405 research outputs found
Scenarios for the deployment of distributed engineering applications
Although there are some good reasons to design engineering software as a stand-alone application for a single computer, there are also numerous possibilities for creating distributed engineering applications, in particular using the Internet. This paper presents some typical scenarios how engineering applications can benefit from including network capabilities. Also, some examples of Internet-based engineering applications are discussed to show how the concepts presented can be implemented
The ERATO Systems Biology Workbench: Enabling Interaction and Exchange Between Software Tools for Computational Biology
Researchers in computational biology today make use of a large number of different software packages for modeling, analysis, and data manipulation and visualization.
In this paper, we describe the ERATO Systems Biology Workbench (SBW), a software framework that allows these heterogeneous application components--written in diverse programming languages and running on different platforms--to communicate and use each others' data and algorithmic capabilities. Our goal is to create a simple, open-source software infrastructure which is effective, easy to implement and easy to understand. SBW uses a broker-based architecture and enables applications (potentially running on separate, distributed computers) to communicate via a simple network protocol. The interfaces to the system are encapsulated in client-side libraries that we provide for different programming languages. We describe the SBW architecture and the current set of modules, as well as alternative implementation technologies
An overview of the VRS virtual platform
This paper provides an overview of the development of the virtual platform within the European Commission funded VRShips-ROPAX (VRS) project. This project is a major collaboration of approximately 40 industrial, regulatory, consultancy and academic partners with the objective of producing two novel platforms. A physical platform will be designed and produced representing a scale model of a novel ROPAX vessel with the following criteria: 2000 passengers; 400 cabins; 2000 nautical mile range, and a service speed of 38 knots. The aim of the virtual platform is to demonstrate that vessels may be designed to meet these criteria, which was not previously possible using individual tools and conventional design approaches. To achieve this objective requires the integration of design and simulation tools representing concept, embodiment, detail, production, and operation life-phases into the virtual platform, to enable distributed design activity to be undertaken. The main objectives for the development of the virtual platform are described, followed by the discussion of the techniques chosen to address the objectives, and finally a description of a use-case for the platform. Whilst the focus of the VRS virtual platform was to facilitate the design of ROPAX vessels, the components within the platform are entirely generic and may be applied to the distributed design of any type of vessel, or other complex made-to-order products
A semi-formal comparison between the Common Object Request Broker Architecture (COBRA) and the Distributed Component Object Model (DCOM)
The way in which application systems and software are built has changed dramatically over the past few
years. This is mainly due to advances in hardware technology, programming languages, as well as the
requirement to build better software application systems in less time. The importance of mondial (worldwide)
communication between systems is also growing exponentially. People are using network-based
applications daily, communicating not only locally, but also globally. The Internet, the global network,
therefore plays a significant role in the development of new software. Distributed object computing is one
of the computing paradigms that promise to solve the need to develop clienVserver application systems,
communicating over heterogeneous environments.
This study, of limited scope, concentrates on one crucial element without which distributed object computing
cannot be implemented. This element is the communication software, also called middleware, which allows
objects situated on different hardware platforms to communicate over a network. Two of the most important
middleware standards for distributed object computing today are the Common Object Request Broker
Architecture (CORBA) from the Object Management Group, and the Distributed Component Object
Model (DCOM) from Microsoft Corporation. Each of these standards is implemented in commercially
available products, allowing distributed objects to communicate over heterogeneous networks.
In studying each of the middleware standards, a formal way of comparing CORBA and DCOM is presented,
namely meta-modelling. For each of these two distributed object infrastructures (middleware), meta-models
are constructed. Based on this uniform and unbiased approach, a comparison of the two distributed object
infrastructures is then performed. The results are given as a set of tables in which the differences and
similarities of each distributed object infrastructure are exhibited. By adopting this approach, errors caused
by misunderstanding or misinterpretation are minimised. Consequently, an accurate and unbiased
comparison between CORBA and DCOM is made possible, which constitutes the main aim of this
dissertation.ComputingM. Sc. (Computer Science
A virtual environment to support the distributed design of large made-to-order products
An overview of a virtual design environment (virtual platform) developed as part of the European Commission funded VRShips-ROPAX (VRS) project is presented. The main objectives for the development of the virtual platform are described, followed by the discussion of the techniques chosen to address the objectives, and finally a description of a use-case for the platform. Whilst the focus of the VRS virtual platform was to facilitate the design of ROPAX (roll-on passengers and cargo) vessels, the components within the platform are entirely generic and may be applied to the distributed design of any type of vessel, or other complex made-to-order products
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