Nonlinear nonequilibrium statistical mechanics approach to C³I systems
MetadataShow full item record
It is proposed to incorporate "intuition" into large complex multivariate nonlinear C³I systems requiring stochastic or probabilistic treatment. i.e., to seek regions of variable-space where more local analytic resources can be optimally allocated. These mathematical techniques have been utilized for a variety of other systems, ranging from neuroscience to nuclear physics, to financial markets. The experiences gained by detailing each of these systems offers specific insights by which to approach C³I systems.
9th MIT/ONR Workshop on C³ SystemsApproved for public release; distribution is unlimited
NPS Report NumberLIDS-R-1624
Showing items related by title, author, creator and subject.
Redmond, Patrick J. (Monterey, California. Naval Postgraduate School, 2007-03);The next generation of military capabilities will hinge on systems of systems technologies, entailing the integration of numerous large scale systems into a complex system of systems whose capability exceeds the capabilities ...
Big Data and Deep Learning for Defense Acquisition Visibility Environment (DAVE)—Developing NPS Student Thesis Research Zhao, Ying (2017-12-21); NPS-AM-18-012The U.S. Department of Defense (DoD) acquisition process is extremely complex. There are three key processes that must work in concert to deliver capabilities: determining warfighters’ requirements and needs, planning the ...
Blanco, Hilda (2008-06);Prioritizing is a fundamental task in capital facilities planning and finance. The protection of critical infrastructure systems, essential systems that underpin our society’s “national defense, economic prosperity and ...