COMBINING MODELICA MODELS WITH DISCRETE EVENT FORMALISMS FOR SIMULATION USING THE DES/M ENVIRONMENT

MANUEL A. PEREIRA REMELHE; SEBASTIAN ENGELL

首页> 外文期刊>International journal of software engineering and knowledge engineering >COMBINING MODELICA MODELS WITH DISCRETE EVENT FORMALISMS FOR SIMULATION USING THE DES/M ENVIRONMENT

【24h】

COMBINING MODELICA MODELS WITH DISCRETE EVENT FORMALISMS FOR SIMULATION USING THE DES/M ENVIRONMENT

机译：使用DES / M环境将模型模型与离散事件形式相结合进行仿真

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

Technical systems that include complex physical dynamics as well as extensive discrete event control, require powerful modeling and simulation techniques. As the most adequate means for modeling hybrid physical systems, we advocate the use of object-oriented modeling languages such as Modelica. However, the discrete event models often require the use of dedicated graphical editors that cannot be defined appropriately using Modelica. The purpose of the DES/M modeling environment [10] is to provide such editors for different discrete event formalisms and to translate discrete event models automatically into Modelica components such that a discrete event controller can be integrated easily into Modelica models and simulated using standard Modelica software tools. This contribution presents the main concepts used for the representation of several discrete event formalisms in the Modelica language and discusses the class of discrete event formalisms that can he supported by the DES/M environment.

机译：包括复杂的物理动力学以及广泛的离散事件控制的技术系统，需要强大的建模和仿真技术。作为建模混合物理系统的最适当方法，我们提倡使用面向对象的建模语言，例如Modelica。但是，离散事件模型通常需要使用专用的图形编辑器，而无法使用Modelica对其进行适当定义。 DES / M建模环境[10]的目的是为不同的离散事件形式提供此类编辑器，并将离散事件模型自动转换为Modelica组件，以便可以将离散事件控制器轻松集成到Modelica模型中并使用标准Modelica进行仿真软件工具。本贡献提出了用于以Modelica语言表示几种离散事件形式主义的主要概念，并讨论了DES / M环境可以支持的离散事件形式主义的类别。

著录项

来源
《International journal of software engineering and knowledge engineering》 |2005年第2期|p.349-355|共7页
作者
MANUEL A. PEREIRA REMELHE; SEBASTIAN ENGELL;
展开▼
作者单位

Process Control Laboratory, Department of Biochemical and Chemical Engineering, University Dortmund, D-44221 Dortmund, Germany;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类计算机软件;
关键词
hybrid systems; simulation; heterogeneous models; discrete event formalisms;

机译：混合系统;仿真;异构模型;离散事件形式主义;

相似文献

外文文献
中文文献
专利

1. An extension of the OpenModelica compiler for using Modelica models in a discrete event simulation [J] . James Nutaro Simulation . 2014,第12期

机译：OpenModelica编译器的扩展，用于在离散事件仿真中使用Modelica模型
2. Coupling stochastic occupant models to building performance simulation using the discrete event system specification formalism [J] . Gunay H. Burak, OBrien William, Beausoleil-Morrison Ian, Journal of building performance simulation . 2014,第5a6期

机译：使用离散事件系统规范形式将随机乘员模型耦合到建筑性能模拟
3. Maneuvering control simulation of underwater vehicle based on combined discrete-event and discrete-time modeling [J] . Myeong-Jo Son, Tae-wan Kim Expert Systems with Application . 2012,第17期

机译：基于离散事件和离散时间建模的水下航行器操纵控制仿真
4. Modeling and Simulation of Combined Discrete Event-Continuous Systems Using DEVS Formalism and Object-Oriented Paradigm [C] . M Teggar, R. Soenen Software engineering for manufacturing systems: Methods and CASE tools . 1996

机译：使用DEVS形式主义和面向对象范例对离散事件连续组合系统进行建模和仿真
5. PiDES: A formalism for complex adaptive Discrete Event Simulation. [D] . Wang, Jianrui. 2009

机译：PiDES：复杂自适应离散事件仿真的形式主义。
6. Modeling and Optimization of Manufacturing Process Performance using Modelica Graphical Representation and Process Analytics Formalism [O] . Guodong Shao, Alexander Brodsky, Ryan Miller -1

机译：使用Modelica图形表示和过程分析形式化对制造过程绩效进行建模和优化
7. Modelica - a general object-oriented language for continuous and discrete-event system modeling and simulation [O] . Fritzson, Peter, Bunus, Peter 2002

机译：Modelica-用于连续和离散事件系统建模和仿真的通用面向对象语言

COMBINING MODELICA MODELS WITH DISCRETE EVENT FORMALISMS FOR SIMULATION USING THE DES/M ENVIRONMENT

摘要

著录项

相似文献

相关主题

期刊订阅