Long-endurance human spaceflight - such as missions to Mars or its moons - will present a never-before-seen maintenance logistics challenge. Crews will be in space for longer and be farther way from Earth than ever before. Resupply and abort options will be heavily constrained, and will have timescales much longer than current and past experience. Spare parts and/or redundant systems will have to be included to reduce risk. However, the high cost of transportation means that this risk reduction must be achieved while also minimizing mass. The concept of increasing system and component reliability is commonly discussed as a means to reduce risk and mass by reducing the probability that components will fail during a mission. While increased r...
One of the critical non-replaceable systems of a long-term manned orbital station is the propulsion ...
In a half century of human spaceflight, NASA has continuously refined agency safety and reliability ...
Maintaining the performance of logistically isolated systems yield serious support difficulties. In ...
Long-endurance human spaceflight - such as missions to Mars or its moons - will present a never-befo...
Recycling life support systems can achieve ultra reliability by using spares to replace failed compo...
Future crewed missions beyond Low Earth Orbit (LEO) represent a logistical challenge that is unprece...
Cost-effective high reliability can be achieved in future space life support systems through careful...
Through the Evolvable Mars Campaign (EMC) study, the National Aeronautics and Space Administration (...
It is sometimes optimistically hoped that a space life support system can be kept working throughout...
As the durations and distances involved in human exploration missions increase, the logistics associ...
For long-duration space missions outside of Earth orbit, reliability considerations will drive highe...
Reliable life support systems are required for deep space missions. The probability of a fatal life ...
A published Mars mission is used to explore the methods and costs to achieve ultra reliable life sup...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
The United States National Aeronautics and Space Administration (NASA) is in the midst of an effort ...
One of the critical non-replaceable systems of a long-term manned orbital station is the propulsion ...
In a half century of human spaceflight, NASA has continuously refined agency safety and reliability ...
Maintaining the performance of logistically isolated systems yield serious support difficulties. In ...
Long-endurance human spaceflight - such as missions to Mars or its moons - will present a never-befo...
Recycling life support systems can achieve ultra reliability by using spares to replace failed compo...
Future crewed missions beyond Low Earth Orbit (LEO) represent a logistical challenge that is unprece...
Cost-effective high reliability can be achieved in future space life support systems through careful...
Through the Evolvable Mars Campaign (EMC) study, the National Aeronautics and Space Administration (...
It is sometimes optimistically hoped that a space life support system can be kept working throughout...
As the durations and distances involved in human exploration missions increase, the logistics associ...
For long-duration space missions outside of Earth orbit, reliability considerations will drive highe...
Reliable life support systems are required for deep space missions. The probability of a fatal life ...
A published Mars mission is used to explore the methods and costs to achieve ultra reliable life sup...
Thesis: S.M., Massachusetts Institute of Technology, Department of Aeronautics and Astronautics, 201...
The United States National Aeronautics and Space Administration (NASA) is in the midst of an effort ...
One of the critical non-replaceable systems of a long-term manned orbital station is the propulsion ...
In a half century of human spaceflight, NASA has continuously refined agency safety and reliability ...
Maintaining the performance of logistically isolated systems yield serious support difficulties. In ...