RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
@CropAdaptation
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
Paper that revolutionized mathematics and in fact all of sciences.
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
I would add two more: Metropolis, Stein, Stein (1973) showing that appearance of periodic orbits follows universal sequence https://t.co/z9N88sLIh9 and Feigenbaum (1978) discovering the universal rate of convergence of period doubling (Feigenbaum constant)
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
RT @StA_Maths_Stats: 8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianofth…
8.I Article of the Day "Simple mathematical models with very complicated dynamics" Robert M. May #mathematicianoftheday Nature volume 261, pages 459–467 (1976) https://t.co/p8fkhD4VCI https://t.co/viDXbGAs3p
RT @theosysbio: What are your favourite classic papers (topic, style, substance, inspiration) that you revisit? Mine are: Simple mathemati…
RT @theosysbio: What are your favourite classic papers (topic, style, substance, inspiration) that you revisit? Mine are: Simple mathemati…
What are your favourite classic papers (topic, style, substance, inspiration) that you revisit? Mine are: Simple mathematical models with very complicated dynamics https://t.co/UDiNeiTE4u More is different https://t.co/BCG6us7dX3 The… https://t.co/SO4pIZd
RT @jaderPolli: Further reading: Logistic-Map: https://t.co/UgS3xC1tsg Scale-Invariance at BP: https://t.co/KwkvTizIJz More about Dynamica…
Further reading: Logistic-Map: https://t.co/UgS3xC1tsg Scale-Invariance at BP: https://t.co/KwkvTizIJz More about Dynamical Systems theory (book from @stevenstrogatz): https://t.co/m5iLf7xREx
This is egregious, if not even a Cambridge University Press book can reprint a @Nature paper due to prohibitive expenses, see comparison with @ScienceMagazine so this was the foundational paper Robert May suggested for this volume https://t.co/eraZ53CChp h
To clarify: frequency halving (period doubling) is also discussed in those papers, e.g. https://t.co/aaDqUKodMz
Here is another article from 1976 https://t.co/aaDqUKodMz
@katchwreck @gabrielpeyre I'm skipping a lot of detail, but it doesn't necessarily have to involve Poincare maps. A measure \mu just has to be invariant under a function f. In this example f happens to be the logistic map, which is not traditionally derive
Ok now I'm more n more intrigued back n why I didn't come across Feigenbaum constant earlier .. this thing is manifesting in many areas
@LauraDeming The actual source of this from Bob May in Nature 1976. Martin Nowak was a Postdoc with Bob May. This is the paper that made people aware of deterministic chaos. Ed Lorenz’s paper was there before but did not make an impact on people. https:/
For F,J,Ri modelers https://t.co/mSRz7Mj1v5
Definitely a classic that reads well today. For years I used Robert May's annual number of fish in a lake to "explain" to my artsy friends how universality in period-doubling works, and that's all the still know about "chaos" :)
RT @peripatetical: Vale Sir Bob May, Australian pioneer of mathematical biology, including the models used widely for exploring the dynamic…
Este trabajo lo llevó a descubrir que estas dinámicas no eran exclusivas de la ecología sino también ocurrían en sistemas económicos y sociales. Su trabajo comenzaría a ser parte de la historia de la teoría del caos: https://t.co/ZT4N8rmGjd
RIP Robert May. His paper on logistic equation and bifurcations (https://t.co/bQVnwD8MWL) was one of the introductory articles for me in graduate school. https://t.co/q6vnhifKgk
RT @peripatetical: Vale Sir Bob May, Australian pioneer of mathematical biology, including the models used widely for exploring the dynamic…
A theoretical result on diversity-stability relationship that shook the field of community ecology: https://t.co/sMLO6GpYCD An insightful mathematical paper on complex dynamics arising from a simple model: https://t.co/kpVfp9Uzrx
R M May died yesterday. https://t.co/5j0ud9iooH
Vale Sir Bob May, Australian pioneer of mathematical biology, including the models used widely for exploring the dynamics of infectious diseases.
RT @neurovium: One of the best papers I have read. A remarkable one indeed... surely, I should add it to #ThursdayClassicCorner Respect to…
His work extended well beyond their original text, using creativity and insightfulness to find mathematical approaches to controlling infectious diseases https://t.co/rfyyKZkf8c https://t.co/BGwxtXy9R5 https://t.co/2nmdx69zar
RT @neurovium: One of the best papers I have read. A remarkable one indeed... surely, I should add it to #ThursdayClassicCorner Respect to…
RT @theosysbio: This paper is a classic. Read it in school and worked with him many years later. https://t.co/UDiNeiTE4u Apart from stud…
This paper is a classic. Read it in school and worked with him many years later. https://t.co/UDiNeiTE4u Apart from students and postdocs, perhaps, Bob has had the greatest impact on my research and my outlook on research.
One of the best papers I have read. A remarkable one indeed... surely, I should add it to #ThursdayClassicCorner Respect to the late Robert May :( https://t.co/NCobRTA93E
RT @SMCADMAN: Or... May, R. Simple mathematical models with very complicated dynamics. Nature 261, 459–467 (1976). https://t.co/2x5ryoeoG3…
Simple mathematical models with very complicated dynamics. - PubMed - NCBI https://t.co/JCZ8HJ26yh
Or... May, R. Simple mathematical models with very complicated dynamics. Nature 261, 459–467 (1976). https://t.co/2x5ryoeoG3 Xn+1=rx9(1-Xn)
@jmetzcar @MathCancer @gliomath @ara_anderson @theheikman @adrianne_jenner @CancerConnector @LisanneRens @linneafranssen Robert May, "chaos", Simple mathematical models with very complicated dynamics (1976): https://t.co/ojFjWSuilU Fisher (1937) THE WAVE
RT @chaaosbook: @HZinnbrooks @DynamicsSIAM The Lorenz paper is beautiful, so is Henon and May: "JMS wrote a note that she said looked ‘as i…
RT @chaaosbook: @HZinnbrooks @DynamicsSIAM The Lorenz paper is beautiful, so is Henon and May: "JMS wrote a note that she said looked ‘as i…
RT @chaaosbook: @HZinnbrooks @DynamicsSIAM The Lorenz paper is beautiful, so is Henon and May: "JMS wrote a note that she said looked ‘as i…
@HZinnbrooks @DynamicsSIAM The Lorenz paper is beautiful, so is Henon and May: "JMS wrote a note that she said looked ‘as if my mother had written it’, and Nature published it." People who invent a subject have to explain it. https://t.co/ogMHfRacL2 http
Required reading: Robert May's 1976 use of the logistic map as an "Evangelical plea" to recognize that nonlinear (read: nearly all) systems do not resemble the intuition we develop from linear systems. No escaping yr math medicine in this reality. https:/
Ecology in a nutshell. Robert May, 1976 #ecologyclassics https://t.co/kGbXf0X6EY https://t.co/AWoJNBZwii
@__dingdongbell もう話に上がってるみたいだけど,ロジスティック差分方程式の複雑な挙動 (http://t.co/jnjvB8JyTM) はよくそういう例として挙げられる.「離散が大事」(http://t.co/zShVFT310g) も読んでみよう.
Simple mathematical models with very complicated dynamics http://t.co/aMLBtnAfFi | @nature 1976