The Visual Simulation Environment technology transfer
Osman Balci,Anders I. Bertelrud,Chuck M. Esterbrook,Richard E. Nance +3 more
- 01 Dec 1997
- pp 1323-1329
TL;DR: This paper describes how the Visual Simulation Environment (VSE) technology has been transferred into a commercial product, which is provided at no cost for use by U.S. Federal Government employees at government sites.
read more
Abstract: This paper describes how the Visual Simulation Environment (VSE) technology has been transferred into a commercial product. The VSE has been created under research funding, primarily from the U.S. Navy for over a decade. Orca Computer, Inc., with support from Virginia Tech, Naval Research Laboratory, Naval Surface Warfare Center Dahlgren Division, and Virginia Tech Corporate Research Center, has been successful in making the VSE technology transfer a reality. VSE is now a commercially available software product which is provided at no cost for use by U.S. Federal Government employees at government sites.
read more
Chat with Paper
AI Agents for this Paper
Find similar papers on Google Scholar, PubMed and Arxiv
Write a critical review of this paper
Analyze citations of this paper to find unaddressed research gaps
Citations
Proceedings of the 1997 winter simulation conference
Kevin J. Healy
- 01 Jan 1997
Abstract: This tutorial discusses the issues and procedures for using simulation as a tool for optimization of stochastic complex systems that are modeled by computer simulation. It is intended to be a tutorial rather than an exhaustive literature search. Its emphasis is mostly on issues that are specific to simulation optimization instead of concentrating on the general optimization and mathematical programming techniques, Even though a lot of effort has been spent to provide a comprehensive overview of the field, still there are methods and techniques that have not been covered and valuable works that may not have been mentioned.
A two-stage modeling and simulation process for web-based modeling and simulation
TL;DR: This work presents a framework for a web-based modeling framework, called rube, and focuses on a two-stage translation process from one markup language (MXL) to another (DXL), with a final process to create either Java or Javascript target code.
34
Visual simulation environment
Osman Balci,Anders I. Bertelrud,Chuck M. Esterbrook,Richard E. Nance +3 more
- 01 Dec 1998
TL;DR: The Visual Simulation Environment (VSE) as mentioned in this paper is an object-oriented, picture-based, component-based visual simulation model for air traffic control and space systems, business process reengineering and workflows, complex system design evaluation, computer and communication networks, computer performance evaluation, education and training, health care systems, manufacturing systems, military/combat systems, satellite and wireless communications systems, service systems, supply chain management and transportation systems.
20
Model representation with aesthetic computing: Method and empirical study
TL;DR: A new methodology, aesthetic computing, for customizing discrete structures found in mathematics, programming, and computer simulation is presented as a procedure, defined within the context of the semantic web, involving a successive chain of model transformations from a source model to a target model.
14
References
Guidelines for successful simulation studies
Osman Balci
- 09 Dec 1990
TL;DR: The guidelines are provided throughout the entire life cycle of a simulation study that is composed of ten processes, ten phases, and 13 credibility assessment stages.
How To Assess The Acceptability And Credibility Of Simulation Results
Osman Balci
- 01 Oct 1989
TL;DR: A comprehensive life cycle of a simulation study is presented and the simulationist is guided in conducting 10 processes, 10 phases, and 13 credibility assessment stages of the life cycle.
Guidelines For Selecting And Using Simulation Model Verification Techniques
R. B. Whitner,Osman Balci +1 more
- 01 Oct 1989
TL;DR: This paper is intended to reduce the communication gap between the software engineering and simulation communities by presenting software verification techniques applicable for simulation model verification in a terminology understandable by a simulationist.
The Conical Methodology and the evolution of simulation model development
TL;DR: This evolutionary overview describes the principles underlying the Conical Methodology, the environment structured according to these principles, and the capabilities for large complex simulation modeling tasks not provided in textbook descriptions.
109
Requirements for model development environments
TL;DR: This paper has provided significant guidance to the research group in designing the MDE and its associated tools and believes that the designers and implementers of other types of MDEs can benefit from the research described herein.
87