The correlation problem in sensor fusion in a possibilistic framework

This paper studies the problem of sensor noise in dithered adaptive systems. It has been previously demonstrated that dithered adaptive systems may have superior sensitivity reduction properties than linear time invariant (LTI) feedback systems. However it is shown in this paper that the dithered de

The general characteristics of two-body density functionals TBDF are explored and two new correlation energy functionals are derived using the correlation factor approach. The optimization of the parameters entering the above functionals requires exact and accurate Ž . atomic correlation energies AC

General system partitioning in the many-electron correlation problem for atomic and molecular systems is addressed within the spinshift formalism. The conventional method of the unitary group subduction coefficient expansion is reconsidered in the latter framework and an orbital-level factorization

The superconductivity of the conducting CuO 2 plane of the layered cuprates is considered in the framework of a two-dimensional (2D) tight-binding model which contains O2 p σ and Cu3d x 2 -y 2 states. Besides the standard LCAO amplitudes the correlated hopping between O2 p σ and Cu3d x 2 -y 2 orbita

Euclidean quantum field theory and statistical mechanical models are considered which have been analyzed using renormalization group methods generating inductively a sequence of effective actions. We present a simple method for obtaining correlation functions directly from the effective actions. We