Simulating discrete event systems with UML and JAVA

A useful discrete-event simulation environment should support component-level reuse, integration of graphical tools, and scalable performance. The JTED framework (http://www.cooperate.com/JTED) demonstrates that Java can serve as the basis for constructing very large models that achieve these goals.

In this paper we present an environment for the development of Java-based discrete event simulations. An integrated approach is taken that combines discrete event semantics with Java and exceeds the expressiveness of discrete event libraries. The environment supports advanced techniques including di

Java is a very promising language for use in the simulation of physical models due to its objectoriented nature, portability, robustness and support for multithreading. This paper presents JWarp, a Java library for discrete-event parallel simulations. It is based on an optimistic model for synchroni

Focuses on the craft of creating quality Java software. Introduces the fundamentals of the standard object-oriented notation to build more robust Java applications that fulfill user requirements and withstand the test of time.