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EUROSIS,
Ghent
University
Faculty
of Engineering Dept.of Industrial Mgmt.
Technologiepark
903
B-9032
Ghent,
Belgium
*
Submissions:
ABSTRACT:
15June
- 15July
PAPER:
25September
details
here
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THE
TOWN
a
photo guide
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for papers download centre:
not
linked yet
if needed:
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Conference
workshops:
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Workshop Simulation with Petri Nets:
Petri nets were introduced by C.A. Petri as a "finitary
combinatorial model of event topology which, is in close correspondence
with the models of modern physics, is capable of describing total information
flow, and has proven superior to some conventional models both in construction
and in analysis of systems of complex organization". Although many other
models of concurrent and distributed systems have been developed, Petri
nets are still considered "a central model for concurrent systems with
respect to both the theory and the applications" due to the natural way
they allow to represent reasoning on concurrent active objects which share
resources and their changing states.
The huge amount of work invested in making the modelling
power of Petri nets formalism more and more intensive, led to a continuous
evolution of this area, such that "Petri nets" is currently a generic name
for a whole class of models divided into three main layers (ranging from
Elementary Net Systems and Place/Transition nets to traditional High Level
nets and High Level nets with abstract data types). For the performance
evaluation of the modelled system, time execution and/or stochastic processes
have also been considered, leading to important extensions to the above
general Petri nets classification: Timed and Stochastic Petri nets.
Petri nets are widely considered as an operational (rather
than denotational) formalism for Discrete Event Systems. They have proven
to be useful in solving difficult discrete-event problems in a variety
of application domains such as in software engineering, operating systems,
databases, communication and co-operation protocols in distributed systems,
manufacturing systems, defence command and control, business processes
and telecommunications, etc.
As investigations in this area show, Petri nets also
cover a large number of currently active research areas. Despite the great
amount of work and achievements, much effort is still to be done to meet
the applications requirements.
This workshop is intended to provide a forum for the presentation and
discussion of original ideas, recent results and achievements by researchers,
students and system developers on issues and challenges related to the
above domain. We invite to submit original contributions addressing, but
not limited to one of the following topics:
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Simulation using Petri Net Systems,
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Place/Transition nets,
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High-level Petri nets,
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Timed and Stochastic Petri nets,
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Temporal and real-time logics with respect to Petri nets,
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Analysis methods of High Level nets and their time extensions,
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Modular Petri nets,
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Object-oriented Petri nets (OOPNs),
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Computer tools based on OOPNs,
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Applications of OOPNs.
Submit
your proposal here
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Workshop Modelling and Simulation with Bond
Graphs:
The Bond Graph Workshop will bring experts together for
the purpose of discussing new concepts, methods, techniques, tools and
applications of this energy-based modelling methodology. Papers dealing
with all aspects of the use of bond graphs in system design, analysis,
and control are welcome. The workshop will provide a forum for the presentation
and discussion of recent research and applications of the Bond Graph methodology.
Research papers are welcome in the following categories of presentation:
Tutorials, Panel Discussions, Software and Tools, Bond Graph Theory, Advanced
Bond Graph Methodology, Bond Graphs and Block Diagrams, Computer Graphics
and Bond Graph Modelling, Qualitative Modelling, Mechatronics Systems,
Mechanical Systems and Robotics, Electrical and Power Systems, Control
Systems, Thermal and Chemical Systems, Biomechanics and Prosthetics, Ecological
Systems, Biological and Medical Systems, Social and Economic Systems, Industrial
Applications, Large, Nonlinear Models.
Submit
your proposal here
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DEVS Workshop:
The DEVS Workshop will cover: Extensions to the DEVS
formalism, DEVS and Distributed DEVS frameworks, DEVS-based next generation
VHDL, DEVS standardization, DEVS applications
Submit
your proposal here
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Fluid Flow Modelling Simulation Workshop:
Papers are solicited in: conventional fluid dynamics,
new developments in boundary tracking, adaptive multiscale meshes, algorithm
stability, turbulence
Atomistic methods
Ab-initio and classical molecular dynamics, direct simulation
Monte Carlo.
Mesoscopic methods
Lattice gases, lattice-Boltzmann, smoothed particle dynamics,
\dissipative particle dynamics, discrete simulation automata, etc.
Hybrid methods
Atomistic-mesoscopic and mesoscopic-continuum: direct
simulation Monte Carlo, adaptive-mesh dissipative-particle dynamics, etc.
Multidisciplinary and industrial applications
Chemical and biomedical engineering, automotive, oil
extraction and aeronautic industry, flow in porous media, Fluid Dynamics
Simulation, Fluid Dynamics Simulation in Turbomachinery Flow Analysis of
Pump Turbines, Water, air, vibration analysis through fluid flow modelling,
Electromagnetic Field Simulation, Virtual Wind Tunnels, Structural analysis
Statics (Stress, Deformation), Dynamics (Vibration), Eigen value, Fatigue,
Thermal load Electric power plants, General plant components Computational
fluid dynamics Compressible flow, Incompressible flow, Heat transfer, Multiphase/multi
component flow, Combustion, Reaction,, Noise (Flow-induced sound) Gas turbines/Steam
turbines, Combustors, Nuclear plant components, Hydro turbines, Pumps,
Heat exchangers, Piping systems Computational electro-magnetics Static
elecromagnetics, Eddy current, Electromagnetic wave, Electric circuit Nuclear
fusion reactor, Transformers, Switch gear, Rotating machinery, Inverters/
Converters Coupled problems Fluid-structure coupled analysis, (Flow- induced
vibration), Fluid-electric field coupled analysis, (Insulation) Heat exchangers,
Electric power transmission components.
Submit
your proposal here
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SIMULA Workshop: "SIMULA past,
present and future"
SIMULA is the first OOP language and with the exception
of Beta programming language, other broadly used OOP languages are conceptual
subsets of SIMULA. The standard was defined in 1967, that's why the language
used to be called SIMULA 67. The basic ideas were presented at the IFIP
Working Conference "Simulation Programming Languages" in Oslo in 1967,
the proceedings were published 35 years ago in 1968. SIMULA (SIMple Universal
LAnguage) as such is a general object-oriented language. Its system classes
Simset and Simulation add the knowledge of linked lists and time processes
making SIMULA a process-oriented simulation language.
The workshop would concentrate on the SIMULA's advanced
OOP features that cannot be found in other OOP languages and on its simulation
capabilities. The so-called main classes (nested classes that contain other
local classes) that can be further specialized represent modularity achieved
by using the OOP capabilities of the language. The system class Simulation
will be enhanced to contain classes supporting transparent statistics and
classes oriented to the simulation of queueing networks. SIMULA implementation
for PC computers is now freely available, so the participants of the workshop
will get tools and knowledge to create fast their own simulation models.
Submit
your proposal here
EUROSIS Coordinator:
[email protected]
tel: +32.9.264.55.09
fax: +32.9.264.58.25
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Taking place at:
Keynote:
Soon
revealed.
Chairs:
J.M.Feliz-Teixeira
A.E.Carvalho
Brito
from
GEIN
SPONSORS:
The
City Hall
*
This sponsor will
kindly offer each participant
a small
bottle of Porto Wine:
CALEM
Cellars
*
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