New Capabilities for Deep Space Robotic Exploration Enabled by Disruption Tolerant Networking. Wyatt, E. J., Belov, K., Burleigh, S., Castillo-Rogez, J., Chien, S., Clare, L., & Lazio, J. In 6th International Conference on Space Mission Challenges for Information Technology (SMC-IT 2017), pages 1–6, Alcala de Henares, Spain, September, 2017.
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Disruption Tolerant Networking (DTN) is a term that is used both to describe network architectures in space as well as the protocol suite that implements key aspects of this functionality. Now that the core protocols have been defined and have been standardized, it is timely to pursue applying these protocols to enable new types of exploration where coordination among assets must occur without ground intervention. In order to do that, autonomy software applications must be developed to work in concert with the protocol layer to achieve the desired mission objectives. This paper describes key functionality of the protcol suite, autonomy software that is likely most useful in accomplishing mission objectives involving coordination and automated relay of information, mission concepts that could be enabled by space networking, and DTN development status for deep space applications.
@inproceedings{wyatt-belov-burleigh-et-al-2017,
	title        = {New Capabilities for Deep Space Robotic Exploration Enabled by Disruption Tolerant Networking},
	author       = {E. J. Wyatt and K. Belov and S. Burleigh and J. Castillo-Rogez and S. Chien and L. Clare and J. Lazio},
	year         = 2017,
	month        = {September},
	booktitle    = {6th International Conference on Space Mission Challenges for Information Technology (SMC-IT 2017)},
	address      = {Alcala de Henares, Spain},
	pages        = {1--6},
	doi          = {10.1109/SMC-IT.2017.8},
	abstract     = {Disruption Tolerant Networking (DTN) is a term that is used both to describe network architectures in space as well as the protocol suite that implements key aspects of this functionality. Now that the core protocols have been defined and have been standardized, it is timely to pursue applying these protocols to enable new types of exploration where coordination among assets must occur without ground intervention. In order to do that, autonomy software applications must be developed to work in concert with the protocol layer to achieve the desired mission objectives. This paper describes key functionality of the protcol suite, autonomy software that is likely most useful in accomplishing mission objectives involving coordination and automated relay of information, mission concepts that could be enabled by space networking, and DTN development status for deep space applications.},
	clearance    = {CL\#17-1063},
	project      = {CaveRovers}
}
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