Highly optimized tolerance

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In applied mathematics, highly optimized tolerance (HOT) is a method of generating power law behavior in systems by including a global optimization principle. It was developed by Jean M. Carlson and John Doyle in the early 2000s.[1] For some systems that display a characteristic scale, a global optimization term could potentially be added that would then yield power law behavior. It has been used to generate and describe internet-like graphs, forest fire models and may also apply to biological systems.

Example

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The following is taken from Sornette's book.

Consider a random variable,  , that takes on values   with probability  . Furthermore, let’s assume for another parameter  

 

for some fixed  . We then want to minimize

 

subject to the constraint

 

Using Lagrange multipliers, this gives

 

giving us a power law. The global optimization of minimizing the energy along with the power law dependence between   and   gives us a power law distribution in probability.

See also

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References

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  1. ^ Carlson, null; Doyle, null (2000-03-13). "Highly optimized tolerance: robustness and design in complex systems" (PDF). Physical Review Letters. 84 (11): 2529–2532. Bibcode:2000PhRvL..84.2529C. doi:10.1103/PhysRevLett.84.2529. ISSN 1079-7114. PMID 11018927.