Space Exploration missions requires the design and implementation of space networking that differs from terrestrial networks. In a space networking architecture, interplanetary communication protocols need to be designed, validated and evaluated carefully to support different mission requirements. As actual systems are expensive to build, it is essential to have a low cost method to validate and verify mission/system designs and operations. This can be accomplished through simulation. Simulation can aid design decisions where alternative solutions are being considered, support trade-studies and enable fast study of what-if scenarios. It can be used to identify risks, verify system performance against requirements, and as an initial test environment as one moves towards emulation and actual hardware implementation of the systems. We describe the development of Multi-mission Advanced Communications Hybrid Environment for Test and Evaluation (MACHETE) and its use cases in supporting architecture trade studies, protocol performance and its role in hybrid simulation/emulation. The MACHETE environment contains various tools and interfaces such that users may select the set of tools tailored for the specific simulation end goal. The use cases illustrate tool combinations for simulating space networking in different mission scenarios. This simulation environment is useful in supporting space networking design for planned and future missions as well as evaluating performance of existing networks where non-determinism exist in data traffic and/or link conditions.
[1]
Esther Jennings,et al.
Integrating Collaborative Distributed Simulations for Space Exploration Missions
,
2008
.
[2]
Esther Jennings,et al.
Technology developments integrating a space network communications testbed
,
2006
.
[3]
Esther Jennings,et al.
Simulating autonomous telecommunication networks for space exploration
,
2008
.
[4]
E. Jennings,et al.
A Simulation Tool for ASCTA Microsensor Network Architecture
,
2008,
2008 IEEE Aerospace Conference.
[5]
E. Jennings,et al.
Performance Characterization of Space Communications and Navigation (SCaN) Network by Simulation
,
2008,
2008 IEEE Aerospace Conference.
[6]
Esther Jennings,et al.
Interfacing Space Communications and Navigation Network Simulation with Distributed System Integration Laboratories (DSIL)
,
2008
.
[7]
J.L. Gao,et al.
Performance evaluation of the CCSDS file delivery protocol - latency and storage requirement
,
2005,
2005 IEEE Aerospace Conference.
[9]
Esther Jennings,et al.
Space Communications and Navigation (SCaN) Network Simulation Tool Development and Its Use Cases
,
2009
.
[10]
Esther Jennings,et al.
Spacecraft Data and Relay Management using Delay Tolerant Networking
,
2006
.