The Industrial Simulation Conference 2003 (ISC–2003) is the annual international Simulation conference, which aims to give a complete overview of industrial simulation related research and to provide an annual status report on present day industrial simulation research for the European Community and the rest of the world. With the integration of artificial intelligence, agents and other modelling techniques, simulation has become an effective and appropriate decision support tool, as well. The exchange of techniques and ideas among universities and industry, which support the integration of simulation in the everyday workplace, is the basic premise at the heart of ISC–2003 <b>Keywords:</b> Modelling Methodology<br>Web Based Simulation, Optimization and Response Surfaces, Parallel and Distributed Systems, Virtual Worlds, Methods for Special Applications, Practice, Extensions, XML, Open Source, Model Development, Network Modeling, Distributed Simulation and Industry, Modeling Very Large Scale Systems, Aerospace Operations, Revising Simulations Components.<br>Analysis Methodology<br>Advanced Input Modeling, Simulation Optimization, Cross Entropy, Output Analysis, Input Modeling, Simulation Optimization, Input Analysis, Difficult Queueing Problems, New Output Analysis.<br>Discrete Simulation Languages and Tools<br>Discrete simulation languages; Object oriented modeling languages; UML and simulation; Model libraries and modularity; Component–oriented simulation; Special simulation tools and environments; Meta–models and automatic model generation; Graphical simulation environments and simulation software tools; Intelligent simulation environments; Database management of models and results; Java and Web enabled simulations, UML and OO Simulation.<br>Application Areas<br>Automation, CAD/CAM/CAE, Defense Electronics, Design Automation, Simulation in industrial Design, Industrial Engineering, Industrial and Process Simulation, Manufacturing, Simulations, Logistics and Transport, Power Plants, Multibody Systems, Aerospace, etc..<br>Simulation in Manufacturing<br>Computer Assisted Learning and Simulation Trainers, Customizing of ERP Systems using Simulation, Distributed Simulation Approaches, Hierarchical Simulation, Integrating Process Mapping and Simulation, Manufacturing Consulting, Manufacturing Controls, Model Integration Standards Optimization and Evaluation, Simulation Frameworks, Simulation of (Manufacturing) Processes in Virtual Enterprises, Virtual Factories, and Virtual Manufacturing Simulation Support Tools , Web–Based Workflow Modeling and Simulation , MRP systems; CAD; CAM; CIM; Process design; Process control; Embedded intelligent control systems; Scheduling; Automotive simulation; Robotics and automation. Manufacturing Applications Transportation and Material Handling, Best Modeling Methods, Integrating Simulation and Design, Manufacturing Modeling Architectures, Manufacturing Modeling Methods, Simulation of Manufacturing Operations.<br>Simulation in Automotive Systems<br>Automotive simulation of Card Design, car behaviour, vehicle driver interaction, collision tests, vision enhancement and collision warning systems, vehicle dynamics and simulation, off–road vehicle design and modelling.<br>Simulation in Robotics<br>Robot Systems<br>Application of Industrial Robots, Service Robots, Control Technology, Development of Mechatronic Products, Innovation Management. Sensor Simulation , Simulation of Natural Environments Simulation of Agent–Environment Interaction /Intelligent Agents, Neural Networks and Simulation , Simulation of Collective Behaviour and Emergent Phenomena , Simulation of Learning and Adaptation Processes , Assessment Criteria and Assessment Methods for Simulators , Quantitative and Qualitative Comparisons between Originals and their Simulations , Simulation of User–System Interaction<br>Robots in Assembly Systems<br>Assembly Systems and Components, Processes Product Development and Design, Wiring Technology.<br>Robots in Technical Production Planning<br>Technical Production Planning, Device and Equipment Technology, Production processes and Sequences, Information Technology.<br>Simulation in Electronics, Computers and Telecommunications<br>Modeling and simulation of analogue circuits; Modeling and simulation of digital circuits at switch and/or at logic level; Hardware accelerators for circuit–level simulation; Hardware accelerators for logic simulation; Distributed simulation of circuits, components, and systems; Modeling and simulation of computer systems; Fault simulation; Parallel and distributed systems; High–speed networks; Network simulation software; Computer and telecommunication systems; Telecommunication devices and systems; Intelligent telecommunication networks; ISDN; ATM communications.<br>Simulation in Electronics Manufacturing<br>Semiconductor Manufacturing, (Wafer Fabrication, Material Handling, Scheduling and Dispatching, Modeling Methodology, Computer Aided Test and test Pattern Generation, High Level Synthesis and Technology Mapping, Semi Custom and Reconfigurable VLSI Analysis, Design for Testability, Simulation Algorithms, High Level Desciprtion and Verification Languages, ASIC Design Techniques and Applications, VHDL and Design Design Methodologies, Fault Design and Testability Analysis, Microelectronics and CIM, Mixed Analogue/Digital VLSI).<br>Cleanroom Manufacturing<br>(Cleanroom suitability test, microsystem technology, cleaning technology, manufacturing technology for clean environments, information systems)<br>Manufacturing Technologies, Information Technology<br>(Information Processing, Metrology and Testing Technology, Production Methods, Rapid Prototyping).<br>Surface Engineering<br>(Development, optimisation and modelling of coating processes, integrated process development and management, production–orientated equipment, development, integration of coating processes into production, quality concepts for complex coating processes, surface characterization)<br>Coating Technology<br>Simulation Based Scheduling, (Supply Chain Planning Semiconductor Manufacturing, Maintenance and Repair, Scheduling and Control and Schedule Evaluation)<br>Simulation in Logistics, Traffic, Transport and Harbour Simulation Factory and Logistics Planning<br>Strategies and Concepts for Production and Logistics, Technical and Organizations Planning of Production and Logistics Systems, Value Stream Mapping, Integrated Factory and Logistics Planning, Innovative Planning Methods, tools and systems.<br>Logistics<br>logistics supply chains, inbound logistics, materials management, Manufacturing Supply Chain Management, physical distribution, production planning and control, outbound and inbound logistics, Simulation of regional logistic systems, distribution centres, inventory management, warehousing decisions, materials management, handling and packaging, logistics information systems, information management in logistics systems, logistics network design and facility location, cost modelling.<br>Traffic<br>traffic flows, multi–modal systems, transit, transportation modes, urban city transport, transportation in logistics, transportation management, traffic demand, traffic control, traffic telematics, traffic performance, safety, macroscopic, mesoscopic and microscopic simulations;<br>Harbour Simulation<br>(Bulk Terminals, Container Terminals, Harbour Services, Industrial Facilities, Navigation Lines, Multimodal Transports, Oil Terminals, Passenger Terminals, Railways, Ro–Ro Terminals, Ships and Platforms, Supply Chains and Warehouses, Harbour Management, Safety in Maritime Environments, Vessel Traffic Systems)<br>Complex Systems Modelling<br>(– Design and Simulation, – Process Control and Optimisation, – Information Technology Systems, – Space and Airborne Systems – Communication Networks, – Cybernetics and Control, – Building Engineering and Urban Infrastructures – Nonlinear Systems) Integration of AI Techniques and Simulation, Knowledge Elicitation and Representation for Complex Models, Drawing Understanding and Pattern Recognition, Machine Learning, Neural Networks and Genetic Algorithms, Simulation in Robotics and Automation, Continuous Simulation of Technical Processes, Fuzzy Models in Simulation, Wireless Communication, Mobile Communication Networks, Satellite Communication, LAN and WAN Protocols, Simulation of Switching Equipment, Design and Coding of Communication Handling Software<br>Simulation in Aerospace<br>Low Costs Simulation Environments, Rapid Simulation Prototyping, Simulation Based Design, Simulation of Satellite Navigation, systems (space segment and terrestrial applications) simulation of satellite constellations, real–time hardware–in–the–loop nab–in–the–loop simulation, flight simulation, distributed interactive simulation and HLA standards, Graphical simulation (virtual environments and virtual reality) applied to aerospace. Modelling and Simulation standards, rationalisation efforts, repositories and reuse. Simulation in support of system specification and design, simulation in support of system assembly, integration and testing. Simulation in support of flight software validation.<br>Simulation in Industrial and Product Design<br>Simulation of product design; Planning and control; Reconfigurable responsive computing and process re–engineering; Integrated product and process modelling; Modelling and simulation in virtual global enterprises; Simulation based design; Qualitative and fuzzy modelling and simulation in engineering design; Modal logistics in systems design; Simulation in support of system specification and design.<br>Simulation in Engineering Processes<br>The Modelling in Engineering Processes track focuses on the application of simulation in mechanical and structural engineering. Oscillations and Waves, Stability and Control, Computational Mechanics, Numerical Analysis, Mathematical Methods in Engineering Sciences, Optimization Advanced simulation of dynamic systems, Simulation–based design, Qualitative modelling and simulation in engineering, Fuzzy modelling and simulation, Evolutionary synthesis and evolutionary methods in design, Rapid prototyping, CASE systems in engineering design, Modal Logic systems in design, Simulation in support of system specification and design, Construction Engineering and Project Management.<br>Simulation in Energy and Power Systems<br>Simulators: Real–Time simulation methods, GUI, Advanced modelling tools, Trainees′ performance evaluation, Simulator Projects Simulation Studies: Simulation during design, Safety and environmental hazard estimation, Production optimisation. Methodology: Real–time simulation and visualisation tools, Parallel and distributed simulation.<br>Simulation in Multibody Systems<br>General: FE–Methods and Modelling of Flexible Bodies, Non–holonomic Systems and Geometrical Concepts in Multibody Dynamics, Numerical Aspects of Multibody Dynamics , Optimization and Control of Mechanisms , Articulated and Telescopic Multibody Systems , Air, Land and Sea Multibody Systems Applications Special Sessions on: Multibody Systems in Space: Flexible Body Systems, Orbital Injection, Satellite Injection, Rendezvous and Docking of Spacecraft, Simulation of Space Station Construction and Assembly<br>Simulation in Chemical and Petroleum Engineering<br>Simulation of Chemical Plants, Flow simulation, Plant control systems, network simulation, geological simulations, drilling simulations, oil transport simulations.<br>Simulation in Military and Defense<br>Military simulation – fidelity, exercise management, tools and modelling techniques, applications; Local, global, real and non–real time simulations, applications and results; Web–enabled simulation, local and remote invocation, GUI– advanced modelling tools, education; Simulators – hardware/persons–in–the–loop, HLA compliance; Animated visualisation of simulation; Component–oriented simulation. Maasively Paralllel Computing Techniques, Distributed Simulation, Synthetic Environments, Embedded Simulation, Networked Simulation and Interoperability, Campaign Analysis, Unmanned Aerial Vehicles, Logistics, Agents Modeling, Weapon and Communication Systems, Footmen, Dogs and Robots, C4I and Military Applications.<br>Verification, Validation and Accreditation<br>The term validation is applied to those processes, which seek to determine whether or not a simulation is correct with respect to the ″real″ system. More prosaically, validation is concerned with the question ″Are we building the right system?″. Verification, on the other hand, seeks to answer the question ″Are we building the system right?″ methodologies to support the process of constructing a simulation model and then aiding the validation of this model to the ″real″ system. These system models can be discrete, continuous or hybrid. Application areas range from information systems to engineering and scientific systems. Relevant parameters include performance, properties given by formal or informal requirements, exception handling etc. In this conference track, contributions from all areas of simulation and validation are solicited. Topics include, but are not limited to those given below. VV&A methodology (effective VV&A, VV&A planning, confidence levels, risk estimation, organisation, documentation, standards, cost estimation, technique application, result presentation, subject matter expert (SME) selection, formal model specification, fidelity, automation potential), VV&A technology (documentation, CASE–tools, cross checking, requirements specification, knowledge based systems, configuration management, tool overview, simulation environments)
Abbrevation
ISC
City
Valencia
Country
Spain
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