Meaning and Bounds for the Space and Time Uncertainty Contributions

This paper studies the time complexity of solving decision problems in a distributed message-passing system when there is inexact information about time and process failures. A semi-synchronous model is assumed, in which the amount of (real) time between two consecutive steps of a nonfaulty process

The problem of the local stabilization of linear discrete-time systems subject to bounded controls and suffering from uncertainty of the norm-bounded time-varying type is addressed. From the solution of a certain discrete Riccati equation, a control gain and a set of safe initial conditions are obta

In this work, we study the convergence behavior of a recently developed space-time conservation element and solution element method for solving conservation laws. In particular, we apply the method to a onedimensional time-dependent convection-diffusion equation possibly with high Peclet number. We

The complete expressions corresponding to space and time derivatives of Volterra's integral representation of the time-dependent scalar wave equation are presented in this paper. The concept of finite part of an integral is used in order to compute boundary kernels contributions. Time integration of

By modelling the snow accumulation process in time and space as sums of random gamma distributed variables, the mean areal snow water equivalent (SWE) can be estimated. In the methodology we make use of the fact that sums of gamma distributed variables with a certain set of parameters also are gamma

This paper is concerned with Riccati equation based analysis methods for determining stability and performance of perturbed feedback systems. The elements of the state-space representation of the systems are assumed to be linearly perturbed with real, magnitude bounded uncertaintites. Performance is