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The authors in this book analyze resilience and sustainability in seven different complex adaptive systems (human beings, megaprojects, higher education, food systems, climate change, healthcare settings and cities) by highlighting transitions from complexity to transdisciplinarity as a strategy for knowledge integration. The book provides insights about the nature of complex adaptive systems based on the cases studied, in particular the issue of second order cybernetics (associated to the mind-matter problematic), the role of entropy in complex systems and the importance of the notion of reflexivity in the current cognitive-reflexive stage in world capitalism. In this way, the book aims at contributing to current debates and objections about the validity of traditional ontological and epistemological positions in the face of radical and rapid transformations worldwide affecting some aspects of capitalist development. The Conclusions explore how complex sustainability needs to integrate several elements beyond the conventional view expressed in the standard, anthropocentric definition of sustainability. The contributions in this book are important for anyone interested in meaningfully designing research on resilience and sustainability that uses complexity and transdisciplinary perspectives and frameworks. ENDORSEMENTS: "This volume, edited and co-authored by Gerardo del Cerro Santamaría, is an important book for our times. It illustrates the necessity of utilizing transdisciplinary approaches to address the unremitting onslaught of environmental disasters in the post-COVID era. It serves as an essential primer for understanding the critical intersections between complexity, sustainability, and resilience. Readers will undoubtedly become more reflective about their own inquiries as they learn how scholars from different fields integrate knowledge to offer innovative and meticulously researched insights regarding many of today’s most pressing global issues." — Tanya Augsburg, San Francisco State University "From Complex Systems to Transdisciplinarity, edited and co-authored by Gerardo del Cerro Santamaría, takes resilience and sustainability to center stage, and brings to the fore the limits of individual disciplines in understanding the intricacies of nature, ecology and capitalism as it applies to seven complex systems. The book advocates for an interconnected, creative and holistic path while calling for a transition from complexity to transdisciplinarity as a means of integrating knowledge. This challenges conventional ontological and epistemological perspectives in the face of our rapidly changing societies. This book offers a novel analytical perspective and is a valuable resource for researchers and scholars interested in addressing global challenges through complex resilience, sustainability and transdisciplinarity." — Florent Pasquier, Sorbonne Université and Centre International de Recherches et Études Transdisciplinaires (CIRET), Paris, France "Today’s grand and global challenges are marked by irreducible complexities. They cannot be adequately addressed by reductionist approaches and are likely to not have a single, undisputable solution. The contributions to this volume, carefully edited by Gerardo del Cerro Santamaría, acknowledge these impurities and argue for approaches that transgress on-sided or narrow-minded perspectives. Thus, they offer topical insights into different domains and concepts that address issues of sustainability and resilience without reiterating traditional dichotomies between nature and culture or society and technology. Hence, the volume puts transdisciplinary in the centre of research practices that are both experimental and democratic. From Complex Systems to Transdisciplinarity is insightful and innovative, and a book you cannot ignore." — Cornelius Schubert, Technische Universität Dortmund, Germany "This book shows how the Anthropocene world is an unpredictable system of complex systems. To comprehend and transform this world towards sustainability, we need new ontological and epistemic lenses offered by transdisciplinary inquiry. Policy makers, scientists and corporate leaders will benefit from reading this important collection of essays on the fundamental topics of resilience, sustainability, cybernetics, reflexivity, nature, and entropy." — Paul Shrivastava, Penn State University and The Club of Rome, United States of America
This book presents an internationally comprehensive perspective into the field of complex systems. It explores the challenges of and approaches to complexity from a broad range of disciplines, including big data, health care, medicine, mathematics, mechanical and systems engineering, air traffic control and finance. The book’s interdisciplinary character allows readers to identify transferable and mutually exclusive lessons learned among these disciplines and beyond. As such, it is well suited to the transfer of applications and methodologies between ostensibly incompatible disciplines. This book provides fresh perspectives on comparable issues of complexity from the top minds on systems thinking.
The underlying idea and motive for the book is that the notion of complexity may humanize the social sciences, may conceive the complex human being as more human, and turn reality as assumed in our doing social science into a more complex, that is a richer reality for all. The main focus of this book is on new thinking in complexity, with complexity to be taken as derived from the Latin word complexus: ‘that which is interwoven.’ The trans-disciplinary approach advocated here will be trans-disciplinary in two ways: firstly, by going beyond the separate disciplines within the fields of both natural sciences and social sciences, and, secondly, by going beyond the separate cultures of the natural sciences and of the social sciences and humanities.
This book explores the ways that disciplinary convergence and technological advance are transforming systems engineering to address gaps in complex systems engineering: Transdisciplinary Systems Engineering (TSE). TSE reaches beyond traditional disciplines to find connections—and this book examines a range of new methods from across such disparate areas of scholarship as computer science, social science, human studies, and systems design to reveal patterns, efficiencies, affordances, and pathways to intuitive design. Organized to serve multiple constituencies, the book stands as an ideal textbook supplement for graduate courses in systems engineering, a reference text for program managers and practicing engineers in all industries, and a primary source for researchers engaged in multidisciplinary research in systems engineering and design.
Transdisciplinary engineering transcends other inter- and multi-disciplinary ways of working, such as Concurrent Engineering (CE). In particular, transdisciplinary processes are aimed at solving complex, ill-defined problems, or problems for which the solution is not immediately obvious. No one discipline or single person can provide sufficient knowledge to solve such problems, so collaboration is essential. This book presents the proceedings of the 27th ISTE International Conference on Transdisciplinary Engineering, organized by Warsaw University of Technology, Poland, from 1-10 July 2020. ISTE2020 was the first of this conference series to be held virtually, due to the COVID-19 restrictions. Entitled Transdisciplinary Engineering for Complex Socio-technical Systems - Real-life Applications, the book includes 71 peer-reviewed papers presented at the conference by authors from 17 countries. These range from theoretical and conceptual to strongly pragmatic and addressing industrial best practice and, together with invited talks, they have been collated into 9 sections: Transdisciplinary Engineering (7 papers); Transdisciplinary Engineering Education (4 papers); Industry 4.0, Methods and Tools (7 papers); Human-centered Design (8 papers); Methods and Tools for Design and Production (14 papers); Product and Process Development (9 papers); Knowledge and Data Modeling (13 papers); Business Process and Supply Chain Management (7 papers); and Sustainability (2 papers). The book provides an overview of new approaches, methods, tools and their applications, as well as current research and development, and will be of interest to researchers, design practitioners, and educators working in the field.
Industry and society are complex socio-technical systems, and both face problems that can only be solved by collaboration between different disciplines. Collaboration between academia and practice is also needed to develop viable solutions. Many engineering problems also require such an approach, which is known as Transdisciplinary Engineering (TE). This book presents the proceedings of the 26th ISTE International Conference on Transdisciplinary Engineering, held in Tokyo, Japan, from 30 July - 1 August 2019. The title of the conference was: Transdisciplinary Engineering for Complex Socio-technical Systems, and of the 86 submitted papers, 68 peer-reviewed papers by authors from 17 countries were delivered at the conference. These papers range from theoretical and conceptual to strongly pragmatic. They address industrial best practice and are grouped here under 10 themes: advanced robotics for smart manufacturing; design of personalized products and services; engineering methods for industry 4.0; additive and subtractive manufacturing; decision supporting tools and methods; complex systems engineering; big data analytics in manufacturing and services; concurrent engineering; cost modeling; and digital manufacturing, modeling and simulation. Presenting the latest research results and knowledge of product creation processes and related methodologies, the book will be of interest to researchers, design practitioners, and educators alike.
What kind of science do we need today and tomorrow? In a game that knows no boundaries, a game that contaminates science, democracy and the market economy, how can we distinguish true needs from simple of fashion? How can we distinguish between necessity and fancy? whims How can we differentiate conviction from opinion? What is the meaning of this all? Where is the civilizing project? Where is the universal outlook of the minds that might be capable of counteracting the global reach of the market? Where is the common ground that links each of us to the other? We need the kind of science that can live up to this need for univer sality, the kind of science that can answer these questions. We need a new kind of knowledge, a new awareness that can bring about the creative destruction of certainties. Old ideas, dogmas, and out-dated paradigms must be destroyed in order to build new knowledge of a type that is more socially robust, more scientifically reliable, stable and above all better able to express our needs, values and dreams. What is more, this new kind of knowledge, which will be challenged in turn by ideas yet to come, will prove its true worth by demonstrating its capacity to dialogue with these ideas and grow with them.
Concurrent Engineering is based on the concept that different phases of a product life cycle should be conducted concurrently and initiated as early as possible within the Product Creation Process (PCP). Its main goal is to increase the efficiency and effectiveness of the PCP and reduce errors in the later stages, and to incorporate considerations for the full lifecycle, through-life operations, and environmental issues of the product. It has become the substantive basic methodology in many industries, and the initial basic concepts have matured and become the foundation of many new ideas, methodologies, initiatives, approaches and tools. This book presents the proceedings of the 24th ISPE Inc. International Conference on Transdisciplinary (formerly: Concurrent) Engineering (TE 2017), held in Singapore, in July 2017. The 120 peer-reviewed papers in the book are divided into 16 sections: air transport and traffic operations and management; risk-aware supply chain intelligence; product innovation and marketing management; human factors in design; human engineering; design methods and tools; decision supporting tools and methods; concurrent engineering; knowledge-based engineering; collaborative engineering; engineering for sustainability; service design; digital manufacturing; design automation; artificial intelligence and data analytics; smart systems and the Internet of Things. The book provides a comprehensive overview of recent advances in transdisciplinary concurrent engineering research and applications, and will be of interest to researchers, design practitioners and educators working in the field.
In Complexity and Postmodernism, Paul Cilliers explores the idea of complexity in the light of contemporary perspectives from philosophy and science. Cilliers offers us a unique approach to understanding complexity and computational theory by integrating postmodern theory (like that of Derrida and Lyotard) into his discussion. Complexity and Postmodernism is an exciting and an original book that should be read by anyone interested in gaining a fresh understanding of complexity, postmodernism and connectionism.
This book contains the proceedings as well as invited papers for the first annual conference of the UNESCO Unitwin Complex System Digital Campus (CSDC), which is an international initiative gathering 120 Universities on four continents, and structured in ten E-Departments. First Complex Systems Digital Campus World E-Conference 2015 features chapters from the latest research results on theoretical questions of complex systems and their experimental domains. The content contained bridges the gap between the individual and the collective within complex systems science and new integrative sciences on topics such as: genes to organisms to ecosystems, atoms to materials to products, and digital media to the Internet. The conference breaks new ground through a dedicated video-conferencing system – a concept at the heart of the international UNESCO UniTwin, embracing scientists from low-income and distant countries. This book promotes an integrated system of research, education, and training. It also aims at contributing to global development by taking into account its social, economic, and cultural dimensions. First Complex Systems Digital Campus World E-Conference 2015 will appeal to students and researchers working in the fields of complex systems, statistical physics, computational intelligence, and biological physics.