Channel - Space Environments
The Space Environments catalog features lessons covering all aspects of the causes, mitigations, and effects of space radiation as a natural environmental effect. Examples of relevant disciplines include (but are not limited to): radiation effects on humans; understanding, modeling, and forecasting the space environment and radiation [space weather]; space environments and radiation effects on components [e.g., design, shielding, operation]; and space environments and radiation effects on space vehicle systems [e.g., avionics, navigation, communications].
9/4/2025 6:25:16 PM
Channel Videos
(MOWG) NASA Robotic CARA Probability of Collision
Megan Johnson
7/19/2019 8:35:00 PM
(MOWG) NASA Robotic CARA Satellite State Estimate Covariance
Megan Johnson
7/19/2019 8:37:00 PM
Enabling a Safe and Sustainable Commercial Space Economy
About the Speaker:
Dr. Mehta is an Assistant Professor of Space Systems in the Department of Mechanical and Aerospace Engineering at West Virginia University with research interests in orbital/satellite drag in space situational awareness and atmospheric reentry. Space debris remains a persistent threat to assets and humans in space. The proliferation of low Earth orbit (LEO) with replenishable small satellite megaconstellations driven by commercial interests has further stressed Space Situational Awareness (SSA) and put focus on space traffic management (STM). While the trackable debris catalog has grown significantly over the last decade, lethal non-trackable (LNT) debris smaller than the order of centimeters in size remains a challenge as they fall below the detection and tracking capability of most ground-based sensors. In addition to catalog maintenance under SSA, STM has put focus on enhanced and concerted space operations that includes conjunction assessment and collision avoidance. The US Space Policy Directive-3, National STM Policy has emphasized the necessity “to make significant contributions to establish a quality threshold for actionable collision avoidance warning to minimize false alarms”. Accurate calculation of Probability of Collision (PoC) for confident decision-making require realistic covariance information since maneuvers are expensive (personnel cost, science data or commercial service outage, fuel costs). The continued LEO proliferation will overwhelm the operators who are likely to receive multiple collision warning messages a day. West Virginia University is leading two high-profile projects supported by Intelligence Advanced Research Projects Activity (IARPA) and Office of Space Commerce (OSC) targeted at addressing the challenge of LNT debris and enhancing LEO operations, respectively, critical for a safe and sustainable space economy and environment. The talk will provide an overview of the projects and a summary of the technical advances.
Dr. Piyush Mehta
4/4/2024 6:39:17 PM
Integrated Tiger Series (ITS) 6.4 Tutorial, Part 1: Introduction to ITS & XGEN
Brian Franke
9/25/2017 12:00:00 PM
ITS 6.4 Tutorial, Part 10: CYLTRAN & CEPXS
NESC Academy
9/25/2017 9:00:00 PM
ITS 6.4 Tutorial, Part 11: CEPXS Demonstrations
Brian Franke
9/25/2017 10:00:00 PM
ITS 6.4 Tutorial, Part 12: ADJOINT Demonstrations
Brian Franke
9/25/2017 11:00:00 PM
ITS 6.4 Tutorial, Part 13: ITS CAD Capabilities
Brian Franke
9/26/2017 12:00:00 AM
ITS 6.4 Tutorial, Part 2: Tiger 1D Continuous Energy Monte Carlo Code
Brian Franke
9/25/2017 1:00:00 PM
ITS 6.4 Tutorial, Part 3: XGEN Demonstrations
Brian Franke
9/25/2017 2:00:00 PM
ITS 6.4 Tutorial, Part 4: Tiger Demonstrations
Brian Franke
9/25/2017 3:00:00 PM
ITS 6.4 Tutorial, Part 5: Additional Tiger Demonstrations
Brian Franke
9/25/2017 4:00:00 PM
ITS 6.4 Tutorial, Part 6: Advanced Tiger
Brian Franke
9/25/2017 5:00:00 PM
ITS 6.4 Tutorial, Part 7: Additional Tiger Demonstrations
Brian Franke
9/25/2017 6:00:00 PM
ITS 6.4 Tutorial, Part 8: ACCEPT
Brian Franke
9/25/2017 7:00:00 PM
ITS 6.4 Tutorial, Part 9: CG Geometry & ACCEPT
Brian Franke
9/25/2017 8:00:00 PM
Space Radiation Environments
Disciplines: Environmental Control/Life Support, Space Environments
US Spacesuit Knowledge Capture - Recorded June 29, 2017
The spaceflight ionizing radiation (IR) environment is dominated by very high-kinetic energy-charged particles with relatively smaller contributions from X-rays and gamma rays. The Earth’s surface IR environment is not dominated by the natural radioisotope decay processes. Dr. Steven Koontz’s lecture will provide a solid foundation in the basic engineering physics of space radiation environments, beginning with the space radiation environment on the International Space Station and moving outward through the Van Allen belts to cislunar space. The benefits and limitations of radiation shielding materials will also be summarized.
Dr. Steven Koontz
2/22/2018 7:21:00 PM
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