Abstract is missing.
- Towards a taxonomy of agents and multi-agent systemsLisa Jean Moya, Andreas Tolk. 11-18 [doi]
- An ontology-based dictionary of understanding as a basis for software agents with understanding abilitiesTuncer I. Ören, Nasser Ghasem-Aghaee, Levent Yilmaz. 19-27 [doi]
- Taxonomy for the modeling and simulation of emergent behavior systemsO. Thomas Holland. 28-35 [doi]
- A hybrid simulation model for studying acute inflammatory responseWayne W. Wakeland, Louis M. Macovsky, Gary An. 39-46 [doi]
- Simulation monitoring using intelligent mobile agent technologyBob DeAnna, Bob Peterson. 47-52 [doi]
- Agent-based simulation of shuttle mission operationsMaarten Sierhuis, Thomas E. Diegelman, Chin Seah, Valerie Shalin, William J. Clancey, Albert M. Selvin. 53-60 [doi]
- An agent-supported simulation architecture for manufacturing systemsNancy Ruiz, Adriana Giret, Vicente J. Botti. 63-70 [doi]
- Fighting fire with agents: an agent coordination model for simulated firefightingDaniel Moura, Eugenio Oliveira. 71-78 [doi]
- An agent-supported simulation framework for metric-aware dynamic fidelity modelingA. K. Castner, I. A. Chukhman, E. J. Colbert, M. E. Dale, B. Y. Lewis, D. R. Zaret. 79-86 [doi]
- Consideration of fluctuation and factors in election with a simulation modelTeruhiko Yoneyama, Mukkai S. Krishnamoorthy. 89-93 [doi]
- Exploring the impact of employee turnover on the effectiveness of software development team archetypesLevent Yilmaz. 94-101 [doi]
- Human behavior and social network simulation: fuzzy sets/logic and agents-based approachElkosantini Sabeur, Gien Denis. 102-109 [doi]
- Using the MANA agent-based simulation tool to evaluate and compare the effectiveness of ground-based and airborne communications jammers in countering the IED threat to ground convoysUmit Ayvaz, Murat Dere, Yao Ming Tiah. 113-118 [doi]
- Agent-based modeling of interdependencies in critical infrastructures through UMLValeria Cardellini, Emiliano Casalicchio, Emanuele Galli. 119-126 [doi]
- Evolving multi-agent network structure with organizational learningIl-Chul Moon, Kathleen M. Carley. 127-134 [doi]
- The mind agents in Netlogo 3.1Sule Yildirim, Gregory L. Dam, James C. Houk. 137-143 [doi]
- Towards understanding: a study of the SourceForge.net community using modeling and simulationYongqin Gao, Gregory R. Madey. 145-150 [doi]
- A physics model for the RoboCup 3D soccer simulationCarlos Bustamante, César Flores, Leonardo Garrido. 151-158 [doi]
- Complexities of simulating a hybrid agent-landscape model using multi-formalism composabilityGary R. Mayer, Hessam S. Sarjoughian. 161-168 [doi]
- Genetic algorithms for agent-based infrastructure interdependency modeling and analysisMay R. Permann. 169-177 [doi]
- Understanding organizational congruence: formal model and simulation frameworkVirginia Dignum, Frank Dignum. 178-184 [doi]
- An exposure study of technology transactionHui-Hua Ou-Yang. 185-191 [doi]
- System modeling with mixed object and data modelsHessam S. Sarjoughian, Robert Flasher. 199-206 [doi]
- Discrete event modeling through a multi-formalism approach, from a user-oriented perspectiveHernán P. Dacharry, Norbert Giambiasi. 207-213 [doi]
- Easy DEVSMamadou K. Traoré. 214-216 [doi]
- DEVS/NS-2 environment: integrated tool for efficient networks modeling and simulationTaekyu Kim, Moon Ho Hwang, Doohwan Kim, Bernard P. Zeigler. 219-226 [doi]
- LSIS_DME M&S environment extended by dynamic hierarchical structure DEVS modeling approachLassaad Baati, Claudia S. Frydman, Norbert Giambiasi. 227-234 [doi]
- CD++Builder: an eclipse-based IDE for DEVS modelingChiril Chidisiuc, Gabriel Andrés Wainer. 235-240 [doi]
- Experimental frame structuring and aggregation of source data: application to US climate normalsSaehoon Cheon, Bernard P. Zeigler. 243-248 [doi]
- Parallel and distributed simulation of parallel DEVS modelsJan Himmelspach, Roland Ewald, Stefan Leye, Adelinde M. Uhrmacher. 249-256 [doi]
- Studying the impact of web-services implementation of distributed simulation of DEVS and Cell-DEVS modelsRami Madhoun, Gabriel Andrés Wainer. 267-278 [doi]
- A W3C XML schema for DEVS scenariosJosé Luis Risco-Martín, Saurabh Mittal, M. A. López-Peña, J. M. de la Cruz. 279-286 [doi]
- DEVSML: automating DEVS execution over SOA towards transparent simulatorsSaurabh Mittal, José Luis Risco-Martín, Bernard P. Zeigler. 287-295 [doi]
- Modelling & simulation oriented components of wireless sensor network using DEVS formalismThierry Antoine-Santoni, Jean François Santucci, Emmanuelle de Gentili, Bernadette Costa. 299-306 [doi]
- Analysis of a submarine s evasive capability against an antisubmarine warfare torpedo using DEVS modeling and simulationDoo-Yeoun Cho, Myeong-Jo Son, Jung-Ho Kang, Sung-Jun Lee, Ju-Hwan Cha, Seong-Jin Yoo, Hyo-Kwang Lee, Kyu-Yeul Lee, Tae Wan Kim, Yong-Seog Ko. 307-315 [doi]
- Complex system simulation: DEVS implementation of the valley fever modelRajanikanth Jammalamadaka, Bernard P. Zeigler, M. Zhang, M. E. Gettings, M. Bultman. 316-319 [doi]
- Simulation-based architectural design and implementation of a real-time collaborative editing systemJon A. Preston, Xiaolin Hu, Sushil K. Prasad. 320-327 [doi]
- Fusing and composing macromolecular regulatory network modelsRanjit Randhawa, Clifford A. Shaffer, John J. Tyson. 337-344 [doi]
- Biomolecular Network Simulator: software for stochastic simulation of cellular biological processesYaroslav Chushak, Brent D. Foy, John M. Frazier. 345-349 [doi]
- Performance of stabilized explicit time integration methods for parallel air quality modelsAnurag Srivastava, John C. Linford, Adrian Sandu. 350-356 [doi]
- Simulation of a complex distributed real-time database systemWaqar Haque, Paul R. Stokes. 359-366 [doi]
- Dynamic scheduling in parallel answer set programming solversHung Viet Le, Enrico Pontelli. 367-374 [doi]
- Overcoming the processor communication overhead in MPI applicationsGabriel Mateescu. 375-378 [doi]
- Application of the SALOME software architecture to nuclear reactor researchV. Bergeaud, M. Tajchman. 383-387 [doi]
- A hybrid decomposition scheme for building scientific workflowsWei Lu, Kenneth Chiu, Satoshi Shirasuna, Dennis Gannon. 388-394 [doi]
- Analyzing the impact of computational heterogeneity on runtime performance of parallel scientific componentsSumir Chandra, Manish Parashar, Jaideep Ray. 395-402 [doi]
- A shared memory parallel algorithm for hybrid image classificationRhonda D. Phillips, Layne T. Watson, Randolph H. Wynne. 405-411 [doi]
- Optimization algorithms for multi-service IP network planningThi-Thanh-Mai Hoang. 412-418 [doi]
- Experimental evaluation of infiniband transport over local- and wide-area networksSteven M. Carter, Makia Minich, Nageswara S. V. Rao. 419-426 [doi]
- 2-step algorithm for enhancing effectiveness of sender-based message loggingJinHo Ahn. 429-434 [doi]
- C++ reflection for high performance problem solving environmentsTharaka Devadithya, Kenneth Chiu, Wei Lu. 435-440 [doi]
- BXSA for fast processing of scientific dataTharaka Devadithya, Zongde Liu, Nayef Abu-Ghazaleh, Wei Lu, Kenneth Chiu, Stéphane Ethier. 441-446 [doi]