@neuroprinciples @BryanDaniels Correction: Mora & Bialek 2011 https://t.co/jDwygrufDv
@silencenbetween If you don't know him already, I think you might like William Bialek's research, and in particular his work on criticality in biological systems -- https://t.co/0Bh5MFhzYX, or this more recent talk of his on the topic https://t.co/eMGE55F8
This leads us to then to the big picture: The so-called criticality hypothesis. Do collective systems in biology, such as neuronal networks or animal groups, operate at critical points for optimal information processing? (see e.g. Mora& @wbialek https
@DrTomFroese @Entropy_MDPI That's quite cool. You might be interested in the modelling methods here https://t.co/J1VmBRn7Wp Potentially, you could assess criticality by inferring an Ising like model from data like in https://t.co/To8azMM50Q
Previous theoretical work has shown that various aspects of collective computation become optimal at critical points. Thus, it has been conjectured by @wbialek & others that biological systems such as brain, and animal groups should operate close by.
@Gemma_DLC @ricard_sole @OrusRoman Which in turn is related to @wbialek’s “poised at criticality” idea: https://t.co/FgEEiJyqY2
@_fernando_rosas Are biological systems poised at criticality? 2011 Thierry Moral and William Bialek https://t.co/ktbu0bgKVn Dynamical criticality: overview and open questions 2016 Andrea Roli, Marco Villani, Alessandro Filisetti, Roberto Serra https://t.
... which are really not what I imagined before starting the project. But lets start from the beginning: It's been suggested by different authors (e.g.@wbialek https://t.co/TTiEM4u8Yr) that biological systems should operate close to a phase transition (c
Are biological systems poised at criticality? Thierry Mora, William Bialek, 2010. "Remarkably, in all these cases the models that emerge from the data are poised at a very special point in their parameter space—a critical point." https://t.co/ktbu0bgKVn
RT @a_symap: 生物システムにおけるcritical pointの話でよく引用されるレビュー論文。Neural networkとprotein foldingと鳥の群れを例に。 Are Biological Systems Poised at Criticality?…
生物システムにおけるcritical pointの話でよく引用されるレビュー論文。Neural networkとprotein foldingと鳥の群れを例に。 Are Biological Systems Poised at Criticality? (Mora and Bialek, 2011) https://t.co/7qjaQteQFJ
RT @PepLarkin: this kind of “scale-free” state is called a critical state, and some people have hypothesized that diverse biological system…
this kind of “scale-free” state is called a critical state, and some people have hypothesized that diverse biological systems can be understood as lying near these states (eg https://t.co/xLzjecuagK); this idea remains quite controversial but, in my opinio
Are biological systems poised at criticality? https://t.co/e05rWXGI9K
Biological systems poised near criticality? https://t.co/HldbN28Wgx
[1012.2242] Thierry Mora & William Bialek: Are biological systems poised at criticality? https://t.co/q7mVXtcQsU
"Are biological systems poised at criticality?" http://t.co/W58UFtKdm5
[1012.2242] Are biological systems poised at criticality? http://t.co/LfSX2n450D @nemetics
[1012.2242] Are biological systems poised at criticality? http://t.co/LfSX2n450D @nemetics
Genomic instability-an evolving hallmark of cancer http://t.co/ov0TCcoGTU Are bio systems poised at criticality http://t.co/XEA1KKRls4
"the models that emerge from the data are poised at a very special point in their parameter space-- a critical point" http://t.co/c3rNuj0Iwl
Are biological systems poised at criticality? http://t.co/d2DRB7Pv
Are biological systems poised at criticality? http://t.co/d2DRB7Pv
@jpetros1 http://t.co/YgFApj6c - Are biological systems poised at criticality?