, Dynamic patterns in complex systems , (World Scientific, Singapore, 1988) p. 409.Kelso, J. A. S. (1988). Dynamic patterns. In J. A. S. Kelso, A. J. Mandell, & M. F. Shlesinger (Eds.), Dynamic patterns in com-
ARTICLE DOI: 10.1038/s41467-017-01916-3 OPEN Dynamic patterns of information flow in complex networks Uzi Harush1 & Baruch Barzel1 Although networks are extensively used to visualize information flow in biological, social and technological systems, translating topology into dynamic flow continues to ...
Dynamic Patterns 作者: J·A·Scott Kelso 出版社: The MIT Press副标题: The Self-Organization of Brain and Behavior (Complex Adaptive Systems)出版年: 1995-4-27页数: 354定价: $37.00装帧: PapISBN: 9780262611312豆瓣评分 评价人数不足 评价: ...
Time series generated by complex systems like financial markets and the earth’s atmosphere often represent superstatistical random walks: on short time scales, the data follow a simple low-level model, but the model parameters are not constant and can fluctuate on longer time scales according to...
In an increasingly connected world, the resilience of networked dynamical systems is important in the fields of ecology, economics, critical infrastructures, and organizational behaviour. Whilst we understand small-scale resilience well, our understanding of large-scale networked resilience is limited. Rece...
patterns in water and air, cloud formation, and more.Thelen and Smith (1994; see alsoFogel & Thelen, 1987) recognized a remarkable parallel between complex physical systems and human behavioral development, and sought to formally apply the same concepts across these domains....
Impulse trains carry the communication between nerve cells in living systems and, taken together, must be responsible for representation of information and processing in the brain. Temporal patterns and coincidences between multiple impulse trains may have special significance in coding and processing ...
The recording time of a structural colour pattern using these materials is between seconds and minutes, depending on the power of the light source and the size of the exposed area in which the patterns are recorded. Using high-power projection systems, we anticipate a reduction of the exposure...
Spatiotemporal pattern formation occurs in a variety of nonequilibrium physical and chemical systems. Here we show that a microfluidic device designed to produce reverse micelles can generate complex, ordered patterns as it is continuously operated far from thermodynamic equilibrium. Flow in a microfluidi...
Systems are everywhere and we are surrounded by them. We are a complex amalgam of systems that enable us to interact with an endless array of external systems in our daily lives. They are electrical, mechanical, social, biological, and many other types that control our environment and our wel...