Abstract is missing.
- Being a professionalRobert G. Sargent. 3-7 [doi]
- Simulation fundamentals: simulation fundamentalsJerry Banks. 9-16 [doi]
- Input modelingLawrence Leemis. 17-25 [doi]
- Simulation practice: tips for successful practice of simulationDeborah A. Sadowski, Mark R. Grabau. 26-31 [doi]
- Output analysis: output analysis procedures for computer simulationsDavid Goldsman, Gamze Tokol. 39-45 [doi]
- Simulation-based optimizationAverill M. Law, Michael G. McComas. 46-49 [doi]
- Verification, validation, and accreditation: verification, validation, and accreditation of simulation modelsRobert G. Sargent. 50-59 [doi]
- Web-based simulation: web-based modeling and simulationS. Narayanan. 60-62 [doi]
- Manufacturing simulation: introduction to manufacturing simulationScott A. Miller, Claude Dennis Pegden. 63-66 [doi]
- Design of experiments: robust design: seeking the best of all possible worldsSusan M. Sanchez. 69-76 [doi]
- Modeling for application: developing industrial strength simulation models using Visual Basic for Applications (VBA)Marvin S. Seppanen. 77-82 [doi]
- Groupware and the simulation consultantSimon J. E. Taylor. 83-89 [doi]
- Inside simulation software: inside discrete-event simulation software: how it works and why it mattersThomas J. Schriber, Daniel T. Brunner. 90-100 [doi]
- Output analysis: output analysis for simulationsChristos Alexopoulos, Andrew F. Seila. 101-108 [doi]
- Bayesian methods: bayesian methods for simulationStephen E. Chick. 109-118 [doi]
- Simulation optimization: a survey of simulation optimization techniques and proceduresJames R. Swisher, Paul Hyden, Sheldon H. Jacobson, Lee Schruben. 119-128 [doi]
- A framework for Response Surface Methodology for simulation optimizationH. Gonda Neddermeijer, Gerrit J. van Oortmarssen, Nanda Piersma, Rommert Dekker. 129-136 [doi]
- Mathematics and hybrid modeling: mathematics for simulationShane G. Henderson. 137-146 [doi]
- On hybrid combination of queueing and simulationNico M. van Dijk. 147-150 [doi]
- Options pricing: using simulation for option pricingJohn M. Charnes. 151-157 [doi]
- Distributed simulation: creating distributed simulation using DEVS M&S environmentsBernard P. Zeigler, Hessam S. Sarjoughian. 158-160 [doi]
- Arena: the Arena product family: enterprise modeling solutionsVivek Bapat, Nancy Swets. 163-169 [doi]
- AutoMod product suite: AutoMod tutorialMatthew W. Rohrer. 170-176 [doi]
- GPSS/H, SLX, proof: GPSS/H: a 23-year retrospective viewJames O. Henriksen, Robert C. Crain. 177-182 [doi]
- SLX: the X is for extensibilityJames O. Henriksen. 183-190 [doi]
- Adding animation to a simulation using Proof:::TM:::James O. Henriksen. 191-196 [doi]
- ProModel/MedModel: simulation modeling and optimization using ProModelCharles R. Harrell, Rochelle N. Price. 197-202 [doi]
- Healthcare simulation modeling and optimization using MedModelCharles R. Harrell, Rochelle N. Price. 203-207 [doi]
- SDI industry product suite: the SDI Industry Product Suite: simulation from the production line to the supply chainRichard A. Phelps, David J. Parsons, Andrew J. Siprelle. 208-214 [doi]
- Enterprise modeling and analysis: an enterprise modeling and analysis toolkitDursun Delen, Perakath C. Benjamin. 215-223 [doi]
- Digital manufacturing: driving digital manufacturing to realityRobert G. Brown. 224-228 [doi]
- eM-Plant: eliminate bottlenecks with integrated analysis tools in eM-PlantMatthias U. Heinicke, Alan Hickman. 229-231 [doi]
- Real-time simulations: effective real-time simulations of event-based systemsCamille Alain Rabbath, M. Abdoune, Jay Belanger. 232-238 [doi]
- Smart modeling: smart modeling - basic methodology and advanced toolsArvind Mehta. 241-245 [doi]
- Silk, Java and object-oriented simulationRichard A. Kilgore. 246-252 [doi]
- Expert fit: how the ExpertFit distribution-fitting package can make your simulation models more validAverill M. Law, Michael G. McComas. 253-258 [doi]
- CSIM18/OptQuest: optimizing simulations with CSIM18/OptQuest: finding the best configurationHerbert D. Schwetman. 268-273 [doi]
- Micro saint: modeling with the Micro Saint simulation packageDaniel W. Schunk. 274-279 [doi]
- Extend: the Extend simulation environmentDavid Krahl. 280-289 [doi]
- Dealing with complexity: exploratory analysis enabled by multiresolultion, multiperspective modelingPaul K. Davis. 293-302 [doi]
- Circumstance descriptors: a method for generating plan modifications and fragmentary ordersJohn B. Gilmer Jr.. 303-311 [doi]
- The ARGESIM-Comparisons on discrete simulation: results and evaluationFelix Breitenecker, Martin Lingl, Erwin Rybin. 312-315 [doi]
- Model abstraction techniques and applications: informing and calibrating a multiresolution exploratory analysis model with high resolution simulation: the interdiction problem as a case historyPaul K. Davis, James H. Bigelow, Jimmie McEver. 316-325 [doi]
- Abstract modeling for engineering and engagement level simulationsRobert M. McGraw, Richard A. MacDonald. 326-334 [doi]
- Model abstraction for discrete event systems using neural networks and sensitivity informationChristos G. Panayiotou, Christos G. Cassandras, Weibo Gong. 335-341 [doi]
- System dynamics modelling in supply chain management: research reviewBernhard J. Angerhofer, Marios C. Angelides. 342-351 [doi]
- Analysis of the virtual enterprise using distributed supply chain modeling and simulation: an application of e-SCORMichael Barnett, Charles J. Miller. 352-355 [doi]
- Distributed supply chain simulation in GRIDSRajeev Sudra, Simon J. E. Taylor, Tharumasegaram Janahan. 356-361 [doi]
- Graph-based modeling: PERT scheduling with resources using qualitative simulation graphsRicki G. Ingalls, Douglas J. Morrice. 362-370 [doi]
- An integrated object model for activity network based simulationGert Zülch, Jörg Fischer, Uwe Jonsson. 371-380 [doi]
- Mathematical programming models of discrete event system dynamicsLee Schruben. 381-385 [doi]
- Architectures and languages for model building and reuse: organization and selection of reconfigurable modelsAntonio Diaz-Calderon, Christiaan J. J. Paredis, Pradeep K. Khosla. 386-393 [doi]
- Computer assistance for model definitionHenk de Swaan Arons, Eelco van Asperen. 399-408 [doi]
- Techniques for optimizing model execution I: aggressiveness/risk effects based scheduling in Time WarpVittorio Cortellessa, Francesco Quaglia. 409-417 [doi]
- Parallel execution of a sequential network simulatorKevin G. Jones, Samir Ranjan Das. 418-424 [doi]
- Cost/benefit analysis of interval jumping in power-control simulationDavid M. Nicol, L. Felipe Perrone. 425-431 [doi]
- Some fundamental issues in model building: software engineering Best Practices applied to the modeling processDavid H. Withers. 432-439 [doi]
- Models and representation of their ownershipHessam S. Sarjoughian, Bernard P. Zeigler. 440-448 [doi]
- On simulation model complexityLeonardo Chwif, Marcos Ribeiro Pereira Barretto, Ray J. Paul. 449-455 [doi]
- Advances in modeling and analysis: a method for achieving stable distributions of wireless mobile location in motion simulationsTony Dean. 456-463 [doi]
- Using simulation and critical points to define states in continuous search spacesMarc S. Atkin, Paul R. Cohen. 464-470 [doi]
- Facilitating level three cache studies using set samplingNiki C. Thornock, J. Kelly Flanagan. 471-479 [doi]
- SNOOPy Calendar QueueKah Leong Tan, Ian Li-Jin Thng. 487-495 [doi]
- A simulation model of backfilling and I/O scheduling in a partitionable parallel systemHelen D. Karatza. 496-505 [doi]
- Quasi-random numbers and their applications: using lattice rules for variance reduction in simulationChristiane Lemieux, Pierre L Ecuyer. 509-516 [doi]
- Quasi-Monte Carlo methods in cash flow testing simulationsMichael G. Hilgers. 517-526 [doi]
- Generating dependent quasi-random numbersShane G. Henderson, Belinda A. Chiera, Roger M. Cooke. 527-536 [doi]
- Ranking, selection, and multiple comparisons in simulation: adaptively choosing the best procedure for selecting the best systemJustin Boesel. 537-543 [doi]
- Ranking and selection for steady-state simulationDavid Goldsman, William S. Marshall, Seong-Hee Kim, Barry L. Nelson. 544-553 [doi]
- New results on procedures that select the best system using CRNStephen E. Chick, Koichiro Inoue. 554-561 [doi]
- New frontiers in input modeling: nonparametric estimation of Nonhomogeneous Poisson processes using waveletsMichael E. Kuhl, Prashant S. Bhairgond. 562-571 [doi]
- Simulation from non-standard distributions using envelope methodsMichael J. Evans, Tim B. Swartz. 572-576 [doi]
- Input modeling using a computer algebra systemDiane L. Evans, Lawrence Leemis. 577-586 [doi]
- Simulation in financial engineering: importance sampling in derivative securities pricingYi Su, Michael C. Fu. 587-596 [doi]
- A real options design for quality control chartsHarriet Black Nembhard, Leyuan Shi, Mehmet Aktan. 597-603 [doi]
- Variance reduction techniques for value-at-risk with heavy-tailed risk factorsPaul Glasserman, Philip Heidelberger, Perwez Shahabuddin. 604-609 [doi]
- Integrating optimization and simulation: research and practiceMichael C. Fu, Sigrún Andradóttir, John S. Carson II, Fred Glover, Charles R. Harrell, Yu-Chi Ho, James P. Kelly, Stephen M. Robinson. 610-616 [doi]
- Batching methods for simulation output analysis: a stopping procedure based on phi-mixing conditionsE. Jack Chen, W. David Kelton. 617-626 [doi]
- Simulation output analysis via dynamic batch meansYingchieh Yeh, Bruce W. Schmeiser. 637-645 [doi]
- Techniques for simulating difficult queueing problems: adaptive importance sampling simulation of queueing networksPieter-Tjerk de Boer, Victor F. Nicola, Reuven Y. Rubinstein. 646-655 [doi]
- Simulating GI/GI/1 queues and insurance risk processes with subexponential distributionsNam Kyoo Boots, Perwez Shahabuddin. 656-665 [doi]
- Practical aspects of simulating systems having arrival processes with long-range dependenceRobert Geist, James Westall. 666-674 [doi]
- Random-number and random-variate generation: automatic random variate generation for simulation inputWolfgang Hörmann, Josef Leydold. 675-682 [doi]
- Fast combined multiple recursive generators with multipliers of the form ::::a:::: = ±2:::::::q::::::: ±2:::::::r:::::::Pierre L Ecuyer, Renée Touzin. 683-689 [doi]
- A new class of linear feedback shift register generatorsPierre L Ecuyer, François Panneton. 690-696 [doi]
- Methods for comparing and optimizing simulated systems: analysis of simulation factorial experiments by EDF resample statisticsRussell C. H. Cheng, Owen D. Jones. 697-703 [doi]
- Low cost response surface methods for and from simulation optimizationTheodore Allen, Liyang Yu. 704-714 [doi]
- Simulation optimization of stochastic systems with integer variables by sequential linearizationS. J. Abspoel, L. F. P. Etman, J. Vervoort, J. E. Rooda. 715-723 [doi]
- Comparing systems via stochastic simulation: an enhanced two-stage selection procedureE. Jack Chen, W. David Kelton. 727-735 [doi]
- Optimal selection probability in the two-stage nested partitions method for simulation-based optimizationSigurdur Ólafsson, Nithin Gopinath. 736-742 [doi]
- Improved decision processes through simultaneous simulation and time dilationPaul Hyden, Lee Schruben. 743-748 [doi]
- Statistical tools for simulation design and analysis I: finding important independent variables through screening designs: a comparison of methodsLinda Trocine, Linda C. Malone. 749-754 [doi]
- A comparison of five steady-state truncation heuristics for simulationK. Preston White, Michael J. Cobb, Stephen C. Spratt. 755-760 [doi]
- A perspective of batching methods in a simulation environment of multiple replications in parallelEdjair de Souza Mota, Adam Wolisz, Krzysztof Pawlikowski. 761-766 [doi]
- Statistical tools for simulation design and analysis II: nonparametric adaptive importance sampling for rare event simulationYun Bae Kim, Deok Seon Roh, Myeong Yong Lee. 767-772 [doi]
- Analyzing transformation-based simulation metamodelsMaria de los A. Irizarry, Michael E. Kuhl, Emily K. Lada, Sriram Subramanian, James R. Wilson. 773-781 [doi]
- Simulation optimization: multi-response simulation optimization using stochastic genetic search within a goal programming frameworkFelipe F. Baesler, José A. Sepúlveda. 788-794 [doi]
- A practical approach to sample-path simulation optimizationMichael C. Ferris, Todd S. Munson, Krung Sinapiromsaran. 795-804 [doi]
- Simulation optimization using tabu searchBerna Dengiz, Cigdem Alabas. 805-810 [doi]
- Planning for verification, validation, and accreditation of modeling and simulation applicationsOsman Balci, William F. Ormsby, John T. Carr III, Said D. Saadi. 829-839 [doi]
- VV&A; II: enhancing modeling and simulation accreditation by structuring Verification and Validation resultsDirk Brade. 840-848 [doi]
- Well-defined intended uses: an explicit requirement for accreditation of modeling and simulation applicationsOsman Balci, William F. Ormsby. 849-854 [doi]
- V&A; III: verification and validation without independence: a recipe for failureJames D. Arthur, Richard E. Nance. 859-865 [doi]
- VV&A; IV: validation of trace-driven simulation models: more on bootstrap testsJack P. C. Kleijnen, Russell C. H. Cheng, Bert Bettonvil. 882-892 [doi]
- Soft-commissioning: hardware-in-the-loop-based verification of controller softwareHarald Schludermann, Thomas Kirchmair, Markus Vorderwinkler. 893-899 [doi]
- The design of a solid-state physical model of an automated system to be used as a test bed for control applicationsFernando G. Gonzalez, Alicia Helton, Douglas Helton, Jeffrey S. Smith, Eileen Thompson, Gerry Walterscheild. 900-908 [doi]
- Strategic directions in VV&A; research: strategic directions in Verification, Validation, and Accreditation researchRobert G. Sargent, Priscilla A. Glasow, Jack P. C. Kleijnen, Averill M. Law, Ian McGregor, Simone Youngblood. 909-916 [doi]
- Attrition and fatigue: modeling the effects of crew size and crew fatigue on the control of Tactical Unmanned Aerial Vehicles (TUAVS)Brett Walters, Jon French, Michael J. Barnes. 920-924 [doi]
- Hierarchy-of-models approach for aggregated-force attritionJames G. Taylor, Ugur Ziya Yildirim, William S. Murphy Jr.. 925-932 [doi]
- An underlying model for defeat mechanismsBrent Heeringa, Paul R. Cohen. 933-939 [doi]
- Anticipatory Planning Support SystemJohn R. Surdu, John M. D. Hill, Udo W. Pooch. 950-957 [doi]
- Recursive simulation to aid models of decision makingJohn B. Gilmer Jr., Frederick J. Sullivan. 958-963 [doi]
- Architecture initiatives: component-based simulation modelingArnold H. Buss. 964-971 [doi]
- A formation behavior for large-scale micro-robot force deploymentDonald D. Dudenhoeffer, Michael P. Jones. 972-982 [doi]
- Simulation methods for analysis of traffic processes in ATM networksKenneth Y. Jo, Christopher Munk. 983-990 [doi]
- Predicting enemy force closure with simulationMark R. Grabau, Michael D. Payne. 1006-1009 [doi]
- Simulation in a box: a generic reusable maintenance modelNancy Brown, Steve Powers. 1050-1056 [doi]
- DoD initiatives in distributed simulation technology: a panel discussionPhillip Barry, Philomena M. Zimmerman, Jim Metzger, Fred Hartman, Cindy Porubcansky, Joseph S. Stewart II. 1057-1060 [doi]
- Military logistics: simulation-based acquisition: an impetus for changeWayne J. Davis. 1061-1067 [doi]
- A readiness analysis for the Argentine Air Force and the Brazilian Navy A-4 fleet via consolidated logistics supportMarcelo B. Rodrigues, Mario Karpowicz, Keebom Kang. 1068-1074 [doi]
- United States Marine Corps aerial refueling requirements analysisWilliam R. Gates, Mitchell J. McCarthy. 1075-1081 [doi]
- Using simulation to analyze supply chainsDaniel W. Schunk, Beth M. Plott. 1095-1100 [doi]
- An MSE-based simulation capability for strategic and tactical logisticsCharles R. Standridge, David R. Heltne. 1107-1113 [doi]
- Air transportation simulation: SimAir: a stochastic model of airline operationsJay M. Rosenberger, Andrew J. Schaefer, David Goldsman, Ellis L. Johnson, Anton J. Kleywegt, George L. Nemhauser. 1118-1122 [doi]
- Simulation based operational analysis of future space transportation systemsAlex J. Ruiz-Torres, Edgar Zapata. 1123-1131 [doi]
- Hybrid-system simulation for National Airspace System safety analysisAmy R. Pritchett, Seungman Lee, David Huang, David Goldsman. 1132-1142 [doi]
- Street and traffic simulation: traffic flow simulation using CORSIMLarry E. Owen, YunLong Zhang, Lei Rao, Gene McHale. 1143-1147 [doi]
- Traffic simulation of roundabouts in SwitzerlandWilli Bernhard, Peter Portmann. 1148-1153 [doi]
- Modeling road traffic on airport premisesMarco C. van Burgsteden, Paul E. Joustra, Michiel R. Bouwman, Mark Hullegie. 1154-1163 [doi]
- Inter-modal transportation: the use of simulation modeling for intermodal capacity assessmentBeth C. Kulick, James T. Sawyer. 1164-1167 [doi]
- Simulation modeling and analysis of a new international terminalAli S. Kiran, Tekin Cetinkaya, Serafettin Og. 1168-1172 [doi]
- General topics: a voice assisted simulation-animation architectureRaymond L. Smith III, Stephen D. Roberts. 1201-1210 [doi]
- Seeing is believing: the importance of visualization in manufacturing simulationMatthew W. Rohrer. 1211-1216 [doi]
- Large-scale applications: system sizing using modeling and simulationMichael J. Engiles, Edward R. Stephan. 1222-1226 [doi]
- Simulation of the tornado hazard in the U.SBronislava M. Sigal, Ajay Singhal, Kai Pan, Pasan Seneviratna, Masoud M. Zadeh. 1227-1234 [doi]
- Simulation of transport protocols over wireless communication networksHala ElAarag, Mostafa A. Bassiouni. 1235-1241 [doi]
- Manufacturing sypply chain management: distributed supply chain simulation across enterprise boundariesBoon-Ping Gan, Li Liu, Sanjay Jain, Stephen John Turner, Wentong Cai, Wen-Jing Hsu. 1245-1251 [doi]
- A strategic supply chain simulation modelJames Ritchie-Dunham, Douglas J. Morrice, Judy E. Scott, Edward G. Anderson. 1260-1264 [doi]
- Using simulation to support implementation of flexible manufacturing CellKambiz Farahmand. 1272-1281 [doi]
- A basic study on autonomous characterization of square array machining cells for agile manufacturingSusumu Fujii, Hiroshi Morita, Takeshi Tanaka. 1282-1289 [doi]
- Strategies for successful simulation of manufacturing systems: dynamic output analysis for simulations of manufacturing environmentsPeter W. Mullarkey, Srinagesh Gavirneni, Douglas J. Morrice. 1290-1296 [doi]
- Optimizing production work flow using OpEMCSSJohn R. Clymer. 1305-1314 [doi]
- Application of simulation for manufacturing processes improvements: using simulation techniques for continuous process verification in industrial system developmentPar Klingstam, Bengt-Goran Olsson. 1315-1321 [doi]
- Material handling: simulation based comparison of semiconductor AMHS alternatives: Continuous Flow vs. Overhead MonorailIgor Paprotny, Juin-Yan Shiau, Yo Huh, Gerald T. Mackulak. 1333-1338 [doi]
- Simulation of an evolutionary tuned fuzzy dispatching system for automated guided vehiclesK. K. Tan, K. Z. Tang. 1339-1343 [doi]
- Automated material handling system traffic control by means of node balancingNamdar Bahri, Robert J. Gaskins. 1344-1346 [doi]
- Look-ahead strategies for controlling batch operations in industry: overview, comparison and explorationDurk-Jouke van der Zee. 1364-1373 [doi]
- An analytical model and an optimal scheduling heuristic for collective resource managementQiang Sun. 1374-1379 [doi]
- Simulation of factory operations: simulation in daily factory operation: setting the line bogey in Augusta Gordon D. Rehn. 1380-1384 [doi]
- Product-mix analysis with Discrete Event SimulationRaid Al-Aomar. 1385-1392 [doi]
- Language based simulation models as management tools for assembly linesThomas Schulze, Marco Schumann, Gordon D. Rehn. 1393-1401 [doi]
- Using simulation to evaluate cargo ship design on the LPD17 programJoseph Hugan. 1407-1410 [doi]
- Simulation based design for a shipyard manufacturing processDeborah J. Medeiros, Mark T. Traband, April Tribble, Rebekah Lepro, Kenneth Fast, Daniel Williams. 1411-1414 [doi]
- Semiconductor process equipment modeling: using emulation to validate a cluster tool simulation modelTodd LeBaron, Ruth Ann Hendrickson. 1417-1422 [doi]
- Productivity modeling of semiconductor manufacturing equipmentMark Pool, Robert Bachrach. 1423-1427 [doi]
- Alternative loading and dispatching policies for furnace operations in semiconductor manufacturing: a comparison by simulationElif Akçali, Reha Uzsoy, David G. Hiscock, Anne L. Moser, Timothy J. Teyner. 1428-1435 [doi]
- Partitioning parallel simulation of wireless networksAzzedine Boukerche, Alessandro Fabbri. 1449-1457 [doi]
- Semiconductor manufacturing scheduling: maximizing delivery performance in semiconductor wafer fabrication facilitiesScott J. Mason, John W. Fowler. 1458-1463 [doi]
- Simulation based cause and effect analysis of cycle time distribution in semiconductor backendAppa Iyer Sivakumar. 1464-1471 [doi]
- Scheduling MEMS manufacturingWang Lixin, Francis Eng Hock Tay, Loo Hay Lee. 1472-1480 [doi]
- General simulation applications in semiconductor manufacturing: why do simple wafer fab models fail in certain scenarios?Oliver Rose. 1481-1490 [doi]
- Evaluation of the effectiveness of group screening methods as compared to no group screeningDima Nazzal, Mansooreh Mollaghasemi, Linda C. Malone. 1499-1504 [doi]
- Semiconductor manufacturing material handling systems: integrating dynamic fab capacity and automation models for 300mm semiconductor manufacturingChad D. DeJong, Seth A. Fischbein. 1505-1509 [doi]
- A simulation-based cost modeling methodology for evaluation of interbay material handling in a semiconductor wafer fabShari Murray, Gerald T. Mackulak, John W. Fowler, Theron Colvin. 1510-1517 [doi]
- Simulation based decision support for future 300mm automated material handlingMathias Schulz, Timothy D. Stanley, Bernhard Renelt, Roland Sturm, Oliver Schwertschlager. 1518-1522 [doi]
- Virtual machines for message based, real-time and interactive simulationHansoo Kim, Chen Zhou, Hua X. Du. 1529-1532 [doi]
- Avatar kinematics modeling for telecollaborative virtual environmentsCristian Luciano, Pat Banerjee. 1533-1538 [doi]
- Simulation in the international IMS MISSION project: the IMS MISSION architecture for distributed manufacturing simulationCharles McLean, Frank Riddick. 1539-1548 [doi]
- Neutral template libraries for efficient distributed simulation within a manufacturing system engineering platformKai Mertins, Markus Rabe, Frank-Walter Jaekel. 1549-1557 [doi]
- Automatic generation of simulation models from neutral libraries: an exampleYoung Jun Son, Albert Jones, Richard A. Wysk. 1558-1567 [doi]
- Simulation in the futureJerry Banks. 1568-1576 [doi]
- Model composability as a research investment: responses to the featured paperPaul C. Davis, Paul A. Fishwick, C. Michael Overstreet, Claude Dennis Pegden. 1585-1591 [doi]
- Keynote address: simulation education: past reflections and future directionsRichard E. Nance. 1595-1601 [doi]
- Teaching methods: how should we teach simulation?Ingolf Ståhl. 1602-1612 [doi]
- Simulation as educational support for production and logistics in industrial engineeringAgostino G. Bruzzone, Pietro Giribone, Roberto Revetria. 1613-1618 [doi]
- Simulation education: taking HLA education to the webKatherine L. Morse. 1619-1623 [doi]
- Medical education as a model for simulation educationAndrew F. Seila. 1624-1629 [doi]
- Teaching simulation using case studiesCharles R. Standridge. 1630-1634 [doi]
- Conceptions of curriculum for simulation education: panelHelena Szczerbicka, Jerry Banks, Ralph V. Rogers, Tuncer I. Ören, Hessam S. Sarjoughian, Bernard P. Zeigler. 1635-1644 [doi]
- Tools for teaching simulation: integrating modelling and data analysis in teaching discrete event simulationKrzysztof Pawlikowski, Wolfgang Kreutzer. 1645-1650 [doi]
- Interactive Web-based animations for teaching and learningMichael Syrjakow, Jörg Berdux, Helena Szczerbicka. 1651-1659 [doi]
- A virtual textbook for modeling and simulationThomas Wiedemann. 1660-1665 [doi]
- Simulation curriculum: a model curriculum in modeling and simulation: do we need it? Can we do it?Roy E. Crosbie. 1666-1668 [doi]
- Teaching system modeling, simulation and validationJörg Desel. 1669-1675 [doi]
- Simulation software: an Operational Research Society survey of academic and industrial usersVlatka Hlupic. 1676-1683 [doi]
- Modeling reality with simulation games for a cooperative learningJoão Rafael Galvão, Paulo Garcia Martins, Mário Rui Gomes. 1692-1698 [doi]
- Simulation using software agents I: linking spatially explicit parallel continuous and discrete modelsBoleslaw K. Szymanski, Gilbert Chen. 1705-1712 [doi]
- An agent-based framework for linking distributed simulationsLinda F. Wilson, Daniel Burroughs, Jeanne Sucharitaves, Anush Kumar. 1713-1721 [doi]
- Plug and test : software agents in virtual environmentsAdelinde Uhrmacher, Bernd G. Kullick. 1722-1729 [doi]
- Simulation using software agents II: domain-general simulation and planning with physical schemasMarc S. Atkin, David L. Westbrook, Paul R. Cohen. 1730-1738 [doi]
- Using agent-based modeling to capture airpower strategic effectsRichard K. Bullock, Gregory A. McIntyre, Raymond R. Hill. 1739-1746 [doi]
- A simulation test-bed to evaluate multi-agent control of manufacturing systemsRobert W. Brennan, William O. 1747-1756 [doi]
- Agent-directed simulation: challenges to meet defense and civilian requirementsTuncer I. Ören, Susan K. Numrich, Adelinde Uhrmacher, Linda F. Wilson, Erol Gelenbe. 1757-1762 [doi]
- Agent-based simulation of dynamic online auctionsHideyuki Mizuta, Kenneth Steiglitz. 1772-1777 [doi]
- Distributed web-based simulation optimizationYuh-Chuyn Luo, Chun-Hung Chen, Enver Yücesan, Insup Lee. 1785-1793 [doi]
- The MONARC toolset for simulating large network-distributed processing systemsIosif Legrand, Harvey B. Newman. 1794-1801 [doi]
- Web-based simulation management: a web-based interface for storing and executing simulation modelsAshu Guru, Paul A. Savory, Robert Williams. 1810-1814 [doi]
- A Java-based simulation manager for web-based simulationCharles Marr, Christopher Storey, William E. Biles, Jack P. C. Kleijnen. 1815-1822 [doi]
- An interactive land use VRML application (ILUVA) with servlet assistLee A. Belfore II, Suresh Chitithoti. 1823-1830 [doi]
- Distributed web-based component architectures: a model-based approach for component simulation developmentPerakath C. Benjamin, Dursun Delen, Richard J. Mayer, Timothy O Brien. 1831-1839 [doi]
- Dynamic component substitution in web-based simulationDhananjai Madhava Rao, Philip A. Wilsey. 1840-1848 [doi]
- Finding a substrate for federated components on the webJohn A. Miller, Andrew F. Seila, Junxiu Tao. 1849-1854 [doi]
- Simulation modeling and the web: Simfone : an object-oriented simulation frameworkManuel D. Rossetti, Ben Aylor, Ryan Jacoby, Alyson Prorock, Antoine White. 1855-1864 [doi]
- VisualSLX: an open user shell for high-performance modeling and simulationThomas Wiedemann. 1865-1871 [doi]
- A review of web based simulation: whither we wander?Jasna Kuljis, Ray J. Paul. 1872-1881 [doi]
- Java applications: issues in Java-based continuous time step physical modellingLisa A. Schaefer, Philip M. Wolfe. 1882-1887 [doi]
- Java engine for UML based hybrid state machinesAndrei Borshchev, Yuri B. Kolesov, Yuri B. Senichenkov. 1888-1894 [doi]
- Construction engineering I: simulation as a tool for resource managementTarek M. Zayed, Daniel W. Halpin. 1897-1906 [doi]
- Simphony: an integrated environment for construction simulationSimaan M. AbouRizk, Yasser Mohamed. 1907-1914 [doi]
- Simulation of a production plant in the brick industryErwin Rybin, Felix Breitenecker. 1915-1918 [doi]
- Construction engineering II: JavaBeans-based framework for construction simulationAnil Sawhney, Hemant Deshpande, André Mund. 1919-1925 [doi]
- Optimizing earthmoving operations using object-oriented simulationMohamed Marzouk, Osama Moselhi. 1926-1932 [doi]
- 3D visualization of simulated construction operationsVineet R. Kamat, Julio C. Martínez. 1933-1937 [doi]
- Construction engineering III: object-oriented technology for enhancing activity-based modeling functionalityJonathan Jingsheng Shi. 1938-1944 [doi]
- An industry perspective on the role of equipment-based earthmoving simulationGovindan Kannan, Luc Schmitz, Christian Larsen. 1945-1952 [doi]
- Organ transplantation policies: an update on a successful simulation project: the Unos Liver Allocation ModelAnn M. Harper, Sarah E. Taranto, Erick B. Edwards, O. Patrick Daily. 1955-1962 [doi]
- Developing a national allocation model for cadaveric kidneysSarah E. Taranto, Ann M. Harper, Erick B. Edwards, John D. Rosendale, Maureen A. McBride, O. Patrick Daily, Dan Murphy, Bill Poos, Janet S. Reust, Bruce W. Schmeiser. 1971-1977 [doi]
- Project and process improvements in healthcare organizations: a simulation study of the radiology department at JMHMartha A. Centeno, Cristina Albacete, Diego O. Terzano, Manuel Carrillo, Tom Ogazon. 1978-1984 [doi]
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