Your search keyword '"Laddomada, M"' showing total 3 results

1. Design of two-stage nonrecursive rotated comb decimation filters with droop compensation and multiplierless architecture.

Author

Jovanovic Dolecek, G. and Laddomada, M.

Subjects

*DIGITAL signal processing, *DATA conversion, *COMPUTATIONAL complexity, *GENERALIZATION, *INFORMATION filtering systems

Abstract

This paper proposes a class of decimation filters with reduced passband signal distortion and improved spurious signal rejection across the folding bands. These filters are well-suited to decimation of oversampled digital signals processed by wideband digital receivers and Σ Δ AD converters. The total decimation factor is split between two stages of decimation and zero rotation in a nonrecursive form is applied at the lower rate in order to reduce the computational complexity of the proposed filters. We also address a framework to implement multiplierless filters and to compensate for the passband droop introduced by this class of filters. For increased flexibility, we generalize the transfer function by allowing different orders between the two stages of decimation. The paper presents many examples to clearly describe the design procedure. Comparisons are also given with the goal of contrasting the magnitude responses of the proposed filters with the ones of three other techniques recently proposed in the literature, as well as with classical comb filters. [ABSTRACT FROM AUTHOR]

Published

2015

2. An improved class of multiplierless decimation filters: Analysis and design.

Author

Jovanovic Dolecek, G. and Laddomada, M.

Subjects

*DIGITAL signal processing, *DIGITAL filters (Mathematics), *DISCRETE-time systems, *COMB filters, *SYNCHRONOUS capacitors, *COMPUTATIONAL complexity, *SOFTWARE radio

Abstract

Abstract: In this paper, we present a class of low-complexity decimation filters for oversampled discrete-time signals. The proposed class of filters improves the frequency response of classical comb filters in two respects. First, it introduces extra-attenuation around the so-called folding bands, i.e., frequency intervals whose spurious signals are folded down to baseband during the decimation process. Second, this class reduces the passband distortion via an effective droop-compensator block, thus increasing the passband of the decimation filters. Like comb filters, the proposed class can be realized through multiplierless architectures, which are also discussed thoroughly in the paper. Unlike comb filters, the proposed filters have superior spurious signal rejection and a greatly reduced droop in the signal passband. These features make the proposed filters suitable for multistage decimation applications, such as reconfigurable software radio receivers, as well as for decimating oversampled digital signals produced by ΣΔ A/D converters. The paper discusses several useful techniques for designing the proposed filters in a variety of architectures with emphasis on non-recursive architectures. Design examples are discussed to highlight the key frequency features along with implementation issues aimed at reducing the computational complexity of the filters. [Copyright &y& Elsevier]

Published

2013

3. Editorial: Advanced techniques on multirate signal processing for digital information processing.

Author

Laddomada, M., Dolecek, G.J., Yong Ching, L., Fa-Long Luo, Renfors, M., and Wanhammar, L.

Subjects

DIGITAL signal processing, INFORMATION processing, EDITORIALS, RADIO transmitter-receivers, DIGITAL electronics, TELECOMMUNICATION satellites, WIRELESS communications, MULTIMEDIA communications

Published

2011