| 书目名称 | Delay Controlled Partial Synchronization in Complex Networks |
| 编辑 | Jakub Sawicki |
| 视频video | |
| 概述 | Nominated as an outstanding Ph.D. thesis by the Technical University of Berlin.Includes a concise classification of multiplex networks and gives a brief introduction to bifurcation theory.Develops new |
| 丛书名称 | Springer Theses |
| 图书封面 |  |
| 描述 | The focus of this thesis are synchronization phenomena in networks and their intrinsic control through time delay, which is ubiquitous in real-world systems ranging from physics and acoustics to neuroscience and engineering. We encounter synchronization everywhere and it can be either a helpful or a detrimental mechanism. In the first part, after a survey of complex nonlinear systems and networks, we show that a seemingly simple system of two organ pipes gives birth to complex bifurcation and synchronization scenarios. Going from a 2-oscillator system to a ring of oscillators, we encounter the intriguing phenomenon of chimera states which are partial synchrony patterns with coexisting domains of synchronized and desynchronized dynamics. For more than a decade scientist have tried to solve the puzzle of this spontaneous symmetry-breaking emerging in networks of identical elements. We provide an analysis of initial conditions and extend our model by the addition of time delay and fractalconnectivities. In the second part, we investigate partial synchronization patterns in a neuronal network and explain dynamical asymmetry arising from the hemispheric structure of the human brain. A p |
| 出版日期 | Book 2019 |
| 关键词 | Synchronization in complex systems; Physics of Organ Pipes; Control By Delay; Complex Networks in neuro |
| 版次 | 1 |
| doi | https://doi.org/10.1007/978-3-030-34076-6 |
| isbn_softcover | 978-3-030-34078-0 |
| isbn_ebook | 978-3-030-34076-6Series ISSN 2190-5053 Series E-ISSN 2190-5061 |
| issn_series | 2190-5053 |
| copyright | Springer Nature Switzerland AG 2019 |
发表于 2025-3-21 19:09:43
