Overview

This book describes a complete revolution in software engineering based on complexity science through the establishment of NSE – Nonlinear Software Engineering paradigm which complies with the essential principles of complexity science, including the Nonlinearity principle, the Holism principle, the Complexity Arises From Simple Rules principle, the Initial Condition Sensitivity principle, the Sensitivity to Change principle, the Dynamics principle, the Openness principle, the Self-organization principle, and the Self-adaptation principle. The aims of this book are to offer revolutionary solutions to solve the critical problems existing with the old-established software engineering paradigm based on linear thinking and simplistic science complied with the superposition principle, and make it possible tohelp software development organizations double their productivity, halve their cost, and remove 99% to 99.99% of the defects in their software products, and efficiently handle software complexity, conformity, visibility, and changeability. It covers almost all areas in software engineering. The tools NSE_CLICK- an automatic acceptance testing platform for outsourcing (or internally developed) C/C++ products, and NSE_CLICK_J - an automatic acceptance testing platform for outsourcing (or internally developed) Java products  are particularly designed for non-technical readers to view/review how the acceptance testing of a software product developed with NSE can be performed automatically, and how the product  developed with NSE is truly maintainable at the customer site.

Full Product Details

Author:   Jay Xiong
Publisher:   Springer-Verlag New York Inc.
Imprint:   Springer-Verlag New York Inc.
Edition:   2011 ed.
Dimensions:   Width: 16.00cm , Height: 4.10cm , Length: 24.00cm
Weight:   2.790kg
ISBN:  

9781441973252

ISBN 10:   1441973257
Pages:   746
Publication Date:   25 February 2011
Audience:   Professional and scholarly ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   Out of print, replaced by POD  
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Table of Contents

1: Introduction.- 2: Is the Old-Established Software Engineering Paradigm Entirely Outdated?.- 3: Foundation for Establishing NSE: Complexity Science.- 4: Prediction and Practices: A New Round of Industrial Revolution Driven by Complexity Science, and a General Paradigm-Shift Framework.- 5: Outline of NSE Paradigm.- 6: The Unique Techniques Innovated to Support NSE .- 7: NSE Software Engineering Visualization Paradigm.- 8: NSE Process Model .- 9: The Facility for Automated and Self-Maintainable Traceability.- 10: NSE Software Development Methodology Driven by Defect-Prevention and Traceability.- 11: Requirement Engineering with NSE.- 12: Design Engineering with NSE.- 13: Coding Engineering with NSE.- 14: The Basis of Software Testing.- 15: Software Test Case Design.- 16: NSE Software Testing Paradigm Based on Transparent-Box Method.- 17: NSE Software Quality Assurance Paradigm Driven by Defect Prevention.- 18: NSE Software Maintenance Paradigm: Systematic, Disciplined, and Quantifiable.- 19: NSE Documentation Paradigm: Virtual, Traceable and Consistent with the Source Code.- 20: NSE Project Management Paradigm: Seamlessly Combined with the Project Development Process.- 21: Algorithms Innovated for Establishing NSE.- 22: NSE Support Tools and NSE Support Platforms.- 23: NSE Applications.- 24: Candidates of Silver Bullet .

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