Software Processes and Life Cycle Models
Kneuper, Ralf.
Software Processes and Life Cycle Models An Introduction to Modelling, Using and Managing Agile, Plan-Driven and Hybrid Processes / [electronic resource] : by Ralf Kneuper. - 1st ed. 2018. - XX, 345 p. online resource.
Acceso multiusuario
1 Foundations -- 2 Software Process Definition and Modelling -- 3 Software Processes in the Software Product Life Cycle -- 4 Governance and Management of Software Processes -- 5 Software Process Assessment and Improvement -- 6 Software and Software Process Measurement -- 7 Tool Support for Software Processes -- 8 Selected Current Trends in Software Processes -- A Relevant norms and standards -- B Gokyo Ri Check-lists to Measure Process Quality -- Index.
This book provides a comprehensive overview of the field of software processes, covering in particular the following essential topics: software process modelling, software process and lifecycle models, software process management, deployment and governance, and software process improvement (including assessment and measurement). It does not propose any new processes or methods; rather, it introduces students and software engineers to software processes and life cycle models, covering the different types ranging from "classical", plan-driven via hybrid to agile approaches. The book is structured as follows: In chapter 1, the fundamentals of the topic are introduced: the basic concepts, a historical overview, and the terminology used. Next, chapter 2 covers the various approaches to modelling software processes and lifecycle models, before chapter 3 discusses the contents of these models, addressing plan-driven, agile and hybrid approaches. The following three chapters address various aspects of using software processes and lifecycle models within organisations, and consider the management of these processes, their assessment and improvement, and the measurement of both software and software processes. Working with software processes normally involves various tools, which are the focus of chapter 7, before a look at current trends in software processes in chapter 8 rounds out the book. This book is mainly intended for graduate students and practicing professionals. It can be used as a textbook for courses and lectures, for self-study, and as a reference guide. When used as a textbook, it may support courses and lectures on software processes, or be used as complementary literature for more basic courses, such as introductory courses on software engineering or project management. To this end, it includes a wealth of examples and case studies, and each chapter is complemented by exercises that help readers gain a better command of the concepts discussed.
9783319988450
Software engineering.
Management information systems.
Computer science.
Software Engineering.
Software Management.
Management of Computing and Information Systems.
QA76.758
005.1
Software Processes and Life Cycle Models An Introduction to Modelling, Using and Managing Agile, Plan-Driven and Hybrid Processes / [electronic resource] : by Ralf Kneuper. - 1st ed. 2018. - XX, 345 p. online resource.
Acceso multiusuario
1 Foundations -- 2 Software Process Definition and Modelling -- 3 Software Processes in the Software Product Life Cycle -- 4 Governance and Management of Software Processes -- 5 Software Process Assessment and Improvement -- 6 Software and Software Process Measurement -- 7 Tool Support for Software Processes -- 8 Selected Current Trends in Software Processes -- A Relevant norms and standards -- B Gokyo Ri Check-lists to Measure Process Quality -- Index.
This book provides a comprehensive overview of the field of software processes, covering in particular the following essential topics: software process modelling, software process and lifecycle models, software process management, deployment and governance, and software process improvement (including assessment and measurement). It does not propose any new processes or methods; rather, it introduces students and software engineers to software processes and life cycle models, covering the different types ranging from "classical", plan-driven via hybrid to agile approaches. The book is structured as follows: In chapter 1, the fundamentals of the topic are introduced: the basic concepts, a historical overview, and the terminology used. Next, chapter 2 covers the various approaches to modelling software processes and lifecycle models, before chapter 3 discusses the contents of these models, addressing plan-driven, agile and hybrid approaches. The following three chapters address various aspects of using software processes and lifecycle models within organisations, and consider the management of these processes, their assessment and improvement, and the measurement of both software and software processes. Working with software processes normally involves various tools, which are the focus of chapter 7, before a look at current trends in software processes in chapter 8 rounds out the book. This book is mainly intended for graduate students and practicing professionals. It can be used as a textbook for courses and lectures, for self-study, and as a reference guide. When used as a textbook, it may support courses and lectures on software processes, or be used as complementary literature for more basic courses, such as introductory courses on software engineering or project management. To this end, it includes a wealth of examples and case studies, and each chapter is complemented by exercises that help readers gain a better command of the concepts discussed.
9783319988450
Software engineering.
Management information systems.
Computer science.
Software Engineering.
Software Management.
Management of Computing and Information Systems.
QA76.758
005.1