Ulteriori informazioni
Composite decisions are decisions consisting of interconnected parts (subdecisions) and they correspond to a composite (composable, modular, decomposable) system. The material will be of interest to scientists (e.g., mathematicians, computer scientists, economists, social engineers,etc.). The book can be used as a text for courses (for example: systems engineering, system design, life cycle engineering, engineering design, combinatorial synthesis) at the level of undergraduate (a compressed version), graduate/PhD levels and for continuing education.
Sommario
Chapter 1. Introduction.
Chapter 2. Information Technology.
Chapter 3. Systems: Models, Analysis and Synthesis.
Chapter 4. Systems Engineering.
Chapter 5. Systems Development and Evolution
Chapter 6. Applied Systems Problems.
Chapter 7. Educational Courses.
Conclusion.
Bibliography.
Info autore
Dr. Mark Levin is currently a Senior Researcher for the Institute for Information Transmission Problems at the Russian Academy of Sciences, Moscow. His research interests include: combinatorial and systems engineering, combinatorial optimization, multi-criteria decision making, algorithms and procedures, applications, engineering/CS education. In his career he has taught in many different institutions including in more recent years: the Moscow Physical-Technical Institute (Univ.) and Ariel College in Israel.
Riassunto
Composite decisions consist of subdecisions and correspond to a composite system. This approach extends the traditional paradigm of decision making of Herbert A. Simon, i.e. choice of the best alternative(s), and realizes a two-stage solving scheme: (a) selection of alternatives as the best subdecisions/local decisions and (b) composition of these local decisions into a composite global decision, accounting for the quality of the local decisions and their compatibility.
This book describes an approach based on systems engineering and considered modular design of composite decisions. It describes basic systems approaches and examines basic ‘technological’ problems for composite systems (with applied examples), including: modular hierarchical design; multistage design and planning; redesign/improvement/adaptation; evaluation; and, combinatorial evolution/development.
Applied researchers, students, and practitioners will find this book of value. It will also interest mathematicians, computer scientists, economists and social engineers.
