با سلام
اگر در بین شما و یا دوستان شما کسی تمایل به ترجمه کتاب Network Science باراباشی داره، لطفا به بنده اطلاع بده.
http://barabasi.com/networksciencebook/call/?platform=hootsuite
@carimi
اگر در بین شما و یا دوستان شما کسی تمایل به ترجمه کتاب Network Science باراباشی داره، لطفا به بنده اطلاع بده.
http://barabasi.com/networksciencebook/call/?platform=hootsuite
@carimi
Everyone interested in complex systems should read this paper.
http://biorxiv.org/content/early/2016/05/26/055624
http://biorxiv.org/content/early/2016/05/26/055624
bioRxiv
Could a neuroscientist understand a microprocessor?
There is a popular belief in neuroscience that we are primarily data limited, that producing large, multimodal, and complex datasets will, enabled by data analysis algorithms, lead to fundamental insights into theway the brain processes information.Microprocessors…
The crash course is for people relatively new to visualization in R, and you don’t need programming experience to put it to use. You start with the basics, move into more advance visualization, and then work through common stumbling blocks to avoid getting stuck.
http://flowingdata.com/2016/06/08/a-crash-course-for-visualizing-time-series-data-in-r/
http://flowingdata.com/2016/06/08/a-crash-course-for-visualizing-time-series-data-in-r/
FlowingData
A Course for Visualizing Time Series Data in R
Learn to visualize temporal patterns in a couple of days.
review article
Exploring complex networks
Steven H. Strogatz
http://www.nature.com/nature/journal/v410/n6825/full/410268a0.html
Exploring complex networks
Steven H. Strogatz
http://www.nature.com/nature/journal/v410/n6825/full/410268a0.html
Dear Friends and Colleagues,
Hi,
Recently Professor Albert-László Barabási, pioneer in network science at Northwestern University, has published his text book (http://barabasi.com/networksciencebook/) in the field. There has been a call for submitting proposals on translation of his book to other languages. Here, we are aiming to promote the translation of this book to the Farsi(Persian),therefore if you are expert in the network science or related area and you would like to help us in this project please join us. We appreciate the diversity in the team.
The deadline for submitting the proposal is July 1, 2016.
See here for more information about the proposal:
http://barabasi.com/networksciencebook/call/
Yours truly,
Amir Feizi
Hi,
Recently Professor Albert-László Barabási, pioneer in network science at Northwestern University, has published his text book (http://barabasi.com/networksciencebook/) in the field. There has been a call for submitting proposals on translation of his book to other languages. Here, we are aiming to promote the translation of this book to the Farsi(Persian),therefore if you are expert in the network science or related area and you would like to help us in this project please join us. We appreciate the diversity in the team.
The deadline for submitting the proposal is July 1, 2016.
See here for more information about the proposal:
http://barabasi.com/networksciencebook/call/
Yours truly,
Amir Feizi
Introduction to Dynamical Systems and Chaos (Summer, 2016)
Lead instructor: David Feldman
https://www.complexityexplorer.org/courses/61-introduction-to-dynamical-systems-and-chaos-summer-2016
About the Course:
In this course you'll gain an introduction to the modern study of dynamical systems, the interdisciplinary field of applied mathematics that studies systems that change over time.
Topics to be covered include: phase space, bifurcations, chaos, the butterfly effect, strange attractors, and pattern formation. The course will focus on some of the realizations from the study of dynamical systems that are of particular relevance to complex systems:
1. Dynamical systems undergo bifurcations, where a small change in a system parameter such as the temperature or the harvest rate in a fishery leads to a large and qualitative change in the system's
behavior.
2. Deterministic dynamical systems can behave randomly. This property, known as sensitive dependence or the butterfly effect, places strong limits on our ability to predict some phenomena.
3. Disordered behavior can be stable. Non-periodic systems with the butterfly effect can have stable average properties. So the average or statistical properties of a system can be predictable, even if its details are not.
4. Complex behavior can arise from simple rules. Simple dynamical systems do not necessarily lead to simple results. In particular, we will see that simple rules can produce patterns and structures of surprising complexity.
Lead instructor: David Feldman
https://www.complexityexplorer.org/courses/61-introduction-to-dynamical-systems-and-chaos-summer-2016
About the Course:
In this course you'll gain an introduction to the modern study of dynamical systems, the interdisciplinary field of applied mathematics that studies systems that change over time.
Topics to be covered include: phase space, bifurcations, chaos, the butterfly effect, strange attractors, and pattern formation. The course will focus on some of the realizations from the study of dynamical systems that are of particular relevance to complex systems:
1. Dynamical systems undergo bifurcations, where a small change in a system parameter such as the temperature or the harvest rate in a fishery leads to a large and qualitative change in the system's
behavior.
2. Deterministic dynamical systems can behave randomly. This property, known as sensitive dependence or the butterfly effect, places strong limits on our ability to predict some phenomena.
3. Disordered behavior can be stable. Non-periodic systems with the butterfly effect can have stable average properties. So the average or statistical properties of a system can be predictable, even if its details are not.
4. Complex behavior can arise from simple rules. Simple dynamical systems do not necessarily lead to simple results. In particular, we will see that simple rules can produce patterns and structures of surprising complexity.
In the 1932 Annual Review of Fluid Mechanics, Horace Lamb said:
"I am an old man now, and when I die and go to heaven there are two matters on which I hope for enlightenment. One is quantum electrodynamics, and the other is the turbulent motion of fluids. And about the former I am rather optimistic."
"I am an old man now, and when I die and go to heaven there are two matters on which I hope for enlightenment. One is quantum electrodynamics, and the other is the turbulent motion of fluids. And about the former I am rather optimistic."
Statistical Physics of Adaptation
https://journals.aps.org/prx/abstract/10.1103/PhysRevX.6.021036
https://journals.aps.org/prx/abstract/10.1103/PhysRevX.6.021036
Physical Review X
Statistical Physics of Adaptation
Evolutionary adaptation is commonly thought of as arising from reproduction. A new thermodynamic perspective on self-organization far from thermal equilibrium links the biological world and other systems governed by the same general physical principles.
Network Valuation in Financial Systems
https://arxiv.org/abs/1606.05164
https://arxiv.org/abs/1606.05164
"Life is pleasant . Death is peaceful. It's the transition that is troublesome."
- Isaac Asimov
- Isaac Asimov
توی این صفحه لینکهایی وجود داره که شما با رفتن به اونها میتونید با #فرکتال ها بازی کنید و شکلهایی که دوست دارید رو بسازید. پیشنهاد میشه حتما سر بزنید:
https://www.complexityexplorer.org/courses/26-fractals-and-scaling-fall-2015/segments/3933
https://www.complexityexplorer.org/courses/26-fractals-and-scaling-fall-2015/segments/3933
Today the network of relationships linking the human race to itself and to the rest of the biosphere is so #complex that all aspects affect all others to an extraordinary degree. Someone should be studying the whole system, however crudely that has to be done, because no gluing together of partial studies of a complex nonlinear system can give a good idea of the behaviour of the whole.
Murray Gell-Mann in ISSS The Primer Project International Society for the Systems Sciences (ISSS) seminar (12 October - 10 November 1997).
Murray Gell-Mann in ISSS The Primer Project International Society for the Systems Sciences (ISSS) seminar (12 October - 10 November 1997).
Network Science is everywhere! And the list is alredy incomplete, missing CEU's fantastic Phd program: http://ow.ly/uXMQ301tHdm. See NU's PhD: http://ow.ly/l0va301hQ3b