Research conducted by using the neural network technologies as the
Frequency and Timing Subsystem (FTS) forecaster of the NASA Deep Space
D. research: Yulu Chen, transferred from CSULA is being prepared in the
astronomical engineering at USC. The literature research include the
power systems and to evaluate possible applications of space nuclear power
lunar environment, lunar base construction, and inflatable habitats.
and debris shielding, health-monitoring systems, and survivability.
System DesignÂ” and participated in Space Exploration Architectures Concept
Synthesis Studio at the University of Southern California.
virtual space environment is being developed using 3-D animation
technology to assist users in learning, analyzing and designing space
mission, orbital mechanics, and orbital maneuvers.
research reports regarding space power systems and lunar habitats were
prepared for delivering the literature research at USC to the SERENADES
and self-repairing systems for spacecrafts and space habitats were
identified as a potential future research interest that needs further
presentation focusing on self-repairing system for inflatable space
habitats was made in the USC class, Space Exploration Architectures
Concept Synthesis Studio.
three-dimensional animation software architecture model for implementing a
virtual space environment to be implemented has been defined.