This book focuses on the design, development, management, governance and application of evolving software processes that are aligned with changing business objectives, such as expansion to new domains or shifting to global production. In the context of an evolving business world, it examines the complete software process lifecycle, from the initial definition of a product to its systematic improvement. In doing so, it addresses difficult problems, such as how to implement processes in highly regulated domains or where to find a suitable notation system for documenting processes, and provides essential insights and tips to help readers manage process evolutions. And last but not least, it provides a wealth of examples and cases on how to deal with software evolution in practice.

Reflecting these topics, the book is divided into three parts. Part 1 focuses on software business transformation and addresses the questions of which process(es) to use and adapt, and how to organize process improvement programs. Subsequently, Part 2 mainly addresses process modeling. Lastly, Part 3 collects concrete approaches, experiences, and recommendations that can help to improve software processes, with a particular focus on specific lifecycle phases.

This book is aimed at anyone interested in understanding and optimizing software development tasks at their organization. While the experiences and ideas presented will be useful for both those readers who are unfamiliar with software process improvement and want to get an overview of the different aspects of the topic, and for those who are experts with many years of experience, it particularly targets the needs of researchers and Ph.D. students in the area of software and systems engineering or information systems who study advanced topics concerning the organization and management of (software development) projects and process improvements projects. 



About the Editors:

Marco Kuhrmann is Associate Professor at the University of Southern Denmark, Odense, where he heads the software engineering section. He holds a Ph.D. and a habilitation in computer sciences from the Technische Universität München, Germany. His research is focused on software process & quality management and agile engineering.

Jürgen Münch is a Professor of Software Engineering at the University of Reutlingen, Germany, and a Research Director in the Department of Computer Science at the University of Helsinki, Finland. His research in software engineering is focused on product management, lean analytics, rapid value delivery, innovation processes, and agile engineering. He regularly supports companies to improve their product strategy and product development. He has been awarded the IFIP TC2 Manfred Paul Award for Excellence in Software Theory and Practice, and the Distinguished Professor Award FiDiPro of Tekes.

Ita Richardson is an Associate Professor at the University of Limerick in Ireland and a Principal Investigator in Lero - the Irish Software Engineering Research Centre.  She holds a Ph.D. in computer sciences from the University of Limerick. Her research is focused on software process improvement, global software development, software quality in healthcare and connected health.

Andreas Rausch is Professor for Software Systems Engineering at the Technical University of Clausthal. He holds a Ph.D. in computer science from the Technische Universität München. His research is focused on software architecture, modeling, and software processes for the development of reliable and long-living software systems.

He (Jason) Zhang is Professor at the Software Institute of Nanjing University, China. He was awarded a Ph.D. in computer science from the University of New South Wales (UNSW) in Australia. He joined academia after seven years in industry, where he had developed software systems in the areas of aerospace and complex data management. He does research in software engineering, in particular software processes (modelling, simulation, analytics and improvement), empirical and evidence-based software engineering, service-oriented computing, and software engineering research methodologies.

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