Dynamics of non-stationary processes that follow the maximum of the Rényi entropy principle

Dmitry S Shalymov; Alexander L Fradkov

doi:10.1098/rspa.2015.0324

Dynamics of non-stationary processes that follow the maximum of the Rényi entropy principle

Proc Math Phys Eng Sci. 2016 Jan;472(2185):20150324. doi: 10.1098/rspa.2015.0324.

Authors

Dmitry S Shalymov¹, Alexander L Fradkov²

Affiliations

¹ Mathematics and Mechanics Faculty, St Petersburg State University , St Petersburg, Russia.
² Mathematics and Mechanics Faculty, St Petersburg State University, St Petersburg, Russia; The Laboratory 'Control of Complex Systems', Institute of Problems of Mechanical Engineering RAS, St Petersburg, Russia.

Abstract

We propose dynamics equations which describe the behaviour of non-stationary processes that follow the maximum Rényi entropy principle. The equations are derived on the basis of the speed-gradient principle originated in the control theory. The maximum of the Rényi entropy principle is analysed for discrete and continuous cases, and both a discrete random variable and probability density function (PDF) are used. We consider mass conservation and energy conservation constraints and demonstrate the uniqueness of the limit distribution and asymptotic convergence of the PDF for both cases. The coincidence of the limit distribution of the proposed equations with the Rényi distribution is examined.

Keywords: Rényi distribution; Rényi entropy; maximum entropy principle; speed-gradient principle.