大葉大學圖書館 |

Crisis management for software development and knowledge transfer[electronic resource] /

紀錄類型:	書目-電子資源 : Monograph/item
杜威分類號:	005.1068
書名/作者:	Crisis management for software development and knowledge transfer/ by Sergey V. Zykov.
作者:	Zykov, Sergey V.
出版者:	Cham : : Springer International Publishing :, 2016.
面頁冊數:	xxiii, 133 p. : : ill. (some col.), digital ;; 24 cm.
Contained By:	Springer eBooks
標題:	Software engineering - Management.
標題:	Engineering.
標題:	Computational Intelligence.
標題:	Artificial Intelligence (incl. Robotics)
標題:	Software Engineering/Programming and Operating Systems.
ISBN:	9783319429663
ISBN:	9783319429656
內容註:	Introduction -- Software Engineering: the End of the Crisis? -- Software Lifecycles: How Can we Optimize them? -- Software Methodologies: Are our Processes Crisis-Agile? -- Software Patterns: Ready for Crisis Development? -- Knowledge Transfer: Manageable in Crisis? -- Conclusion.
摘要、提要註:	This well structured book discusses lifecycle optimization of software projects for crisis management by means of software engineering methods and tools. Its outcomes are based on lessons learned from the software engineering crisis which started in the 1960s. The book presents a systematic approach to overcome the crisis in software engineering depends which not only depends on technology-related but also on human-related factors. It proposes an adaptive methodology for software product development, which optimizes the software product lifecycle in order to avoid "local" crises of software production. The general lifecycle pattern and its stages are discussed, and their impact on the time and budget of the software product development is analyzed. The book identifies key advantages and disadvantages for various models selected and concludes that there is no "silver bullet", or universal model, which suits all software products equally well. It approaches software architecture in terms of process, data and system perspectives and proposes an incremental methodology for crisis-agile development of large-scale, distributed heterogeneous applications. The book introduces a number of specialized approaches which are widely used in industry but are often ignored in general writings because of their vendor-specificity. In doing so, the book builds a helpful bridge from academic conceptions of software engineering to the world of software engineering practice. With its systematic coverage of different software engineering methodologies and the presented rich systems engineering examples the book will be beneficial for a broader audience.
電子資源:	http://dx.doi.org/10.1007/978-3-319-42966-3

Crisis management for software development and knowledge transfer[electronic resource] /
Zykov, Sergey V.

Crisis management for software development and knowledge transfer[electronic resource] /by Sergey V. Zykov. - Cham :Springer International Publishing :2016. - xxiii, 133 p. :ill. (some col.), digital ;24 cm. - Smart innovation, systems and technologies,v.612190-3018 ;. - Smart innovation, systems and technologies ;v.12..

Introduction -- Software Engineering: the End of the Crisis? -- Software Lifecycles: How Can we Optimize them? -- Software Methodologies: Are our Processes Crisis-Agile? -- Software Patterns: Ready for Crisis Development? -- Knowledge Transfer: Manageable in Crisis? -- Conclusion.

This well structured book discusses lifecycle optimization of software projects for crisis management by means of software engineering methods and tools. Its outcomes are based on lessons learned from the software engineering crisis which started in the 1960s. The book presents a systematic approach to overcome the crisis in software engineering depends which not only depends on technology-related but also on human-related factors. It proposes an adaptive methodology for software product development, which optimizes the software product lifecycle in order to avoid "local" crises of software production. The general lifecycle pattern and its stages are discussed, and their impact on the time and budget of the software product development is analyzed. The book identifies key advantages and disadvantages for various models selected and concludes that there is no "silver bullet", or universal model, which suits all software products equally well. It approaches software architecture in terms of process, data and system perspectives and proposes an incremental methodology for crisis-agile development of large-scale, distributed heterogeneous applications. The book introduces a number of specialized approaches which are widely used in industry but are often ignored in general writings because of their vendor-specificity. In doing so, the book builds a helpful bridge from academic conceptions of software engineering to the world of software engineering practice. With its systematic coverage of different software engineering methodologies and the presented rich systems engineering examples the book will be beneficial for a broader audience.

ISBN: 9783319429663

Standard No.: 10.1007/978-3-319-42966-3doiSubjects--Topical Terms:

382743
Software engineering
--Management.

LC Class. No.: QA76.758

Dewey Class. No.: 005.1068

Crisis management for software development and knowledge transfer[electronic resource] /
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520 $a This well structured book discusses lifecycle optimization of software projects for crisis management by means of software engineering methods and tools. Its outcomes are based on lessons learned from the software engineering crisis which started in the 1960s. The book presents a systematic approach to overcome the crisis in software engineering depends which not only depends on technology-related but also on human-related factors. It proposes an adaptive methodology for software product development, which optimizes the software product lifecycle in order to avoid "local" crises of software production. The general lifecycle pattern and its stages are discussed, and their impact on the time and budget of the software product development is analyzed. The book identifies key advantages and disadvantages for various models selected and concludes that there is no "silver bullet", or universal model, which suits all software products equally well. It approaches software architecture in terms of process, data and system perspectives and proposes an incremental methodology for crisis-agile development of large-scale, distributed heterogeneous applications. The book introduces a number of specialized approaches which are widely used in industry but are often ignored in general writings because of their vendor-specificity. In doing so, the book builds a helpful bridge from academic conceptions of software engineering to the world of software engineering practice. With its systematic coverage of different software engineering methodologies and the presented rich systems engineering examples the book will be beneficial for a broader audience.
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