生命周期控制器为离散事件管理装配信息。
The Lifecycle Controller manages the assembly of information for discreet events.
排队系统是典型的离散事件系统。
离散事件系统的数学模型是自动机。
通信网络是—个典型的离散事件系统。
Telecommunication system is a typical discrete event dynamic system (DEDS).
基于离散事件动态系统理论提出了一个有效的方法。
Based on theory of discrete event dynamic systems, this paper proposes an effective method.
离散事件系统的调度规划问题是计算机科学的重要研究方向。
Scheduling in the discrete events system is an important research area in computer science.
包含离散事件和连续时间两种特征的混合系统的研究受到关注。
Hybrid systems, which involve discrete events and continuous time dynamics simultaneously, have attracted many research attention.
为了体现改进后的优势,本文还建立了离散事件驱动模型来验证。
We develop a discrete-event simulation model to validate the advantages of our proposal.
离散事件系统的可控、可观性质不再象传统的线性系统那样简单。
The controllable and observable property of DEDS is not as simple as the traditional linear system.
该文首先针对手拉葫芦装配系统的特征,将其作为离散事件动态系统。
According to the features of FAS of crane, the system is considered as a DEDS in this paper.
此模型不仅描述了间歇过程中的离散事件,而且还可用于间歇过程的定量分析。
The Dioid model can not only describe discrete events in a batch process, but also can be used for its quantitative analysis.
研究一类离散事件系统和连续时间系统相混合的混杂系统建模与控制器设计问题。
This paper deals with researches on modeling and controller design for a class of hybrid systems which contain both continuous and discrete dynamics.
本文研究了定义在状态-事件序列上的谓词的离散事件系统的状态反馈控制问题。
This paper studies the problem of state feedback control for discrete event systems, where the predicate is defined on the set of state-event sequences.
离散事件动态系统(DEDS)矩阵模型是一种逻辑运算与代数运算的混合系统。
Matrix model for discrete event dynamic simulation (DEDS) is a hybrid system with logical and algebraic components.
港口系统是一个典型的离散事件动态系统,影响港口通过能力的因素既多又复杂。
Port is a typical discrete event dynamic system, and port capacity is influenced by many complicated elements.
基于离散事件模拟技术的NS 2网络模拟器被广泛运用于计算机网络的研究中。
NS2 is widely used to research the computer network based on discrete event simulation technique.
世界各国的研究结果表明,并行离散事件模拟在提高模拟速度上表现出较大的潜力。
The study results indicate that parallel discrete event simulation(PDES) has remarkable potential in improving the simulation speed.
为评估计算网格上并行作业的无中心式调度,设计了基于离散事件的模拟系统J3S。
To evaluate decentralized scheduling of parallel jobs on computational grids, the discrete event-based simulation system J3S is designed.
本文在大系统分解-协调原理的基础上提出了一种离散事件动态系统仿真的两级递阶算法。
This Paper develops a two-level hierarchical algorithm for discrete event dynamic system simulation based on decomposition coordination Principle for large scale systems.
自动生产线和柔性制造系统是典型的离散事件动态系统,近几年在控制理论界受到极大重视。
Production lines and Flexible Manufacturing systems are the typical discrete event dynamic systems and have received much attention in the field of automatic control in recent years.
离散事件系统作为系统与控制理论的一个新兴分支和前沿方向,其研究日益受到人们的重视。
Discrete event systems are one of the frontiers of research in the control system theory and a new branch in the field, to which increasing attention has been paid.
地下洞室群的交通运输系统是一种典型的离散事件动态系统,难以用解析方法计算的数学模型来描述。
The traffic transportation system of underground structure group is a kind of typical discrete event dynamic system, which is difficult to describe with analytic mathematic models.
该文从分布离散事件仿真的特点出发,借鉴计算机总线的思想,提出了一种基于仿真总线的仿真环境。
This paper USES characteristic of Distributed Discrete Event Simulation and the idea of computer bus for reference, puts forward a Simulation environment Based on Simulation bus.
常常需要控制离散事件系统的行为以满足特定的规范,比如防止系统进入特定的状态,尤其是死锁状态。
Usually we should control DES's behavior to meet special specifications, like preventing the system from special states, especially deadlock.
在这些几何背景下,解决了离散事件系统状态反馈控制的拓广问题,包括关于简单谓词与一般谓词的问题。
Under the geometric background, the extended problem of state feedback control for discrete event systems is solved, including both simple and general predicate.
栈和队列常常被视为数据结构中的面包和黄油,广泛应用在体系结构、分析、操作系统和离散事件等领域。
Stacks and Queues are often considered the bread and butter of data structures and find use in architecture, parsing, operating systems, and discrete event simulation.
混杂系统是既有动态过程,又有离散事件过程的一类复杂系统,这类系统更接近实际工程,有广泛的应用。
Hybrid systems are a class of complex system containing dynamic process and discrete event process, which approach engineering practice and are applied widely.
其中连续动力学由微分或者差分方程描述,离散动力学由有限的自动开关描述,并由异步的离散事件驱动。
The continuous dynamics is governed by differential or difference equations, whereas the discrete dynamics is governed by finite automata that are driven asynchronously by external discrete events.
其中连续动力学由微分或者差分方程描述,离散动力学由有限的自动开关描述,并由异步的离散事件驱动。
The continuous dynamics is governed by differential or difference equations, whereas the discrete dynamics is governed by finite automata that are driven asynchronously by external discrete events.
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