A modeling process to understand complex system architectures
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[1] Paul K. Davis,et al. Experiments In Multiresolution Modeling (MRM) , 1998 .
[2] Andrew Ilachinski,et al. Land Warfare and Complexity, Part I: Mathematical Background and Technical Sourcebook , 1996 .
[3] Steven C Bankes,et al. Tools and techniques for developing policies for complex and uncertain systems , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[4] Peter Schuster,et al. A beginning of the end of the holism versus reductionism debate?: Molecular biology goes cellular and organismic , 2007, Complex..
[5] Albert-László Barabási,et al. Statistical mechanics of complex networks , 2001, ArXiv.
[6] Patrick Biltgen. Technology evaluation for system of systems , 2008 .
[7] Roger McHaney. Computer Simulation: A Practical Perspective , 1991 .
[8] Paul K. Davis,et al. Implications for Model Validation of Multiresolution, Multiperspective Modeling {MRMPM} and Exploratory Analysis , 2004 .
[9] E. Rechtin,et al. The art of systems architecting , 1996, IEEE Spectrum.
[10] P. Corning. Complexity Is Just a Word , 1998 .
[11] George Ellwood Dieter,et al. Engineering Design: A Materials and Processing Approach , 1983 .
[12] James Ong,et al. Using the Joint Integrated Contingency Model for Campaign Analysis , 2002 .
[13] Udo W. Pooch,et al. Computer Simulation: a Tutorial , 1977, Computer.
[14] Thomas W. Lucas,et al. The Stochastic Versus Deterministic Argument for Combat Simulations: Tales of When the Average Won't Do , 2000 .
[15] L. Bertalanffy. AN OUTLINE OF GENERAL SYSTEM THEORY , 1950, The British Journal for the Philosophy of Science.
[16] Luc Steels,et al. Towards a theory of emergent functionality , 1991 .
[17] Leif Gustafsson,et al. Bringing consistency to simulation of population models--Poisson simulation as a bridge between micro and macro simulation. , 2007, Mathematical biosciences.
[18] Olivier L. De Week,et al. Augmented Network Model for Engineering System Design , 2010 .
[19] Raymond R. Hill,et al. Simulation validation with historic outcomes , 2005, Proceedings of the Winter Simulation Conference, 2005..
[20] J. Mendes,et al. Scale-free network with Boolean dynamics as a function of connectivity. , 2004, Physical review. E, Statistical, nonlinear, and soft matter physics.
[21] Ilias Sakellariou,et al. Enhancing NetLogo to Simulate BDI Communicating Agents , 2008, SETN.
[22] J. Smuts. Holism and Evolution , 1926 .
[23] Michael P. Wiper,et al. Bayesian inference for a Lanchester type combat model , 2000 .
[24] W. K. Hastings,et al. Monte Carlo Sampling Methods Using Markov Chains and Their Applications , 1970 .
[25] Peter Milling,et al. Modeling the Forest or Modeling the Trees - A Comparison of System Dynamics and Agent-Based Simulation , 2003 .
[26] Saurabh Mittal,et al. DEVS-Based Dynamic Model Reconfiguration and Simulation Control in the Enhanced DoDAF Design Process , 2006 .
[27] Bruce Edmonds,et al. What is Complexity? - The philosophy of complexity per se with application to some examples in evolution , 1995 .
[28] Barry Wilson,et al. Ground Combat in the JICM , 1995 .
[29] R. P. Shenoy,et al. Artificial Intelligence-The Emerging Technology , 1985 .
[30] Mary R. Habeck. Storm of Steel: The Development of Armor Doctrine in Germany and the Soviet Union, 1919-1939 , 2003 .
[31] Jay W. Forrester,et al. System dynamics, systems thinking, and soft OR , 1994 .
[32] Joe H. Chow,et al. Time scale modeling of sparse dynamic networks , 1985 .
[33] Suh Nam-pyo,et al. Complexity: Theory and Applications , 2005 .
[34] Kurt Lautenbach,et al. System Modelling with High-Level Petri Nets , 1981, Theor. Comput. Sci..
[35] Martin Shubik,et al. The War Game: A Critique of Military Problem Solving , 1980 .
[36] E. MacKerrow. Understanding Why – Dissecting radical Islamist terrorism with agent-based simulation , .
[37] Steven L. Forsythe,et al. Evaluation of Net-centric Command and Control via a Multi-resolution Modeling Evaluation Framework , 2005 .
[38] Matteo Golfarelli,et al. Designing what-if analysis: towards a methodology , 2006, DOLAP '06.
[39] Joshua Ho. Waging Effects-Based Operations , 2006 .
[40] S. Pati,et al. THE THIRD SMALLEST EIGENVALUE OF THE LAPLACIAN MATRIX , 2001 .
[41] Peter Maguire. Using THUNDER for Campaign Studies , 2000 .
[42] Adilson E. Motter,et al. Maximum performance at minimum cost in network synchronization , 2006, cond-mat/0609622.
[43] Erik Baumgarten,et al. Dynamic DoDAF and Executable Architectures , 2007, MILCOM 2007 - IEEE Military Communications Conference.
[44] Bruce D. Malamud,et al. Cellular-automata models applied to natural hazards , 2000, Comput. Sci. Eng..
[45] Alexander H. Levis,et al. C4ISR Architectures: I. Developing a Process for C4ISR Architecture Design , 2000 .
[46] Richard E. Simpkin,et al. Deep Battle: The Brainchild of Marshal Tukhachevskii , 1987 .
[47] George F. Stone,et al. The Joint Warfare System (JWARS): a modeling and analysis tool for the Defense Department , 2001, Proceeding of the 2001 Winter Simulation Conference (Cat. No.01CH37304).
[48] Andrew Ilachinski. Land Warfare and Complexity, Part II: An Assessment of the Applicability of Nonlinear Dynamics and Complex Systems Theory to the Study of Land Warfare , 1996 .
[49] Tommer R. Ender,et al. A Top-Down, Hierarchical, System-of-Systems Approach to the Design of an Air Defense Weapon , 2006 .
[50] William G. Glenney. Multiscale Representation Phase I , 2001 .
[51] Abraham Lempel,et al. On the Complexity of Finite Sequences , 1976, IEEE Trans. Inf. Theory.
[52] Jack P. C. Kleijnen,et al. State-of-the-Art Review: A User's Guide to the Brave New World of Designing Simulation Experiments , 2005, INFORMS J. Comput..
[53] R. Kurzweil. The Law of Accelerating Returns , 2004 .
[54] Roberto Serra,et al. On the dynamics of random Boolean networks with scale-free outgoing connections , 2004 .
[55] E. Conklin. PROBLEMS OF BIOLOGY. , 1898, Science.
[56] Trevor Nevitt Dupuy,et al. Attrition: Forecasting Battle Casualties and Equipment Losses in Modern War , 1996 .
[57] R. Dawkins. The Blind Watchmaker , 1986 .
[58] Graham Winch,et al. Perspectives on rationality in system dynamics—a workshop report and open research questions , 2004 .
[59] P. J. Kiviat. DIGITAL COMPUTER SIMULATION: MODELING CONCEPTS , 1967 .
[60] Manuel Cartier. An Agent-Based Model of Innovation Emergence in Organizations: Renault and Ford Through the Lens of Evolutionism , 2004, Comput. Math. Organ. Theory.
[61] S. Ganapathy,et al. Dynamic path-planning for search and destroy missions - the Bay of Biscay scenario , 2003, Proceedings of the 2003 Winter Simulation Conference, 2003..
[62] Rajkumar Buyya,et al. A taxonomy of computer‐based simulations and its mapping to parallel and distributed systems simulation tools , 2004, Softw. Pract. Exp..
[63] Edward Allen Smith. Effects Based Operations: Applying Network Centric Warfare in Peace, Crisis, and War , 2002 .
[64] A. Simlote. Joint warfare system (JWARS) , 2003, 2003 User Group Conference. Proceedings.
[65] H. Maturana,et al. Autopoiesis: the organization of living systems, its characterization and a model. , 1974, Currents in modern biology.
[66] Steven Johnson,et al. Emergence: The Connected Lives of Ants, Brains, Cities, and Software , 2001 .
[67] Robert F. Ripley,et al. Applying Complexity Theory to Aviation Management , 2005 .
[68] Schuster,et al. Easily calculable measure for the complexity of spatiotemporal patterns. , 1987, Physical review. A, General physics.
[69] R A Forder,et al. Military Operations Research: Quantitative Decision Making , 1997, J. Oper. Res. Soc..
[70] George P. Richardson,et al. Using Digest to implement the pathway participation method for detecting influential system structure , 2004 .
[71] John A. Miller,et al. Ontologies for modeling and simulation: issues and approaches , 2004, Proceedings of the 2004 Winter Simulation Conference, 2004..
[72] Peter P. Perla,et al. The Art of Wargaming: A Guide for Professionals and Hobbyists , 1990 .
[73] Darren D. Medlin. Information Age Transformation: Getting to a 21st Century Military , 2008 .
[74] Massoud Amin,et al. Restructuring the Electric Enterprise Simulating the Evolution of the Electric Power Industry with Intelligent Adaptive Agents , 2002 .
[75] T. Kuhn,et al. The Structure of Scientific Revolutions. , 1964 .
[76] Andrew Wuensche,et al. Discrete Dynamical Networks and Their Attractor Basins , 1998 .
[77] J. Forrester. Industrial Dynamics , 1997 .
[78] David L Abel,et al. Theoretical Biology and Medical Modelling , 2022 .
[79] S. Kauffman. Metabolic stability and epigenesis in randomly constructed genetic nets. , 1969, Journal of theoretical biology.
[80] Yaman Barlas,et al. Model simplification and validation with indirect structure validity tests , 2006 .
[81] Paul K. Davis,et al. New Challenges, New Tools for Defense Decisionmaking , 2003 .
[82] Myung Choi,et al. Experiences integrating NETWARS with the naval simulation system using the high level architecture , 2004, IEEE MILCOM 2004. Military Communications Conference, 2004..
[83] A. Borshchev,et al. From System Dynamics and Discrete Event to Practical Agent Based Modeling : Reasons , Techniques , Tools , 2004 .
[84] Alexander H. Levis,et al. C4ISR architectures: II. A structured analysis approach for architecture design , 2000 .
[85] John Gordon,et al. Exploring Advanced Technologies for the Future Combat Systems Program , 2002 .
[86] Leonardo Dueñas-Osorio,et al. Interdependent Response of Networked Systems to Natural Hazards and Intentional Disruptions , 2005 .
[87] D. Verkest,et al. A taxonomy for technology extrapolation , 2005, 2005 NORCHIP.
[88] R. Standish. On Complexity and Emergence , 2001, nlin/0101006.
[89] Jung-Ho Lewe,et al. An Integrated Decision-Making Framework for Transportation Architectures:Application to Aviation Systems Design , 2005 .
[90] Joseph G. Kovalchik. APL Integrated Multi-warfare Simulation (AIMS): Considering Resource Conflict Resolution and Warfare Area Inter-dependencies in Multi-Warfare Analyses , 2005 .
[91] M. Newman. Random Graphs as Models of Networks , 2002, cond-mat/0202208.
[92] C. Petri. Kommunikation mit Automaten , 1962 .
[93] John Q. Dickmann,et al. Complexity of Military Conflict : Multiscale Complex Systems Analysis of Littoral Warfare , 1992 .
[94] Adilson E. Motter,et al. Bounding network spectra for network design , 2007, 0705.0089.
[95] J. Machta,et al. Parallel dynamics and computational complexity of network growth models. , 2004, Physical review. E, Statistical, nonlinear, and soft matter physics.
[96] Philip Fraundorf. A simplex model for layered niche networks , 2008, Complex..
[97] M. Schreckenberg. Modeling Complex Systems , 2004 .
[98] Murray Gell-Mann,et al. What Is Complexity , 2002 .
[99] Roger J. Brooks,et al. Improving the understanding of conceptual modelling , 2007, J. Simulation.
[100] Young-Jun Son,et al. Distributed and hybrid simulations for manufacturing systems and integrated enterprise , 2004 .
[101] Danielle Soban,et al. A methodology for the probabalistic assessment of system effectiveness as applied to aircraft survivability and susceptibiliy , 2001 .
[102] K. Maani,et al. Links between systems thinking and complex decision making , 2004 .
[103] Dirk Helbing,et al. Simulating dynamical features of escape panic , 2000, Nature.
[104] Richard M. Murray,et al. Consensus problems in networks of agents with switching topology and time-delays , 2004, IEEE Transactions on Automatic Control.
[105] Tony Curzon Price,et al. Emergence: From Chaos to Order by John H. Holland , 1998, J. Artif. Soc. Soc. Simul..
[106] Mark T. Calhoun. Complexity and Army Transformation , 2011 .
[107] Rex K. Kincaid,et al. An investigation of synchrony in transport networks , 2009, Complex..
[108] Philip W. Anderson,et al. More Is Different Broken symmetry and the nature of the hierarchical structure of science , 1972 .
[109] Marvin Baker Schaffer,et al. A Model of 21st Century Counterinsurgency Warfare , 2007 .
[110] John S. Osmundson,et al. Process modeling: A systems engineering tool for analyzing complex systems , 2004, Syst. Eng..
[111] Jeffrey M. Bradshaw,et al. The coalition agents experiment: network-enabled coalition operations , 2003 .
[112] Massimo Marchiori,et al. Error and attacktolerance of complex network s , 2004 .
[113] Ian Stewart,et al. Networking opportunity , 2004, Nature.
[114] Hildegard Meyer-Ortmanns. Functional complexity measure for networks , 2004 .
[115] Charles H. Bennett,et al. On the nature and origin of complexity in discrete, homogeneous, locally-interacting systems , 1986 .
[116] B. Derrida,et al. Phase Transitions in Two-Dimensional Kauffman Cellular Automata , 1986 .
[117] Thomas W. Lucas,et al. When is model complexity too much? Illustrating the benefits of simple models with Hughes' salvo equations , 2003 .
[118] S. Ring. Activity-Based Methodology for Development and Analysis of Integrated DoD Architectures , 2007 .
[119] Christopher G. Pernin,et al. Assessing the Value of Information Superiority for Ground Forces - Proof of Concept , 2001 .
[120] D. J. Kleina,et al. Graph cyclicity, excess conductance, and resistance deficit , 2002 .
[121] simon-atkinson-james-moffat. The Agile Organization: From Informal Networks to Complex Effects and Agility , 2005 .
[122] V Latora,et al. Efficient behavior of small-world networks. , 2001, Physical review letters.
[123] N. Metropolis,et al. Equation of State Calculations by Fast Computing Machines , 1953, Resonance.
[124] William G. Glenney. Large Scale Engineering and Evolutionary Change : Useful Concepts for Implementation of FORCEnet , 2002 .
[125] David Wells,et al. Extending the limits of DMAS survivability: the UltraLog project , 2004, IEEE Intelligent Systems.
[126] Mauricio Barahona,et al. Synchronization in small-world systems. , 2002, Physical review letters.
[127] Anthony H. Dekker,et al. Network Robustness and Graph Topology , 2004, ACSC.
[128] J. E. Bates,et al. Measuring complexity using information fluctuation , 1993 .
[129] Forbes T. Brown,et al. Engineering system dynamics : a unified graph-centered approach , 2006 .
[130] Richard M. Murray,et al. INFORMATION FLOW AND COOPERATIVE CONTROL OF VEHICLE FORMATIONS , 2002 .
[131] Marta Borowska,et al. Application of the Lempel-Ziv complexity measure to the analysis of biosignals and medical images , 2005 .
[132] Gérard P. Cachon,et al. Perspective: Complexity Theory and Organization Science , 1999, Organization Science.
[133] M. Gell-Mann. Books-Received - the Quark and the Jaguar - Adventures in the Simple and the Complex , 1994 .
[134] Arnold H. Buss,et al. Simple movement and detection in discrete event simulation , 2005, Proceedings of the Winter Simulation Conference, 2005..
[135] Charles W. Bachman. The programmer as navigator , 2007 .
[136] I. Kant,et al. Immanuel Kant: Prolegomena to Any Future Metaphysics: Prolegomena to Any Future Metaphysics , 2004 .
[137] Gregory J. Chaitin,et al. On the Length of Programs for Computing Finite Binary Sequences , 1966, JACM.
[138] K. Popper,et al. Conjectures and refutations;: The growth of scientific knowledge , 1972 .
[139] Richard F. Deckro,et al. Modeling the Lanchester Laws with System Dynamics , 2008 .
[140] Sanjay Jain,et al. Emergence and growth of complex networks in adaptive systems , 1999 .
[141] Albert-László Barabási,et al. Linked - how everything is connected to everything else and what it means for business, science, and everyday life , 2003 .
[142] Bernard P. Zeigler,et al. Enhancing DoDAF with a DEVS-based system lifecycle development process , 2005, 2005 IEEE International Conference on Systems, Man and Cybernetics.
[143] Robert L. Helmbold. A "Universal" Attrition Model , 1966, Oper. Res..
[144] Fredrik Nilsson,et al. Simplicity vs. complexity in the logistics discipline - a paradigmatic discourse , 2004 .
[145] A. Lobov,et al. An Approach To Computing All Cycles in a Graph , 2006, 2006 4th IEEE International Conference on Industrial Informatics.
[146] Nadine Schieritz,et al. Integrating System Dynamics and Agent-Based Modeling , 2002 .
[147] Philip J. Kiviat. DIGITAL COMPUTER SIMULATION: COMPUTER PROGRAMMING LANGUAGES , 1969 .
[148] Daniel A. Spielman,et al. Spectral Graph Theory and its Applications , 2007, 48th Annual IEEE Symposium on Foundations of Computer Science (FOCS'07).
[149] Richard E. Hayes,et al. Understanding Information Age Warfare , 2001 .
[150] Russell L. Ackoff,et al. Re-Creating the Corporation: A Design of Organizations for the 21st Century , 1999 .
[151] Ming Li,et al. An Introduction to Kolmogorov Complexity and Its Applications , 1997, Texts in Computer Science.
[152] Rex K. Kincaid,et al. Toward Optimal Transport Networks , 2008 .
[153] Gary James Jason,et al. The Logic of Scientific Discovery , 1988 .
[154] David N. Ford,et al. Mental models concepts for system dynamics research , 1998 .
[155] James P. Crutchfield,et al. Revisiting the Edge of Chaos: Evolving Cellular Automata to Perform Computations , 1993, Complex Syst..
[156] Andrew Ilachinski,et al. Towards a Science of Experimental Complexity : An Artificial-Life Approach to Modeling Warfare , 1994 .
[157] JOSEP DÍAZ,et al. A survey of graph layout problems , 2002, CSUR.
[158] Hans Jochen Scholl,et al. Agent-based and system dynamics modeling: a call for cross study and joint research , 2001, Proceedings of the 34th Annual Hawaii International Conference on System Sciences.
[159] Thomas Wilhelm,et al. An elementary dynamic model for non-binary food webs , 2003 .
[160] V. Kaufman,et al. Relevant components in critical random Boolean networks , 2006, cond-mat/0606507.
[161] Steffen Bayer,et al. Business dynamics: Systems thinking and modeling for a complex world , 2004 .
[162] Johnny Garcia,et al. Executable architecture analysis modeling , 2007, SpringSim '07.
[163] E. Wilson. Consilience: The Unity of Knowledge , 1998 .
[164] Maciej Latek,et al. Dynamics of Agent Organizations: Application to Modeling Irregular Warfare , 2009, MABS.
[165] Robert A. McDonald,et al. Error Propagation and Metamodeling for a Fidelity Tradeoff Capability in Complex Systems Design , 2006 .
[166] Charles E. Dickerson,et al. Architecture and Principles of Systems Engineering , 2009 .
[167] Maximino Aldana. Dynamics of Boolean Networks with Scale-Free Topology , 2002 .
[168] William K. Stevens. Use of Modeling and Simulation (M&S) in Support of the Quantitative Assessment of FORCEnet Systems and Concepts , 2003 .
[169] Franziska Klügl,et al. MULTI-AGENT MODELLING IN COMPARISON TO STANDARD MODELLING , 2002 .
[170] S. Valverde,et al. Internet’s critical path horizon , 2004 .
[171] Andrew P. Frits,et al. Formulation of an Integrated Robust Design and Tactics Optimization Process for Undersea Weapon Systems , 2005 .
[172] Patrick Suppes. Some Remarks about Complexity , 1976, PSA: Proceedings of the Biennial Meeting of the Philosophy of Science Association.
[173] P. Bonacich. Power and Centrality: A Family of Measures , 1987, American Journal of Sociology.
[174] Young,et al. Inferring statistical complexity. , 1989, Physical review letters.
[175] Soundar R. T. Kumara,et al. Survivability of multiagent-based supply networks: a topological perspect , 2004, IEEE Intelligent Systems.
[176] S. Hartmann,et al. Models in Science , 2006 .
[177] S. N. Dorogovtsev,et al. Evolution of networks , 2001, cond-mat/0106144.
[178] Yaneer Bar-Yam,et al. Dynamics Of Complex Systems , 2019 .
[179] Hsi-Mei Chen,et al. An Inverse Problem of the Lanchester Square Law in Estimating Time-Dependent Attrition Coefficients , 2002, Oper. Res..
[180] Duncan J. Watts,et al. Collective dynamics of ‘small-world’ networks , 1998, Nature.
[181] Rogelio Oliva,et al. Model structure analysis through graph theory: partition heuristics and feedback structure decomposition , 2004 .
[182] Herbert A. Simon,et al. How Complex are Complex Systems? , 1976, PSA: Proceedings of the Biennial Meeting of the Philosophy of Science Association.
[183] Stephen Wolfram,et al. Cellular automata as models of complexity , 1984, Nature.
[184] James K Womack. Soviet Correlation of Forces and Means: Quantifying Modern Operations , 1990 .
[185] John A. Sokolowski. Enhanced Military Decision Modeling Using a MultiAgent System Approach , 2003 .
[186] Seth Lloyd,et al. Information measures, effective complexity, and total information , 1996 .
[187] James Moffat,et al. Complexity Theory and Network Centric Warfare , 2003 .
[188] Jin Chen,et al. Developing land use scenario dynamics model by the integration of system dynamics model and cellular automata model , 2004, IGARSS 2004. 2004 IEEE International Geoscience and Remote Sensing Symposium.
[189] David R. Frelinger,et al. Byting Back-Regaining Information Superiority Against 21st-Century Insurgents , 2007 .
[190] Giovanni Chiola,et al. Stochastic Petri Net Simulation , 1989, 1989 Winter Simulation Conference Proceedings.
[191] Richard E. Nance,et al. A history of discrete event simulation programming languages , 1993, HOPL-II.
[192] Francis Neelamkavil. Computer Simulation and Modelling , 1987 .
[193] James P. Crutchfield,et al. An Algorithm for Pattern Discovery in Time Series , 2002, ArXiv.
[194] T. Fiddaman. Exploring policy options with a behavioral climate–economy model , 2002 .
[195] Ray J. Solomonoff,et al. A Formal Theory of Inductive Inference. Part I , 1964, Inf. Control..
[196] Henrik Jeldtoft Jensen,et al. Self-Organized Criticality: Emergent Complex Behavior in Physical and Biological Systems , 1998 .
[197] John A. Miller,et al. Ontology Based Representations of Simulation Models Following the Process Interaction World View , 2006, Proceedings of the 2006 Winter Simulation Conference.
[198] V. Volovoi. Modeling of System Reliability Using Petri Nets with Aging Tokens , 2004 .
[199] M. Amin,et al. National infrastructure as complex interactive networks , 2000 .
[200] Robert J Lempert,et al. A new decision sciences for complex systems , 2002, Proceedings of the National Academy of Sciences of the United States of America.
[201] Jane Ingersoll Robertson. A Method of Computing Survival Probabilities of Several Targets Versus Several Weapons , 1956 .
[202] Edward A. Smith. Complexity, Networking, and Effects-Based Operations , 2005 .
[203] Markus Porto,et al. Generation of arbitrarily two-point-correlated random networks. , 2007, Physical review. E, Statistical, nonlinear, and soft matter physics.
[204] Maj Lance E. Champagne,et al. Multi-Agent Simulation Analysis : Bay of Biscay Case Study , 2004 .
[205] A. Borshchev,et al. USING ANYLOGIC AND AGENT-BASED APPROACH TO MODEL CONSUMER MARKET , 2007 .
[206] Leif Gustafsson. Poisson Simulation—A Method for Generating Stochastic Variations in Continuous System Simulation , 2000, Simul..
[207] Alex Grynkewich,et al. Modeling Jihad: A System Dynamics Model of the Salafist Group for Preaching and Combat Financial Subsystem; Strategic Insights, v. 5, issue 8 November 2006 , 2006 .
[208] Paul K. Davis,et al. Preface , 2021 .
[209] Martin Schaffernicht. Detecting and monitoring change in models , 2006 .
[210] Steven J Yuhaski. Multiechelon Network Model and Heuristic for the Combat Service Support Supply System (CS4) , 1994 .
[211] Jay W. Forrester,et al. Designing the Future , 1999 .
[212] Wolfgang Kreutzer,et al. System simulation , 1986 .
[213] Nicholas R. Jennings,et al. Intelligent agents: theory and practice , 1995, The Knowledge Engineering Review.
[214] Michael Athans,et al. Command and control (C2) theory: A challenge to control science , 1986 .
[215] Young M. Lee,et al. Inventory allocation and transportation scheduling for logistics of network-centric military operations , 2007, IBM J. Res. Dev..
[216] J. A. Fax,et al. Graph Laplacians and Stabilization of Vehicle Formations , 2002 .
[217] Tod S. Levitt,et al. Expert system technology for the military: selected samples , 1988, Proc. IEEE.
[218] Stuart A. Kauffman,et al. The origins of order , 1993 .
[219] David R. Jacques,et al. 5.4.1 The Use of Integrated Architectures to Support Agent Based Simulation: An Initial Investigation , 2004 .
[220] Robert L. Eberlein,et al. Simplification and understanding of models , 1989 .
[221] Dean S. Hartley. A mathematical model of attrition data , 1995 .
[222] Jens Christian Claussen,et al. Offdiagonal complexity: A computationally quick complexity measure for graphs and networks , 2004, q-bio/0410024.
[223] Joseph W. Sutton,et al. The Changing Face of War: Into the Fourth Generation , 1989 .
[224] F. W. Lanchester,et al. Aircraft in Warfare: The Dawn of the Fourth Arm , 1995 .
[225] Saul I. Gass,et al. An Assessment Procedure for Simulation Models: A Case Study , 1991, Oper. Res..
[226] Paul K. Davis,et al. Effects-Based Operations (EBO): A Grand Challenge for the Analytical Community , 2006 .
[227] Arthur C. Graesser,et al. Is it an Agent, or Just a Program?: A Taxonomy for Autonomous Agents , 1996, ATAL.
[228] Mark E. J. Newman,et al. The Structure and Function of Complex Networks , 2003, SIAM Rev..
[229] Paul Windrum,et al. A Critical Guide to Empirical Validation of Agent-Based Models in Economics: Methodologies, Procedures, and Open Problems , 2007 .
[230] David N. Ford,et al. Mental models concepts revisited: some clarifications and a reply to Lane , 1999 .
[231] C Koch,et al. Complexity and the nervous system. , 1999, Science.
[232] Sandeep Krishna,et al. Large extinctions in an evolutionary model: The role of innovation and keystone species , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[233] Eugene Santos,et al. Modeling multiple communities of interest for interactive simulation and gaming: the dynamic adversarial gaming algorithm project , 2007, SPIE Defense + Commercial Sensing.
[234] S. Kauffman. At Home in the Universe: The Search for the Laws of Self-Organization and Complexity , 1995 .
[235] Amit P. Sheth,et al. Investigating ontologies for simulation modeling , 2004, 37th Annual Simulation Symposium, 2004. Proceedings..
[236] John Doyle,et al. Complexity and robustness , 2001, Proceedings of the National Academy of Sciences of the United States of America.
[237] Michael K. Lauren,et al. FRACTALS AND COMBAT MODELING: USING MANA TO EXPLORE THE ROLE OF ENTROPY IN COMPLEXITY SCIENCE , 2002 .
[238] C. Causer. The Art of War , 2011, IEEE Potentials.
[239] Peter Norvig,et al. Artificial Intelligence: A Modern Approach , 1995 .
[240] D. J. Medeiros. ESSENTIAL TECHNIQUES FOR MILITARY MODELING & SIMULATION , 1998 .
[241] Alexander H Levis. Modeling and Simulation for Architecture Assessment , 2004 .
[242] M E J Newman. Assortative mixing in networks. , 2002, Physical review letters.
[243] W. Weaver. Science and complexity. , 1948, American scientist.
[244] J S Koopman,et al. New Data and Tools for Integrating Discrete and Continuous Population Modeling Strategies , 2001, Annals of the New York Academy of Sciences.
[245] Sanjay Jain,et al. Autocatalytic sets and the growth of complexity in an evolutionary model , 1998, adap-org/9809003.
[246] Saurabh Mittal,et al. Extending DoDAF to Allow Integrated DEVS-Based Modeling and Simulation , 2006 .
[247] Christopher Landauer. Data, information, knowledge, understanding: computing up the meaning hierarchy , 1998, SMC'98 Conference Proceedings. 1998 IEEE International Conference on Systems, Man, and Cybernetics (Cat. No.98CH36218).
[248] Per Martin-Löf,et al. The Definition of Random Sequences , 1966, Inf. Control..
[249] J. S. Przemieniecki. Mathematical methods in defense analyses , 1994 .
[250] Paul A. Fishwick,et al. A taxonomy for simulation modeling based on programming language principles , 1998 .
[251] Mario Couture. Complexity and Chaos - State-of-the-Art; Formulations and Measures of Complexity , 2007 .
[252] Massimo Marchiori,et al. Is the Boston subway a small-world network? , 2002 .
[253] Jeffrey R. Cares. The use of agent-based models in military concept development , 2002, Proceedings of the Winter Simulation Conference.
[254] Stefan Bornholdt,et al. Handbook of Graphs and Networks: From the Genome to the Internet , 2003 .
[255] Alexander H. Levis,et al. Modeling Time in DoDAF Compliant Executable Architectures , 2007 .
[256] R. J. Nelson,et al. Structure of Complex Systems , 1976, PSA: Proceedings of the Biennial Meeting of the Philosophy of Science Association.
[257] James Moffat,et al. Metamodels and emergent behaviour in models of conflict , 2004, Simul. Model. Pract. Theory.
[258] Paul A. Fishwick,et al. An integrated approach to system modeling using a synthesis of artificial intelligence, software engineering and simulation methodologies , 1992, TOMC.
[259] Bob Hamber. T.Loads abbreviated systems architecture , 2001, Proceeding of the 2001 Winter Simulation Conference (Cat. No.01CH37304).
[260] Michel Cotsaftis,et al. What Makes a System Complex? - An Approach to Self Organization and Emergence , 2007, 0706.0440.
[261] H. Van Dyke Parunak,et al. Modeling uncertain domains with polyagents , 2006, AAMAS '06.
[262] David S Alberts,et al. Network Centric Warfare: Developing and Leveraging Information Superiority , 1999 .
[263] Laurent Magnin,et al. Elements about the Emergence Issue: A Survey of Emergence Definitions , 2006, Complexus.
[264] John R. Koza,et al. Hidden Order: How Adaptation Builds Complexity. , 1995, Artificial Life.
[265] Stephen Wolfram,et al. A New Kind of Science , 2003, Artificial Life.
[266] S. Lloyd,et al. Complexity as thermodynamic depth , 1988 .
[267] B. Derrida,et al. Random networks of automata: a simple annealed approximation , 1986 .
[268] Benjamin Hancock Poole,et al. A methodology for the robustness-based evaluation of systems-of-systems alternatives using regret analysis , 2008 .