A framework for linear information inequalities

Abstract

We present a framework for information inequalities, namely, inequalities involving only Shannon's information measures, for discrete random variables. A region in IR(2/sup n/-1), denoted by /spl Gamma/*, is identified to be the origin of all information inequalities involving n random variables in the sense that all such inequalities are partial characterizations of /spl Gamma/*. A product from this framework is a simple calculus for verifying all unconstrained and constrained linear information identities and inequalities which can be proved by conventional techniques. These include all information identities and inequalities of such types in the literature. As a consequence of this work, most identities and inequalities involving a definite number of random variables can now be verified by a software called ITIP which is available on the World Wide Web. Our work suggests the possibility of the existence of information inequalities which cannot be proved by conventional techniques. We also point out the relation between /spl Gamma/* and some important problems in probability theory and information theory.