English

Optimal Guessing under Nonextensive Framework and associated Moment Bounds

Information Theory 2019-05-21 v1 Statistical Mechanics math.IT

Abstract

We consider the problem of guessing the realization of a random variable but under more general Tsallis' non-extensive entropic framework rather than the classical Maxwell-Boltzman-Gibbs-Shannon framework. We consider both the conditional guessing problem in the presence of some related side information, and the unconditional one where no such side-information is available. For both types of the problem, the non-extensive moment bounds of the required number of guesses are derived; here we use the qq-normalized expectation in place of the usual (linear) expectation to define the non-extensive moments. These moment bounds are seen to be a function of the logarithmic norm entropy measure, a recently developed two-parameter generalization of the Renyi entropy, and hence provide their information theoretic interpretation. We have also considered the case of uncertain source distribution and derived the non-extensive moment bounds for the corresponding mismatched guessing function. These mismatched bounds are interestingly seen to be linked with an important robust statistical divergence family known as the relative (α,β)(\alpha,\beta)-entropies; similar link is discussed between the optimum mismatched guessing with the extremes of these relative entropy measures.

Keywords

Cite

@article{arxiv.1905.07729,
  title  = {Optimal Guessing under Nonextensive Framework and associated Moment Bounds},
  author = {Abhik Ghosh},
  journal= {arXiv preprint arXiv:1905.07729},
  year   = {2019}
}

Comments

Pre-print, Under review

R2 v1 2026-06-23T09:11:58.504Z