Random connection to maths
Random connection to maths
I am surprised by the structual homology between a Markov Random Field and a cellular automata. It really looks like a stochastic/probablistic automaton.
http://homepages.inf.ed.ac.uk/rbf/CVonl ... 9/ORCHARD/
http://homepages.inf.ed.ac.uk/rbf/CVonl ... 9/ORCHARD/
Re: Random connection to maths
Belief propagation looks very much like a cellular automata. (see this ising example)
Re: Random connection to maths
Anyone fancy implementing a "backpropagation through time“ (BPTT) using CA as substrate?
- BlinkerSpawn
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Re: Random connection to maths
The temperature model (and possibly the belief propagation system too, although I don't know how that works) could probably be approximated on the VN neighborhood using states 1,2,...,n to represent temperatures of 1/n,2/n,etc., for some n.
Granted, you'd need a script to generate the necessary transitions and there'd be a lot of them, although you'd have access to the permute symmetry which would save some space.
Granted, you'd need a script to generate the necessary transitions and there'd be a lot of them, although you'd have access to the permute symmetry which would save some space.
Re: Random connection to maths
My interest lies in exploiting message-passing to make fast inference algorithm. A more recent analogue seems to be dynamic bayesian network (DBN), it is remarkably similar to CA and an oscillator in CA corresponds to something like a stable cycle in the DBN. The difference between DBN and MRF is that DBN is embedded in time whereas MRF isn't (though I supposes possible). Anyway it'd be interesting to see how much of the result of CA is transferable to DBN, please comments if you guys have any thought/reference.BlinkerSpawn wrote:The temperature model (and possibly the belief propagation system too, although I don't know how that works) could probably be approximated on the VN neighborhood using states 1,2,...,n to represent temperatures of 1/n,2/n,etc., for some n.
Granted, you'd need a script to generate the necessary transitions and there'd be a lot of them, although you'd have access to the permute symmetry which would save some space.
Re: Random connection to maths
So excited that I dropped my jaw due to this paper by Cosma Shalizi [1].
accompanying blog
Reference
1. Shalizi, C. R., Haslinger, R., Rouquier, J., Klinkner, K. L. & Moore, C. Automatic filters for the detection of coherent structure in spatiotemporal systems. 1–16 (2006). doi:10.1103/PhysRevE.73.036104
accompanying blog
Reference
1. Shalizi, C. R., Haslinger, R., Rouquier, J., Klinkner, K. L. & Moore, C. Automatic filters for the detection of coherent structure in spatiotemporal systems. 1–16 (2006). doi:10.1103/PhysRevE.73.036104
Re: Random connection to maths
I'm curious of how it works on the Turbulent phase cyclic cellular automata, where large-scale structure dominates.shouldsee wrote:So excited that I dropped my jaw due to this paper by Cosma Shalizi [1].
accompanying blog
Reference
1. Shalizi, C. R., Haslinger, R., Rouquier, J., Klinkner, K. L. & Moore, C. Automatic filters for the detection of coherent structure in spatiotemporal systems. 1–16 (2006). doi:10.1103/PhysRevE.73.036104
Still drifting.
Re: Random connection to maths
This brain model looks very CA to me. https://www.youtube.com/watch?v=843G1WDnmAU