Title :
Approximation error of shifted signals in spline spaces
Author_Institution :
Design Center Dusseldorf, Germany
fDate :
4/1/2004 12:00:00 AM
Abstract :
Spline signal spaces offer several advantages for the representation of signals compared with the more traditional signal spaces of bandlimited signals. Among them are the finite support of B-splines, simple manipulations like differentiation and integration, etc. A major disadvantage, however, is that spline signal spaces are not closed under signal shifts. In order to assess the approximation error introduced by shifting a spline signal, the approximation error norm and its average are evaluated. Furthermore, an upper bound on the expected normalized approximation error is derived using Reid´s inequality.
Keywords :
approximation theory; differentiation; error analysis; integration; signal representation; splines (mathematics); B-splines; Reid inequality; approximation error norm; differentiation; digital signal processing; integration; shift invariance; shifted signals; spline signal spaces; translation invariance; Approximation error; Convolution; Helium; Hilbert space; Signal processing; Signal representations; Signal sampling; Space technology; Spline; Upper bound;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2004.823501
