Foundations of empirical software engineering : the legacy of Victor R. Basili ; with 21 tables ; [on the occasion of Basili's 65th birthday ... ; this book was developped for a symposium honoring Basili, which was held during the International Conference
معرفی کتاب «Foundations of empirical software engineering : the legacy of Victor R. Basili ; with 21 tables ; [on the occasion of Basili's 65th birthday ... ; this book was developped for a symposium honoring Basili, which was held during the International Conference» نوشتهٔ Victor R Basili; Barry W Boehm; Haans Dieter Rombach; Marvin V Zelkowitz، منتشرشده توسط نشر Springer Spektrum. in Springer-Verlag GmbH در سال 2005. این کتاب در فرمت pdf، زبان انگلیسی ارائه شده است.
This book captures the main scientific contributions of Victor R. Basili, who has significantly shaped the field of empirical software engineering from its very start. He was the first to claim that software engineering needed to follow the model of other physical sciences and develop an experimental paradigm. By working on this postulate, he developed concepts that today are well known and widely used, including the Goal-Question-Metric method, the Quality-Improvement paradigm, and the Experience Factory. He is one of the few software pioneers who can aver that their research results are not just scientifically acclaimed but are also used as industry standards.
On the occasion of his 65th birthday, celebrated with a symposium in his honor at the International Conference on Software Engineering in St. Louis, MO, USA in May 2005, Barry Boehm, Hans Dieter Rombach, and Marvin V. Zelkowitz, each a long-time collaborator of Victor R. Basili, selected the 20 most important research papers of their friend, and arranged these according to subject field. They then invited renowned researchers to write topical introductions. The result is this commented collection of timeless cornerstones of software engineering, hitherto available only in scattered publications.
This book captures the main scientific contributions of Victor R. Basili, who has significantly shaped the field of empirical software engineering from its very start. He was the first to claim that software engineering needed to follow the model of other physical sciences and develop an experimental paradigm. By working on this postulate, he developed concepts that today are well known and widely used, including the Goal-Question-Metric method, the Quality-Improvement paradigm, and the Experience Factory. He is one of the few software pioneers who can aver that their research results are not just scientifically acclaimed but are also used as industry standards. On the occasion of his 65th birthday, celebrated with a symposium in his honour at the International Conference on Software Engineering in St. Louis, MO, USA in May 2005, Barry Boehm, Hans Dieter Rombach, and Marvin V. Zelkowitz, each a long-time collaborator of Victor R. Basili, selected the 20 most important research papers of their friend, and arranged these according to subject field. They then invited renowned researchers to write topical introductions.; The result is this commented collection of timeless cornerstones of software engineering, hitherto available only in scattered publications Software professionals familiar with process improvement are familiar with the name Victor R Basili. The man and this book are classic and should be on every software engineers bookshelf. I found this book useful and a great foundation for implementing process improvement in any organization. His ideas of experience factory, goal/question/metric paradigm, and the quality improvement paradigm are definitely worth understanding. Preliminaries......Page 1 Preface......Page 4 Table of Contents......Page 5 I. Programming Languages and Formal Methods......Page 21 II. Measurement......Page 75 III. Software Engineering Laboratory......Page 130 IV. Learning Organizations and Experience Factory......Page 183 V. Technical Developments and Empirical Studies......Page 245 VI. Experience Base......Page 383 Progress in any discipline depends on our ability to understand the basic units necessary to solve a problem.