Title :
Reconstruction of irregularly sampled discrete-time bandlimited signals with unknown sampling locations
Author :
Marziliano, Pina ; Vetterli, Martin
Author_Institution :
Commun. Syst. Dept., Swiss Fed. Inst. of Technol., Lausanne, Switzerland
fDate :
12/1/2000 12:00:00 AM
Abstract :
The purpose of this paper is to develop methods that can reconstruct a bandlimited discrete-time signal from an irregular set of samples at unknown locations. We define a solution to the problem using first a geometric and then an algebraic point of view. We find the locations of the irregular set of samples by treating the problem as a combinatorial optimization problem. We employ an exhaustive method and two descent methods: the random search and cyclic coordinate methods. The numerical simulations were made on three types of irregular sets of locations: random sets; sets with jitter around a uniform set; and periodic nonuniform sets. Furthermore, for the periodic nonuniform set of locations, we develop a fast scheme that reduces the computational complexity of the problem by exploiting the periodic nonuniform structure of the sample locations in the DFT.
Keywords :
bandlimited signals; computational complexity; discrete Fourier transforms; jitter; optimisation; set theory; signal reconstruction; signal sampling; DFT; algebra; combinatorial optimization problem; computational complexity reduction; cyclic coordinate method; descent methods; exhaustive method; geometry; irregular sets; irregularly sampled discrete-time bandlimited signals; jitter; numerical simulations; periodic nonuniform sets; periodic nonuniform structure; random search method; random sets; sample locations; signal reconstruction; signal samples; uniform set; unknown sampling locations; Communication systems; Computational complexity; Context; Helium; Jitter; Numerical simulation; Periodic structures; Sampling methods; Search methods; Two dimensional displays;
Journal_Title :
Signal Processing, IEEE Transactions on
