Title :
Recursive estimation algorithm for l1-norm approximation in dynamic systems with nonoptimality levels
Author :
Akimov, Pavel ; Matasov, Alexander
Author_Institution :
Fac. of Mech. & Math., Lomonosov Moscow State Univ., Moscow, Russia
Abstract :
State estimation problem for a linear discrete dynamic system is considered. Some components of the state vector can abruptly change under the influence of rare uncontrolled input pulses in the right-hand side of equations. In this case, l1-norm approximation (least absolute deviations method) gives better results than the standard l2-norm approximation (least squares method). A recursive estimation algorithm for finding l1-norm approximation in case of large amount of measurements is presented. To make numerical procedure more reliable, a nonoptimality level for current iteration is constructed. An example from inertial navigation verifies the effectiveness of proposed approach.
Keywords :
approximation theory; discrete systems; iterative methods; linear systems; state estimation; inertial navigation; iteration nonoptimality level; l1-norm approximation; l2-norm approximation; least absolute deviations method; least squares method; linear discrete dynamic system; nonoptimality levels; numerical procedure; recursive estimation algorithm; state estimation problem; state vector; Accelerometers; Approximation algorithms; Heuristic algorithms; Least squares approximations; Noise; Vectors;
Conference_Titel :
Control Conference (ECC), 2013 European
Conference_Location :
Zurich
