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| computer aided software engineering: Computer-aided Software Engineering (CASE) Elliot J. Chikofsky, 1993 |
| computer aided software engineering: CASE Alan S. Fisher, 1991-08-20 Totally updated and revised, this new edition now covers the complete software development cycle, not just the design phase. Filled with practical examples, it shows how to fully exploit CASE tools when managing large and complex software projects. |
| computer aided software engineering: Computer Aided Software Engineering Hausi A. Muller, Ronald J. Norman, Jacob Slonim, 2012-12-06 Computer Aided Software Engineering brings together in one place important contributions and up-to-date research results in this important area. Computer Aided Software Engineering serves as an excellent reference, providing insight into some of the most important research issues in the field. |
| computer aided software engineering: Information Systems Development Albert F. Case, 1986 This is a comprehensive, practical manual to help readers improve information systems development productivity through the application of software engineering techniques and Computer-Aided Software Engineering (CASE) technology. This book examines all phases of systems development from strategic planning through implementation, providing a blueprint for a systems development management information system. |
| computer aided software engineering: Computer-aided Software Engineering Thomas J. Bergin, 1993-01-01 The successful implementation of CASE technology requires a long-term and comprehensive commitment to the pursuit of raising the quality of software design and ultimately improving the information management within the organization. Computer-Aided Software Engineering: Issues and Trends for the 1990s and Beyond covers all aspects of preparing an organization for the successful implementation of a CASE program. Actual case studies, empirical research and theoretical suppositions are used to assess how CASE is being used today and to predict future directions. |
| computer aided software engineering: Computer-Aided Software Engineering Chris Gane, 1988-03-01 |
| computer aided software engineering: Software Development Elliot J. Chikofsky, 1989 |
| computer aided software engineering: CASE Theodore Gyle Lewis, 1991 For those who manage, design, code, test, and market software products. Useful as a text for a first course on software engineering. Features a practical viewpoint, with an emphasis on CASE tools; historical perspective; both technical and human issues; the organization of software development teams; and consistent and pervasive use of an illustrative example/model. Annotation copyrighted by Book News, Inc., Portland, OR |
| computer aided software engineering: Computer-aided Software Engineering Chris Gane, 1990 |
| computer aided software engineering: Computer Aided Software Engineering C. Gane, 1988-10-01 |
| computer aided software engineering: Computer-Aided Software Engineering Richard K. Miller, Future Technology Surveys, Inc, Terri C. Walker, 1989-03-01 |
| computer aided software engineering: Computer-Aided Software Design Max Schindler, 1990-01-29 Now with the advent of CASE tools, you can start to build your very own software--for your specific needs. This book presents a detailed guide to the use of these tools that puts the problems, solutions, and tradeoffs of personal software development into perspective--in plain English. Included is expert guidance on software methodologies, computer languages, and the management of software. You will also learn about architectural design, algorithms, descriptive languages, programming, and futuristic subjects such as artificial intelligence. Useful appendices cover computer history, software jargon, and supplier information. |
| computer aided software engineering: Proceedings, Fifth International Workshop on Computer-Aided Software Engineering Gene Forte, Hausi A. Müller, 1992 |
| computer aided software engineering: Codesign Jerzy Rozenblit, Klaus Buchenrieder, 1995 |
| computer aided software engineering: Software Architectures and Tools for Computer Aided Process Engineering Bertrand Braunschweig, Rafiqul Gani, 2002-10-30 The idea of editing a book on modern software architectures and tools for CAPE (Computer Aided Process Engineering) came about when the editors of this volume realized that existing titles relating to CAPE did not include references to the design and development of CAPE software. Scientific software is needed to solve CAPE related problems by industry/academia for research and development, for education and training and much more. There are increasing demands for CAPE software to be versatile, flexible, efficient, and reliable. This means that the role of software architecture is also gaining increasing importance. Software architecture needs to reconcile the objectives of the software; the framework defined by the CAPE methods; the computational algorithms; and the user needs and tools (other software) that help to develop the CAPE software. The object of this book is to bring to the reader, the software side of the story with respect to computer aided process engineering. |
| computer aided software engineering: Principles of CASE Tool Integration Alan W. Brown, 1994 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. |
| computer aided software engineering: Computer-Aided Control Systems Design Cheng Siong Chin, 2012-12-12 Computer-Aided Control Systems Design: Practical Applications Using MATLAB® and Simulink® supplies a solid foundation in applied control to help you bridge the gap between control theory and its real-world applications. Working from basic principles, the book delves into control systems design through the practical examples of the ALSTOM gasifier system in power stations and underwater robotic vehicles in the marine industry. It also shows how powerful software such as MATLAB® and Simulink® can aid in control systems design. Make Control Engineering Come Alive with Computer-Aided Software Emphasizing key aspects of the design process, the book covers the dynamic modeling, control structure design, controller design, implementation, and testing of control systems. It begins with the essential ideas of applied control engineering and a hands-on introduction to MATLAB and Simulink. It then discusses the analysis, model order reduction, and controller design for a power plant and the modeling, simulation, and control of a remotely operated vehicle (ROV) for pipeline tracking. The author explains how to obtain the ROV model and verify it by using computational fluid dynamic software before designing and implementing the control system. In addition, the book details the nonlinear subsystem modeling and linearization of the ROV at vertical plane equilibrium points. Throughout, the author delineates areas for further study. Appendices provide additional information on various simulation models and their results. Learn How to Perform Simulations on Real Industry Systems A step-by-step guide to computer-aided applied control design, this book supplies the knowledge to help you deal with control problems in industry. It is a valuable reference for anyone who wants a better understanding of the theory and practice of basic control systems design, analysis, and implementation. |
| computer aided software engineering: Principles of CASE Tool Integration Alan W. Brown, David J. Carney, Edwin J. Morris, Dennis B. Smith, Paul F. Zarrella, 1994-09-01 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. |
| computer aided software engineering: Software Engineering and Testing B. B. Agarwal, S. P. Tayal, Mahesh Gupta, 2010 This book is designed for use as an introductory software engineering course or as a reference for programmers. Up-to-date text uses both theory applications to design reliable, error-free software. Includes a companion CD-ROM with source code third-party software engineering applications. |
| computer aided software engineering: Computer- Aided Design in Power Engineering Zlatan Stojkovic, 2012-11-06 This textbooks demonstrates the application of software tools in solving a series of problems from the field of designing power system structures and systems. It contains four chapters: The first chapter leads the reader through all the phases necessary in the procedures of computer aided modeling and simulation. It guides through the complex problems presenting on the basis of eleven original examples. The second chapter presents application of software tools in power system calculations of power systems equipment design. Several design example calculations are carried out using engineering standards like MATLAB, EMTP/ATP, Excel & Access, AutoCAD and Simulink. The third chapters focuses on the graphical documentation using a collection of software tools (AutoCAD, EPLAN, SIMARIS SIVACON, SIMARIS DESIGN) which enable the complete automation of the development of graphical documentation of a power systems. In the fourth chapter, the application of software tools in the project management in power systems is discussed. Here, the emphasis is put on the standard software MS Excel and MS Project. |
| computer aided software engineering: Integrating Reverse Engineering Into Computer-aided Software Engineering (CASE) Thaddeus W. Usowicz, 1991 |
| computer aided software engineering: Fundamentals of Computer-Aided Engineering Benny Raphael, Ian F. C. Smith, 2003-06-09 It is vital that today’s engineers work with computer-based tools and techniques. However, programming courses do not provide engineering students with the skills that are necessary to succeed in their professional career. Here, the authors propose a novel, practical approach that encompasses knowledge assimilation, decision-making capabilities and technical agility, together with concepts in computer-aided engineering that are independent of hardware and software technologies. This book: Outlines general concepts such as fundamental logic, definition of engineering tasks and computational complexity Covers numerous representation frameworks and reasoning strategies such as databases, objects, constraints, knowledge systems, search and optimisation, scientific computation and machine learning Features visualization and distribution of engineering information Presents a range of IT topics that are relevant to all branches of engineering Offers many practical engineering examples and exercises Fundamentals of Computer Aided Engineering provides support for all students involved in computer-aided engineering courses in civil, mechanical, chemical and environmental engineering. This book is also a useful reference for researchers, practising engineers using CAE and educators who wish to increase their knowledge of fundamental concepts. |
| computer aided software engineering: Proceedings of the Sixth International Workshop on Computer-Aided Software Engineering, CASE '93, Singapore, July 19-23 Thomas F. Reid, Stan Jarzabek, 1993 |
| computer aided software engineering: Computer Aided Design C.S. Krishnamoorthy, S. Rajeev, 1995-12 This text studies the field of computer aided design, with special attention to software and analytical tools. It covers: C programming language; programming techiniques; computer graphics; database management systems; knowledge based expert system; and analytical tools. |
| computer aided software engineering: IEEE Recommended Practice for the Adoption of Computer-aided Software Engineering (CASE) Tools , 1996 Difficulties that may be encountered, and how they can be avoided, by organizations intending to adopt CASE tools are addressed. An overview of the adoption process, including analysis of the organization's needs and readiness for automation, use of a pilot project, and definition of activites necessary to integrate the new technology into the organization's standard software engineering practice, is provided. |
| computer aided software engineering: Computer Aided Engineering Design Anupam Saxena, Birendra Sahay, 2007-12-08 A new discipline is said to attain maturity when the subject matter takes the shape of a textbook. Several textbooks later, the discipline tends to acquire a firm place in the curriculum for teaching and learning. Computer Aided Engineering Design (CAED), barely three decades old, is interdisciplinary in nature whose boundaries are still expanding. However, it draws its core strength from several acknowledged and diverse areas such as computer graphics, differential geometry, Boolean algebra, computational geometry, topological spaces, numerical analysis, mechanics of solids, engineering design and a few others. CAED also needs to show its strong linkages with Computer Aided Manufacturing (CAM). As is true with any growing discipline, the literature is widespread in research journals, edited books, and conference proceedings. Various textbooks have appeared with different biases, like geometric modeling, computer graphics, and CAD/CAM over the last decade. This book goes into mathematical foundations and the core subjects of CAED without allowing itself to be overshadowed by computer graphics. It is written in a logical and thorough manner for use mainly by senior and graduate level students as well as users and developers of CAD software. The book covers (a) The fundamental concepts of geometric modeling so that a real understanding of designing synthetic surfaces and solid modeling can be achieved. (b) A wide spectrum of CAED topics such as CAD of linkages and machine elements, finite element analysis, optimization. (c) Application of these methods to real world problems. |
| computer aided software engineering: Guide to the Software Engineering Body of Knowledge (Swebok(r)) IEEE Computer Society, 2014 In the Guide to the Software Engineering Body of Knowledge (SWEBOK(R) Guide), the IEEE Computer Society establishes a baseline for the body of knowledge for the field of software engineering, and the work supports the Society's responsibility to promote the advancement of both theory and practice in this field. It should be noted that the Guide does not purport to define the body of knowledge but rather to serve as a compendium and guide to the knowledge that has been developing and evolving over the past four decades. Now in Version 3.0, the Guide's 15 knowledge areas summarize generally accepted topics and list references for detailed information. The editors for Version 3.0 of the SWEBOK(R) Guide are Pierre Bourque (Ecole de technologie superieure (ETS), Universite du Quebec) and Richard E. (Dick) Fairley (Software and Systems Engineering Associates (S2EA)). |
| computer aided software engineering: Computer Aided Geometric Design Robert E. Barnhill, Richard F. Riesenfeld, 2014-05-10 Computer Aided Geometric Design covers the proceedings of the First International Conference on Computer Aided Geometric Design, held at the University of Utah on March 18-21, 1974. This book is composed of 15 chapters and starts with reviews of the properties of surface patch equation and the use of computers in geometrical design. The next chapters deal with the principles of smooth interpolation over triangles and without twist constraints, as well as the graphical representation of surfaces over triangles and rectangles. These topics are followed by discussions of the B-spline curves and surfaces; mathematical and practical possibilities of UNISURF; nonlinear splines; and some piecewise polynomial alternatives to splines under tension. Other chapters explore the smooth parametric surfaces, the space curve as a folded edge, and the interactive computer graphics application of the parametric bi-cubic surface to engineering design problems. The final chapters look into the three-dimensional human-machine communication and a class of local interpolating splines. This book will prove useful to design engineers. |
| computer aided software engineering: The New Software Engineering Sue A. Conger, 1994 This text is written with a business school orientation, stressing the how to and heavily employing CASE technology throughout. The courses for which this text is appropriate include software engineering, advanced systems analysis, advanced topics in information systems, and IS project development. Software engineer should be familiar with alternatives, trade-offs and pitfalls of methodologies, technologies, domains, project life cycles, techniques, tools CASE environments, methods for user involvement in application development, software, design, trade-offs for the public domain and project personnel skills. This book discusses much of what should be the ideal software engineer's project related knowledge in order to facilitate and speed the process of novices becoming experts. The goal of this book is to discuss project planning, project life cycles, methodologies, technologies, techniques, tools, languages, testing, ancillary technologies (e.g. database) and CASE. For each topic, alternatives, benefits and disadvantages are discussed. |
| computer aided software engineering: Software Engineering: Principles and Practices, 2nd Edition Khurana Rohit, 2010 This revised edition of Software Engineering-Principles and Practices has become more comprehensive with the inclusion of several topics. The book now offers a complete understanding of software engineering as an engineering discipline. Like its previous edition, it provides an in-depth coverage of fundamental principles, methods and applications of software engineering. In addition, it covers some advanced approaches including Computer-aided Software Engineering (CASE), Component-based Software Engineering (CBSE), Clean-room Software Engineering (CSE) and formal methods. Taking into account the needs of both students and practitioners, the book presents a pragmatic picture of the software engineering methods and tools. A thorough study of the software industry shows that there exists a substantial difference between classroom study and the practical industrial application. Therefore, earnest efforts have been made in this book to bridge the gap between theory and practical applications. The subject matter is well supported by examples and case studies representing the situations that one actually faces during the software development process. The book meets the requirements of students enrolled in various courses both at the undergraduate and postgraduate levels, such as BCA, BE, BTech, BIT, BIS, BSc, PGDCA, MCA, MIT, MIS, MSc, various DOEACC levels and so on. It will also be suitable for those software engineers who abide by scientific principles and wish to expand their knowledge. With the increasing demand of software, the software engineering discipline has become important in education and industry. This thoughtfully organized second edition of the book provides its readers a profound knowledge of software engineering concepts and principles in a simple, interesting and illustrative manner. |
| computer aided software engineering: Rationale-Based Software Engineering Janet E. Burge, John M. Carroll, Raymond McCall, Ivan Mistrík, 2008-04-13 The authors describe in detail the capture and use of design rationale in software engineering to improve the quality of software. Their book is the first comprehensive and unified treatment of rationale usage in software engineering. It provides a consistent conceptual framework and a unified terminology for comparing, contrasting and combining the myriad approaches to rationale in software engineering. It is both an excellent introductory text and a uniquely valuable reference. |
| computer aided software engineering: Computer-aided Software Engineering (CASE) for Software Automation John J. Sammarco, 1990 |
| computer aided software engineering: Computer-aided Software Engineering Julian Hewett, Tony Durham, 1987 |
| computer aided software engineering: Computer-Aided Reasoning Matt Kaufmann, Panagiotis Manolios, J Strother Moore, 2000-06-30 Computer-Aided Reasoning: ACL2 Case Studies illustrates how the computer-aided reasoning system ACL2 can be used in productive and innovative ways to design, build, and maintain hardware and software systems. Included here are technical papers written by twenty-one contributors that report on self-contained case studies, some of which are sanitized industrial projects. The papers deal with a wide variety of ideas, including floating-point arithmetic, microprocessor simulation, model checking, symbolic trajectory evaluation, compilation, proof checking, real analysis, and several others. Computer-Aided Reasoning: ACL2 Case Studies is meant for two audiences: those looking for innovative ways to design, build, and maintain hardware and software systems faster and more reliably, and those wishing to learn how to do this. The former audience includes project managers and students in survey-oriented courses. The latter audience includes students and professionals pursuing rigorous approaches to hardware and software engineering or formal methods. Computer-Aided Reasoning: ACL2 Case Studies can be used in graduate and upper-division undergraduate courses on Software Engineering, Formal Methods, Hardware Design, Theory of Computation, Artificial Intelligence, and Automated Reasoning. The book is divided into two parts. Part I begins with a discussion of the effort involved in using ACL2. It also contains a brief introduction to the ACL2 logic and its mechanization, which is intended to give the reader sufficient background to read the case studies. A more thorough, textbook introduction to ACL2 may be found in the companion book, Computer-Aided Reasoning: An Approach. The heart of the book is Part II, where the case studies are presented. The case studies contain exercises whose solutions are on the Web. In addition, the complete ACL2 scripts necessary to formalize the models and prove all the properties discussed are on the Web. For example, when we say that one of the case studies formalizes a floating-point multiplier and proves it correct, we mean that not only can you read an English description of the model and how it was proved correct, but you can obtain the entire formal content of the project and replay the proofs, if you wish, with your copy of ACL2. ACL2 may be obtained from its home page. The results reported in each case study, as ACL2 input scripts, as well as exercise solutions for both books, are available from this page. |
| computer aided software engineering: CASE '92 , 1992 |
| computer aided software engineering: Computer Aided Design Jayanta Sarkar, 2014-12-06 Optimize Designs in Less Time An essential element of equipment and system design, computer aided design (CAD) is commonly used to simulate potential engineering problems in order to help gauge the magnitude of their effects. Useful for producing 3D models or drawings with the selection of predefined objects, Computer Aided Design: A Conceptual Approach directs readers on how to effectively use CAD to enhance the process and produce faster designs with greater accuracy. Learn CAD Quickly and Efficiently This handy guide provides practical examples based on different CAD systems, and incorporates automation, mechanism, and customization guidelines, as well as other outputs of CAD in the design process. It explains the mathematical tools used in related operations and covers general topics relevant to any CAD program. Comprised of 12 chapters, this instructional reference addresses: Automation concepts and examples Mechanism design concepts Tie reduction through customization Practical industrial component and system design Reduce Time by Effectively Using CAD Computer Aided Design: A Conceptual Approach concentrates on concept generation, functions as a tutorial for learning any CAD software, and was written with mechanical engineering professionals and post-graduate engineering students in mind. |
| computer aided software engineering: CASE is Software Automation Carma L. McClure, 1989 Computer Aided Software Engineering (CASE) is the technology for automating software development and maintenance. This book, by one of the acknowledged experts on the subject, offers a very practical answer to the 25-year-old software crisis. Case technology is not at all that new, as it builds upon the structured techniques developed by Ed Yourdon, James Martin, Tom DeMarco and others in the 1970s. Many of the structured methodologies they fostered are enabled by CASE. |
| computer aided software engineering: Software Engineering with C++ and CASE Tools Michael J. Pont, 1996 This book/disk package features a fully functional Yourdon CASE tool from Select Software Tools, which provides readers with hands-on experience of structured analysis and design techniques in software development. The book takes readers step-by-step through the analysis, design, and programming phases of software engineering, to show how modern CASE tools can help automate the development process. |
| computer aided software engineering: Computer-Aided Graphing and Simulation Tools for AutoCAD Users P. A. Simionescu, 2014-12-12 This book allows readers to expand the versatility of AutoCAD design and documentation software. It provides ready-to-use procedures and computer programs for solving problems in a variety of application areas, including computer-aided design, data visualization, evolutionary computation, numerical methods, single and multicriteria optimization, li |
| computer aided software engineering: Eighth IEEE International Workshop on Software Technology and Engineering Practice David Budgen, Gene Hoffnagle, Jos Trienekens, 1997 Proceedings of the July 1997 workshop, concentrating on software engineering's role in software and systems development, evolution, and management. Reports on current practical, applied, experimental, and theoretical work affecting software engineering practice, with sections on system architectures, reverse engineering, system development methods, OO development, configuration management and system interconnection tools, software reuse, process modeling, software engineering education, and COTS technology. No index. Annotation copyrighted by Book News, Inc., Portland, OR. |
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Computer | Definition, History, Operating Systems, & Facts
A computer is a programmable device for processing, storing, and displaying information. Learn more in this article about modern digital electronic computers and their design, constituent …
What is a Computer?
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