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Describes SEEs and assists the SEE architectural standardization process. Covers a set of services needed to describe environment frameworks. The particular services of the model are described to a degree that is complete enough for the model to be used to describe existing systems and proposals. Also adopted by the European Computer Manufacturers Assoc.
The concept of processes is at the heart of software and systems engineering. Software process models integrate software engineering methods and techniques and are the basis for managing large-scale software and IT projects. High product quality routinely results from high process quality. Software process management deals with getting and maintaining control over processes and their evolution. Becoming acquainted with existing software process models is not enough, though. It is important to understand how to select, define, manage, deploy, evaluate, and systematically evolve software process models so that they suitably address the problems, applications, and environments to which they are applied. Providing basic knowledge for these important tasks is the main goal of this textbook. Münch and his co-authors aim at providing knowledge that enables readers to develop useful process models that are suitable for their own purposes. They start with the basic concepts. Subsequently, existing representative process models are introduced, followed by a description of how to create individual models and the necessary means for doing so (i.e., notations and tools). Lastly, different possible usage scenarios for process management are highlighted (e.g. process improvement and software process simulation). Their book is aimed at students and researchers working on software project management, software quality assurance, and software measurement; and at practitioners who are interested in process definition and management for developing, maintaining, and operating software-intensive systems and services.
No basic or applied physics research can be done nowadays without the support of computing systems, ranging from cheap personal computers to large multi-user mainframes. Some research fields like high energy physics would not exist if computers had not been invented. Departing from the more conventional numerical applications, this series of workshops has been initiated to focus on Artificial Intelligence (AI) related developments, such as symbolic manipulation for lengthy and involved algebraic computations, software engineering to assist groups of developers in the design, coding and maintenance of large packages, expert systems to mimic human reasoning and strategy in the diagnosis of equipment or neural networks to implement a model of the brain to solve pattern recognition problems. These techniques, developed some time ago by AI researchers, are confronted by down-to-earth problems arising in high-energy and nuclear physics. All this and more are covered in these proceedings.
Concurrent Engineering Techniques and Applications reviews advances in concurrent engineering techniques and applications. An in-depth treatment of the quantitative and economic aspects of concurrent engineering is presented, with emphasis on techniques for measuring the performances of concurrent engineering and for comparing its economic effectiveness with that of traditional engineering. Open systems software standards in concurrent engineering are also discussed. Comprised of 12 chapters, this volume begins with an introduction to techniques for measuring the performances of concurrent engineering and for comparing its economic effectiveness with that of traditional engineering. The next chapter deals with open systems software standards and how to use open systems products effectively in concurrent engineering. The discussion then turns to concurrent product design and manufacturing; the essential issues involved in design-decision support in concurrent/simultaneous engineering; design for manufacturing and assembly and concurrent engineering in electro-optical systems; and the use of visualization in concurrent engineering. The use of multimedia presentation techniques and technology in the concurrent engineering process is also considered, along with techniques in technical documentation. This monograph will be useful to students, academicians, practicing professionals, and research workers.
Report on the process session at chinon -- An introduction to the IPSE 2.5 project -- TRW's SEE sage -- MASP: A model for assisted software processes -- Goal oriented decomposition -- Its application for process modelling in the PIMS project -- A metaphor and a conceptual architecture for software development environments -- Configuration management with the NSE -- Experiments with rule based process modelling in an SDE -- Principles of a reference model for computer aided software engineering environments -- An overview of the inscape environment -- Tool integration in software engineering environments -- The PCTE contribution to Ada programming support environments (APSE) -- The Tooluse approach to integration -- An experimental Ada programming support environment in the HP CASEdge integration framework -- Experience and conclusions from the system engineering environment prototype PROSYT -- Issues in designing object management systems -- Experiencing the next generation computing environment -- Group paradigms in discretionary access controls for object management systems -- Typing in an object management system (OMS) -- Environment object management technology: Experiences, opportunities and risks -- Towards formal description and automatic generation of programming environments -- Use and extension of PCTE : The SPMMS information system -- User interface session -- CENTAUR: Towards a "software tool box" for programming environments -- List of participants.
Planning and improving of production systems and manufacturing processes is a most complex task in engineering. In small and medium sized enterprises (SME's) it is usually carried out by a group of enterprise planners from different departments within a planning project. The main issue of this research is to overcome the logical and technical boundaries between the highly-interrelated modelling experts and their specific modelling tools and partial planning models as well as to efficiently coordinate their distributed, cooperative planning tasks. Therefore, a methodical integration concept as well as a groupware-based cooperation concept was developed. Now it is possible to combine the large number of sophisticated modelling tools, factory simulators as well as GPM tools, and to guarantee a seamless planning process. The conceptual ideas were implemented in a prototypical toolbox to show the technical realization of the flexible concepts for integration and cooperation support. (Back cover).
Computer Aided Software Engineering (CASE) tools typically support individual users in the automation of a set of tasks within a software development process. Such tools have helped organizations in their efforts to develop better software within budget and time constraints. However, many organizations are failing to take full advantage of CASE technology as they struggle to make coordinated use of collections of tools, often obtained at different times from different vendors. This book provides an in-depth analysis of the CASE tool integration problem, and describes practical approaches that can be used with current CASE technology to help your organization take greater advantage of integrated CASE.