Deriving Priority Intelligence Requirements for Synthetic Command Entities (bibtex)
by Jonathan Gratch, Stacy C. Marsella, Randall W. Hill, LTC George Stone III
Abstract:
Simulation-based training is using increasingly complex synthetic forces. As more complex multiechelon synthetic forces are employed in simulations, the need for a realistic model of their command and control behavior becomes more urgent. In this paper we discuss one key component of such a model, the autonomous generation and use of priority intelligence requirements within multi-echelon plans.
Reference:
Deriving Priority Intelligence Requirements for Synthetic Command Entities (Jonathan Gratch, Stacy C. Marsella, Randall W. Hill, LTC George Stone III), In Proceedings of the 8th Conference on Computer Generated Forces and Behavioral Representation, 1999.
Bibtex Entry:
@inproceedings{gratch_deriving_1999,
	address = {Orlando, FL},
	title = {Deriving {Priority} {Intelligence} {Requirements} for {Synthetic} {Command} {Entities}},
	url = {http://ict.usc.edu/pubs/Deriving%20Priority%20Intelligence%20Requirements%20for%20Synthetic%20Command%20Entities.pdf},
	abstract = {Simulation-based training is using increasingly complex synthetic forces. As more complex multiechelon synthetic forces are employed in simulations, the need for a realistic model of their command and control behavior becomes more urgent. In this paper we discuss one key component of such a model, the autonomous generation and use of priority intelligence requirements within multi-echelon plans.},
	booktitle = {Proceedings of the 8th {Conference} on {Computer} {Generated} {Forces} and {Behavioral} {Representation}},
	author = {Gratch, Jonathan and Marsella, Stacy C. and Hill, Randall W. and Stone III, LTC George},
	month = may,
	year = {1999},
	keywords = {Social Simulation, Virtual Humans}
}
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