A mathematical model is presented for computing total (spacecraft) subsystem cost including both the basic subsystem cost and the expected cost due to the failure of the subsystem. This model is then used to determine power subsystem cost as a function of reliability and redundancy. Minimum cost and maximum reliability and/or redundancy are not generally equivalent. Two example cases are presented. One is a small satellite, and the other is an interplanetary spacecraft
Reliable life support systems are required for deep space missions. The probability of a fatal life ...
In this paper the reliability of reduction oxygen supply system (ROSS) of a spacecraft which was cal...
Recently, the environmental impact of aircraft and rising fuel prices have become an increasing conc...
How much redundancy should be built into a subsystem such as a space power subsystem. How does a rel...
In the design phase of a system, how a design engineer or manager choose between a subsystem with .9...
In the design phase of a system, how does a design engineer or manager choose between a subsystem wi...
This document contains a detailed account of a study to investigate the interactions between space s...
Preliminary power system configuration tradeoffs to select optimized systems with respect to reliabi...
An overview of spacecraft power systems is presented, with a focus on applications in the manned spa...
Non-serviceable systems are often constrained by three requirements that address the need to reliabl...
The reliability mathematical model of a system is the basis of all reliability predictions, optimiza...
A typical reliability engineering problem regarding communication satellites has been considered to ...
AIAA SPACE 2007 Conference & Exposition 18-20 September 2007, Long Beach, California.The goal of th...
In October of 2002, The Power and Propulsion Office and The Risk Management Office of NASA Glenn Res...
Nowadays, it has become possible for universities and new businesses to launch satellites of reduced...
Reliable life support systems are required for deep space missions. The probability of a fatal life ...
In this paper the reliability of reduction oxygen supply system (ROSS) of a spacecraft which was cal...
Recently, the environmental impact of aircraft and rising fuel prices have become an increasing conc...
How much redundancy should be built into a subsystem such as a space power subsystem. How does a rel...
In the design phase of a system, how a design engineer or manager choose between a subsystem with .9...
In the design phase of a system, how does a design engineer or manager choose between a subsystem wi...
This document contains a detailed account of a study to investigate the interactions between space s...
Preliminary power system configuration tradeoffs to select optimized systems with respect to reliabi...
An overview of spacecraft power systems is presented, with a focus on applications in the manned spa...
Non-serviceable systems are often constrained by three requirements that address the need to reliabl...
The reliability mathematical model of a system is the basis of all reliability predictions, optimiza...
A typical reliability engineering problem regarding communication satellites has been considered to ...
AIAA SPACE 2007 Conference & Exposition 18-20 September 2007, Long Beach, California.The goal of th...
In October of 2002, The Power and Propulsion Office and The Risk Management Office of NASA Glenn Res...
Nowadays, it has become possible for universities and new businesses to launch satellites of reduced...
Reliable life support systems are required for deep space missions. The probability of a fatal life ...
In this paper the reliability of reduction oxygen supply system (ROSS) of a spacecraft which was cal...
Recently, the environmental impact of aircraft and rising fuel prices have become an increasing conc...