Unifying Themes In Complex Systems, Volume 1


Book Description

The study of complex systems has attracted a broad range of researchers from many disciplines spanning both the hard and soft sciences. In the Autumn of 1997, 300 of these researchers came together for the First International Conference on Complex Systems. The proceedings of this conference is the first book in the New England Complex Systems Institute Series on Complexity and includes more than 100 presentations and papers on topics like evolution, emergence, complexity, self-organization, scaling, informatics, time series, emergence of mind, and engineering of complex systems.




Unifying Themes in Complex Systems


Book Description

In recent years, scientists have applied the principles of complex systems science to increasingly diverse fields. The results have been nothing short of remarkable. The Third International Conference on Complex Systems attracted over 400 researchers from around the world. The conference aimed to encourage cross-fertilization between the many disciplines represented and to deepen our understanding of the properties common to all complex systems.




Unifying Themes in Complex Systems IX


Book Description

Unifying Themes in Complex Systems is a well-established series of carefully edited conference proceedings that serve to document and archive the progress made regarding cross-fertilization in this field. The International Conference on Complex Systems (ICCS) creates a unique atmosphere for scientists from all fields, engineers, physicians, executives, and a host of other professionals, allowing them to explore common themes and applications of complex systems science. With this new volume, Unifying Themes in Complex Systems continues to establish common ground between the wide-ranging domains of complex systems science.




Unifying Themes in Complex Systems , Vol. V


Book Description

The International Conference on Complex Systems (ICCS) creates a unique atmosphere for scientists of all fields, engineers, physicians, executives, and a host of other professionals to explore common themes and applications of complex system science. With this new volume, Unifying Themes in Complex Systems continues to build common ground between the wide-ranging domains of complex system science.




Structural Methods in the Study of Complex Systems


Book Description

​Structural Methods in the Study of Complex Systems helps the reader respond to the challenge of mastering complexity in systems and control. The book details the fundamental control problems arising from complex dynamical systems and shows how they can be tackled effectively by means of methods developed from graph theory, differential algebra and geometric approaches. These “structural methods” produce abstractions that fit a wide variety of applications by taking advantage of their intrinsic focus on the essential characteristics of dynamical systems, their geometric perspective and visual representation, and their algebraic formalization and ability to generate algorithmic frameworks to complement the theoretical treatment. The original work and latest achievements of the contributors, expanding on material presented at a workshop organized to coincide with the 2018 European Control Conference will assist systems and control scientists interested in developing theoretical and computational tools to solve analysis and synthesis problems involving complex dynamical systems. The contributions provide a comprehensive picture of available results along with a stimulating view of possible directions for future investigations in the field. Emphasis is placed on methods with solid computational background and on specific engineering applications so that readers from both theoretical and practical backgrounds will find this collection of use.




Agile Project Management and Complexity


Book Description

This research monograph presents an inter-disciplinary study of the impact, and current status, of applications of complexity-related concepts in the early stages of development of Agile Project Management (APM). The results serve as an introduction for exploring more profound relations between complexity-related ideas and APM in the future. The increasing complexity of software projects and their environment in the 1990s constituted the main determinants of the development of the family of methodological frameworks called Agile Project Management. Development of APM has been shaped by a broadly defined area of research called complexity science or complexity theory based on complex adaptive systems (CAS) and on their characteristics: Complexity, chaos, the edge of chaos, emerging properties, non-linearity, self-organization, etc. In the 21st century, due to the expansion of Agile beyond software development, the challenges deriving from the complexity of projects and the environment are even more urgent or compelling. Such phenomena demand more profound inter- and multi-disciplinary studies. This book examines the impact of applications of complexity-related ideas deriving from intuitive complexity and from complexity science in the early stages of development of the Agile methodological frameworks in project management and considers the current status of those applications. It questions the usefulness of those applications for the practice and theory of APM, and then proposes a conceptual framework for further theoretical studies and several ways of improvement and refinement of the Agile Project Management necessary to deal with broadly defined complexity in project management. Requiring a medium-level knowledge of complexity studies and knowledge of project management, this book is written for the research community studying the links between the various methodological frameworks included in APM and complexity-related ideas. It will also be interesting for studies of the impact of complexity on modern management, and for master’s students on IT and management courses.




Graeme Snooks


Book Description

Who is Graeme Snooks Graeme Donald Snooks is a systems theorist and stratologist who has developed a general dynamic theory to explain complex living systems. His resulting "dynamic-strategy theory" has been employed to analyse the fluctuating fortunes of life over the past 4,000 million years (myrs) and of human society over the past 2 myrs; to analyse contemporary economic problems ; to explore socio-political issues ; to analyse the emergence, operation, and malfunction of the mind; and to make scientific predictions about the future. New discoveries emerging from Snooks' publications include: existential schizophrenia, strategic frustration, strategic selection, the growth-inflation curve, the strategy function, the logological constant, the Snooks-Panov Vertical, technological paradigm shifts, the Solar Revolution, and, most importantly, the strategic logos. His body of work challenges the existing paradigms of orthodox (neo-classical) economics, climate-mitigation economics, Marxism, neo-Darwinism, evolutionary psychology, self-organisation theory, and all other supply-side systems. How you will benefit (I) Insights about the following: Chapter 1: Graeme Snooks Chapter 2: Process philosophy Chapter 3: World Chapter 4: Cosmogony Chapter 5: Political economy Chapter 6: Industrial policy Chapter 7: Wilfrid Sellars Chapter 8: Systems science Chapter 9: Green economy Chapter 10: Jomo Kwame Sundaram Chapter 11: Roberto Mangabeira Unger Chapter 12: Price signal Chapter 13: David Teece Chapter 14: Complexity economics Chapter 15: Yaneer Bar-Yam Chapter 16: Spillover (economics) Chapter 17: Tom Snooks Chapter 18: Ernesto Screpanti Chapter 19: Tessaleno Devezas Chapter 20: DICE model Chapter 21: Great Reset Who this book is for Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information about Graeme Snooks.




Migration and Disruptions


Book Description

“Artfully integrates scholarship on both past and present migration. With its thematic focus on disruption, this volume develops unprecedented nuance in the treatment of migration.”—Graciela S. Cabana, coeditor of Rethinking Anthropological Perspectives on Migration “A significant contribution to the social sciences in general and a future staple for archaeologists and anthropologists. Migration and Disruptions demonstrates the importance of collaboration and constructive dialogues between the traditional subfields composing the umbrella title of anthropology.”—Stephen A. Brighton, author of Historical Archaeology of the Irish Diaspora: A Transnational Approach Migration has always been a fundamental human activity, yet little collaboration exists between scientists and social scientists examining how it has shaped past and contemporary societies. This innovative volume brings together sociocultural anthropologists, archaeologists, bioarchaeologists, ethnographers, paleopathologists, and others to develop a unifying theory of migration. The contributors relate past movements, including the Anglo-Saxon settlement of Britain and the Islamic conquest of Andalucía, to present-day events, such as those in northern Ethiopia or at the U.S.-Mexico border. They examine the extent to which environmental and social disruptions have been a cause of migration over time and how these migratory flows have in turn led to disruptive consequences for the receiving societies. The observed cycles of social disruption, resettlement, and its consequences offer a new perspective on how human migration has shaped the social, economic, political, and environmental landscapes of societies from prehistory to today. Contributors:Brenda J. Baker | Christopher S. Beekman | George L. Cowgill | Jason De Leon | James F. Eder | Anna Forringer-Beal | Cameron Gokee | Catherine Hills | Kelly J. Knudson | Patrick Manning | Jonathan Maupin | Lisa Meierotto | James Morrissey | Rachel E. Scott | Christina Torres-Rouff | Takeyuki (Gaku) Tsuda | Sonia Zakrzewski




A Crude Look at the Whole


Book Description

A top expert explains why a social and economic understanding of complex systems will help society to anticipate and confront our biggest challenges Imagine trying to understand a stained glass window by breaking it into pieces and examining it one shard at a time. While you could probably learn a lot about each piece, you would have no idea about what the entire picture looks like. This is reductionism -- the idea that to understand the world we only need to study its pieces -- and it is how most social scientists approach their work. In A Crude Look at the Whole, social scientist and economist John H. Miller shows why we need to start looking at whole pictures. For one thing, whether we are talking about stock markets, computer networks, or biological organisms, individual parts only make sense when we remember that they are part of larger wholes. And perhaps more importantly, those wholes can take on behaviors that are strikingly different from that of their pieces. Miller, a leading expert in the computational study of complex adaptive systems, reveals astounding global patterns linking the organization of otherwise radically different structures: It might seem crude, but a beehive's temperature control system can help predict market fluctuations and a mammal's heartbeat can help us understand the "heartbeat" of a city and adapt urban planning accordingly. From enduring racial segregation to sudden stock market disasters, once we start drawing links between complex systems, we can start solving what otherwise might be totally intractable problems. Thanks to this revolutionary perspective, we can finally transcend the limits of reductionism and discover crucial new ideas. Scientifically founded and beautifully written, A Crude Look at the Whole is a powerful exploration of the challenges that we face as a society. As it reveals, taking the crude look might be the only way to truly see.




Complex Engineered Systems


Book Description

This book sheds light on the large-scale engineering systems that shape and guide our everyday lives. It does this by bringing together the latest research and practice defining the emerging field of Complex Engineered Systems. Understanding, designing, building and controlling such complex systems is going to be a central challenge for engineers in the coming decades. This book is a step toward addressing that challenge.