Software Quality and Productivity -

Software Quality and Productivity

Theory, practice, education and training
Buch | Softcover
404 Seiten
2013
Springer-Verlag New York Inc.
978-1-4757-6544-1 (ISBN)
255,73 inkl. MwSt
As the world becomes increasingly dependent on the use of computers, the need for quality software which can be produced at reasonable cost increases. This IFIP proceedings brings together the work of leading researchers and practitioners who are concerned with the efficient production of quality software.

Ben-Zion Barta is with Bar-Code Computers Ltd., Israel Peter Juliff is Head of the School of Management and Information Systems, Deakin University, Burwood, Australia

One Keynote papers.- 1 Towards the 21st Century’s software quality, state-of-the-art and international standard in JTC1/SC7.- 2 Software quality and productivity improvement.- Two Requirements, Design and Development Methodologies.- 3 Progress towards RACE: a ‘soft-centred’ requirements definition method.- 4 MOOSE: A method designed for ease of maintenance.- 5 BPR for developing information systems — a case study.- 6 Towards a methodology for 24 hour software production using globally separated development teams.- 7 MetaMet — a soft systemic way toward the quality of information systems.- 8 Changing programming paradigm — an empirical investigation.- 9 Application-oriented methods for systems development — a review.- 10 A proposal for composing software design process.- 11 Team-based software development using an electronic meeting system: the quality pay-off.- 12 Designing with non-functional requirements.- 13 Modelling the requirements of process controlled systems.- 14 Compiling heterarchical programs by means of Petri nets.- Three Object Oriented Analysis, Design and Development.- 15 Type checking classes in Object-Z to promote quality of specifications.- 16 An axiom-based test case selection strategy for object-oriented programs.- 17 AMI: a case tool based on artificial intelligence techniques for an interactive modelling for analysis.- 18 Object-oriented framework for requirement specification.- 19 A structured object-oriented view on systems modeling.- 20 Construction of a WYSIWYG LaTeX typesetting system using object-oriented design.- 21 A re-engineering approach for object-oriented database design.- Four Software Process and Capability.- 22 Software process model specification.- 23 Soft systems methodology — a process view.- 24 BOOTSTRAP —improving the capability of software industry with database support.- Five Project Management.- 25 On the optimal timing of software development cycle.- 26 Information systems project manager’s critical success factors: in-house verses outsourced development.- 27 Measuring the value and performance of your IT department.- Six Quality, Reliability, Standards.- 28 ISO standards in software engineering.- 29 An investigation of desired quality attributes for different types of software.- 30 A unifying model for software quality engineering.- 31 Quality achievement: current practices and the way ahead.- 32 Software reliability models for practical applications.- 33 Assessing the quality of requirements engineering products.- 34 Re-certification of software reliability without re-testing.- 35 SAFE: a programming language for software quality.- 36 Impact of organisational maturity on software quality.- 37 Using strongest postconditions to improve software quality.- Seven Specifications, Metrics, Assessment.- 38 Experience in software inspection techniques.- 39 Measuring process improvement: integrating software process assessment with quality cost evaluation.- 40 Mutation versus all-uses: an empirical evaluation of cost, strength and effectiveness.- 41 Software quality: the user’s point of view.- 42 Complexity measures for system development models.- 43 Composite complexity measures (CCM).- 44 Automated testing tool for NATURAL®.- 45 Analysis of data collected from software development case studies.- 46 A framework for software development technical reviews.- 47 A model-based approach for software test process improvement.- 48 Size estimation for C programs with different applications.- 49 Cyclomatic complexity as a measure of the structure of knowledge-based/expertsystems.- 50 S/C: a software size/complexity measure.- 51 A critical re-examination of cyclomatic complexity measures.- 52 Reliability through cooperative work in software testing.- Eight Reusability.- 53 Code reusability mechanisms.- 54 Rule-based reasoning approach for reusable design component retrieval.- 55 A multi-layer metrics combination model for reusable software components.- Nine Integrated Environments, Case Tools.- 56 Environment for three dimensional graphics user interface development.- 57 PEACE: process evolution and adaptation CASE environment — its framework and requirements.- 58 Software development environments to support model consistency.- Ten Education and Training.- 59 Process oriented instruction for software engineers (POISE): perspectives and experiences.- 60 OO methods in teaching: current experience and future possibilities.- Index of contributors.- Keyword index.

Reihe/Serie IFIP International Federation for Information Processing
Zusatzinfo XII, 404 p.
Verlagsort New York, NY
Sprache englisch
Maße 155 x 235 mm
Themenwelt Informatik Software Entwicklung User Interfaces (HCI)
Mathematik / Informatik Mathematik Finanz- / Wirtschaftsmathematik
ISBN-10 1-4757-6544-4 / 1475765444
ISBN-13 978-1-4757-6544-1 / 9781475765441
Zustand Neuware
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