Synopses & Reviews
How can our societies be stabilized in a crisis? Why can we enjoy and understand Shakespeare? Why are fruitflies uniform? How do omnivorous eating habits aid our survival? What makes the Mona Lisa's smile beautiful? How do women keep our social structures intact? - Could there possibly be a single answer to all these questions? This book shows that the statement: "weak links stabilize complex systems" provides the key to understanding each of these intriguing puzzles, and many others too. The author (recipient of several distinguished science communication prizes) uses weak (low affinity, low probability) interactions as a thread to introduce a vast variety of networks from proteins to economics and ecosystems. Many people, from Nobel Laureates to high-school students have helped to make the book understandable to all interested readers. This unique book and the ideas it develops will have a significant impact on many, seemingly diverse, fields of study. A very personal, engaging, and unique book that will appeal to readers and get them thinking Steve Strogatz An adventurous, entertainingly eclectic and rich work both for experts and laymen László-Albert Barabási This masterpiece should serve as an example of how science can be discussed György Buzsáki Outstanding - I wish more books were written this way Daniel J. Bilar
Review
Opinions "This is an excellent book, which shows the far-reaching consequences of the great variety of weak links. The book has a proper balance between a scientific monograph and a popular approach, and mixes humor with sharp intellect. "Weak Links" is an adventurous, entertainingly eclectic and rich work both for the experts and laymen." (Lászlo-Albert Barabási, Department of Physics, University of Notre Dame, author of the bestseller book, Linked and the 1999 seminal Science paper on the preferential attachment model of scale-free network topology.) "You have written a very personal, engaging, and unique book that will appeal to readers and get them thinking." (Steve Strogatz, Dept. of Theoretical and Applied Mathematics, Cornell University, author of Sync and the 1998 seminal Nature paper on small worlds.) "You have done a great service by making the world of networks understandable and clear. I will use your book in my classes." (Caroline S. Wagner, Center of International Science & Technology Policy, George Washington University, author of several science policy-related books including the an upcoming work on the international collaboration in science) "This book links an exceptionally large number of areas and gives exciting novel information to both the network experts and the science-orinted general readership." (Tamás Vicsek, Dept. Biological Physics, Eötvös University, author of several network-related Nature papers including a method to determine overlapping network modules) "This masterpiece should serve as an example how science can be discussed. Entertaining yet thought provoking." (György Buzsáki, Board of Governors Professor, Center for Molecular and Behavioral Neuroscience Rutgers University, a leading expert of neuronal networks) "You have written a true gem of a book; erudite, humane, funny, accessible and thoroughly fascinating. On every page, I find another delight that makes me smile and leads me down new intellectual paths (weak links again!). Thanks to your thorough footnotes, I can delve as deep as I would like into the professional papers. Outstanding - I wish more books were written this way. I have adopted your book as a textbook for my Science of Networks class, and I will recommend it to anyone who ask without hesitation. You did a great service to pedagogy and to this budding science with this magisterial survey. I really appreciate it and my students will, as well." (Daniel J. Bilar, Computer Science Department, Wellesley College MA, USA)
Review
Aus den Rezensionen: "... eine Buchreihe ... Begründet und redaktionell betreut von Physikerin Angela Lahee, hat sie das Ziel, den Lesern eine Erweiterung und Reflexion der eigenen Wissensgrenzen zu ermöglichen. ... Eine hochinteressante transdisziplinäre Analyse komplexer Systeme ... Ungewöhnlich für ein Wissenschaftsbuch ... zu der gut verständlichen, ja unterhaltsamen Darstellung passend, sind die vielen hübschen Karikaturen sowie die Smiley-Symbole zur Markierung ... außerordentlich lesenwert. 'was wir brauchen, ist nicht der Wille zu glauben, sondern der Wille herauszufinden' ... Die interdisziplinäre, unkonventionelle Frontiers Collection ... hat ihn sogar zu ihrem Leitspruch erhoben." (Rüdiger Vaas, in: Naturwissenschaftliche Rundschau, 2007, Vol. 60, Issue 4, S. 212 ff.)
Synopsis
How can our societies be stabilized in a crisis? Why can we enjoy and understand Shakespeare? Why are fruitflies uniform? What makes the Mona Lisa's smile beautiful? - Is there any answer to these questions? This book shows that the statement: weak links stabilize complex systems holds the key to understanding all of the intriguing puzzles above. The distinguished author uses weak links as a thread to introduce a vast variety of networks from proteins to ecosystems. This unique book and the ideas it develops will have a significant impact on many, seemingly diverse, fields of study.
Synopsis
This book explains weak, short-duration and low probability interactions, and shows how they function as connecting threads in a vast variety of networks from proteins to ecosystems.
Synopsis
Peter Csermely (50) is a professor at the Semmelweis University in Budapest. A former Fogarty Fellow at Harvard University, his main fields of study are molecular chaperones and networks. In 1996 Dr. Csermely launched a highly successful initiative providing research opportunities for more than 10,000 gifted high school students. He also established the Hungarian National Talent Support Council and the Network of Youth Excellence, www.nyex.info, promoting similar activities in 33 countries. He has published 11 books and more than 200 research papers. Dr. Csermely holds several distinguished appointments including membership of the Wise Persons' Council of the Hungarian President, vice-president of the Hungarian Biochemical Society and has been recipient of numerous international fellowships and awards, for example the 2003 Science Communication Award of the European Molecular Biology Organization and the 2004 Descartes Award of the European Union for Science Communication.
Table of Contents
Introduction: How the Links Were Formed.- A Principle is Born: The Granovetter-Study.- Why do we Like Networks?.- Network Stability.- Weak Links as Stabilizers of Complex Systems.- Atoms, Molecules, Macromolecules.- Weak Links and Cellular Stability.- Weak Links and the Stability of Organisms.- Social Nets.- Networks of Human Culture.- The Global-Web.- The Eco-Web.- Conclusions and Perspectives.