace environments

    Space Architecture: Systems Architecting

    K. J. Kennedy | NTIS | 2016
    Schlagwörter: Aerospace environments , Space habitats , Space exploration , Inflatable space structures , Deep space

    Occupational Surveillance for Space Flight Exosures

    W. Tarver | NTIS | 2010
    Schlagwörter: Space Technology , Aerospace environments , Space flight , Spacecraft environments

    In-Space Manufacturing (ISM): Make it, Don't Take it!

    N. Werkheiser | NTIS | 2019
    Schlagwörter: Aerospace environments , Space manufacturing

    Space Architecture Case Study: TransHab Inflatable Habitat

    K. Kennedy | NTIS | 2016
    Schlagwörter: Inflatable space structures , Space habitats , Aerospace environments , International space station

    L-8: Space Environment Test Capability/James Webb Space Telescope

    C. Anchondo | NTIS | 2016
    Schlagwörter: Aerospace environments , James webb space telescope , Space exploration

    Contested Space Operations, Space Defense, Deterrence, And Warfighting: Summary Findings And Integration Report

    A. Astorino-Courtois / R. Elder / B. Bragg | NTIS | 2018
    Schlagwörter: Space systems , Space situational awareness , Space debris , Space environments , Space based , Outer space , Nss(national security space) , Ost(outer space treaty)

    Space Resilience and the Contested, Degraded, and Operationally Limited Environment: The Gaps in Tactical Space Operations

    B. M. Bell / E. T. Rogers | NTIS | 2014
    Schlagwörter: Air space , Space missions , Environments , Space environments , Space operations

    NASA Utilization of the International Space Station and the Vision for Space Exploration

    J. A. Robinson / D. A. Thomas | NTIS | 2006
    Schlagwörter: International space station , Aerospace environments , Space exploration

      NASA Utilization of the International Space Station and the Vision for Space Exploration

      J. A. Robinson / D. A. Thomas / T. L. Thumm | NTIS | 2006
      Schlagwörter: Space Technology , Aerospace environments , International space station , Long duration space flight , Space exploration , Extraterrestrial environments , Manned space flight , Space habitats

      NASA Utilization of the International Space Station and the Vision for Space Exploration

      J. A. Robinson / T. L. Thumm / D. A. Thomas | NTIS | 2006
      Schlagwörter: Aerospace environments , International space station , Spacecraft environments , Long duration space flight , Space exploration , Space missions , Manned space flight

    Risk of Cardiac Rhythm Problems During Spaceflight

    S. M. C. Lee / M. B. Stenger / S. S. Laurie et al. | NTIS | 2017
    Schlagwörter: Space Technology , Spacecraft environments , International space station , Space programs , Space flight

    Science in Orbit

    M. E. Weber | NTIS | 2005
    Schlagwörter: Space Technology , Aerospace environments , Space stations

    Advantages and Context of Omic Approaches for Microbial Risk Assessments of Spacecraft Environments

    C. M. Ott | NTIS | 2017
    Schlagwörter: Space Technology , Manned space flight , Spacecraft environments , International space station

    Wireless Sensors Applications at Marshall Space Flight Center

    Fabisinski L. | NTIS | 2015
    Schlagwörter: Aerospace environments , Deep space , Space habitats

    Orbital Debris Mitigation Policy and Unique Challenges for CubeSats

    Liou J. | NTIS | 2015
    Schlagwörter: Space debris , Earth orbital environments , Space observations (from earth) , Space flight

    GEOLAB: A Habitat-Based Geoscience Laboratory for Human Exploration Missions

    C. A. Evans / M. J. Calaway / M. S. Bell | NTIS | 2012
    Schlagwörter: Space Launch Vehicles & Support Equipment , Space habitats , Space laboratories , Extraterrestrial environments

    Creating the Deep Space Environment for Testing the James Webb Space Telescope (JWST) at NASA Johnson Space Center's Chamber A

    J. L. Homan / M. P. Cerimele / M. E. Montz et al. | NTIS | 2013
    Schlagwörter: Space Technology , Aerospace environments , Spacecraft environments , James webb space telescope , Deep space

    Resurgence of Human Space Flight

    Schumacher D. | NTIS | 2015
    Schlagwörter: Space Launch Vehicles & Support Equipment , Space flight , Manned space flight , Space exploration , Long duration space flight , Planetary environments , Space commercialization

    Celestial Deterrence: Deterring Aggression in the Global Commons of Space

    E. J. Zarybnisky | NTIS | 2018
    Schlagwörter: Space environments

    GeneLab: “Omics” Data Systems for Spaceflight and Simulated Spaceflight Environment

    S. Costes / J. Galazka / A. Beheshti et al. | NTIS | 2018
    Schlagwörter: International space station , Spacecraft environments

    Personnel Recovery in Space: A New Venture for Human Space Flight Support

    B. L. Desautels | NTIS | 2016
    Schlagwörter: Space environments , Space exploration , Space shuttles , Space stations , Space flight , Hsfs(human space flight support)

    Space Weather Effects on Range Operations

    NTIS | 2013
    Schlagwörter: SPACE ENVIRONMENTS , SPACE WEATHER , NOAA SPACE WEATHER SCALES

    Highlights of 2018-2019 NASA Orbital Debris Research Activities

    J. -. C. Liou | NTIS | 2019
    Schlagwörter: Space debris , Earth orbital environments

    NewSpace: The Emerging Commercial Space Industry

    Martin G. | NTIS | 2016
    Schlagwörter: Space commercialization , Space exploration , Space tourism , Space manufacturing , Space processing , Earth orbital environments , Deep space

    Lightweight Multifunctional Planetary Probe for Extreme Environment Exploration and Locomotion

    J. Bayandor / K. Schroeder / J. Samareh | NTIS | 2017
    Schlagwörter: Extraterrestrial environments , Planetary environments , Space probes , Aerospace environments , Space exploration

    Natural Environment Design Requirements for the Space Tug

    G. S. West | NTIS | 1973
    Schlagwörter: Aerospace environments , Extraterrestrial environments , Space shuttles , Space tugs , Space environment simulation

    L-8: Non-Venting Thermal Control Systems for Space Vehicles: Boilerplate

    F. Smith / C. Massina | NTIS | 2016
    Schlagwörter: Thermal environments , Spacecraft environments , Space suits , Nasa space programs

    Electrodynamic Dust Shields on the International Space Station: Exposure to the Space Environment

    C. I. Calle / M. D. Hogue / M. R. Johansen et al. | NTIS | 2012
    Schlagwörter: Space exploration , Aerospace environments

    Integrating the High Ground: Enabling Defense, Civil and Commercial Space Support to Nation-Building

    M. S. Cantore | NTIS | 2010
    Schlagwörter: Space systems , Space environments , Space missions

    Legal Property Rights in Space: Implications for the U.S. Space Force and the Outer Space Treaty

    R. W. Brown | NTIS | 2020
    Schlagwörter: Space environments , United states space force

    University of Calgary Space Architecture & Systems Architecting

    K. J. Kennedy | NTIS | 2017
    Schlagwörter: Aerospace environments , Space habitats , Inflatable space structures , International space station , Space exploration , Deep space

    Risk of Crew Adverse Health Event due to Altered Immune Response, (Immuno, MRL No. 27) - BASELINE

    A. Lee / B. Crucian | NTIS | 2011
    Schlagwörter: Space Technology , ImmunosuppressionSpacecraft environments , Spacecraft environments , Space habitats