Sampling based on timing: Time encoding machines on shift-invariant subspaces

David Gontier; Martin Vetterli

doi:10.1016/j.acha.2013.02.002

Sampling based on timing: Time encoding machines on shift-invariant subspaces

David Gontier
, Martin Vetterli

ENAC-IIC-GEL

Research output: Contribution to journal › Article › peer-review

Abstract

Sampling information using timing is an approach that has received renewed attention in sampling theory. The question is how to map amplitude information into the timing domain. One such encoder, called time encoding machine, was introduced by Lazar and Tóth (2004 [23]) for the special case of band-limited functions. In this paper, we extend their result to a general framework including shift-invariant subspaces. We prove that time encoding machines may be considered as non-uniform sampling devices, where time locations are unknown a priori. Using this fact, we show that perfect representation and reconstruction of a signal with a time encoding machine is possible whenever this device satisfies some density property. We prove that this method is robust under timing quantization, and therefore can lead to the design of simple and energy efficient sampling devices.

Original language	English
Pages (from-to)	63-78
Number of pages	16
Journal	Applied and Computational Harmonic Analysis
Volume	36
Issue number	1
DOIs	https://doi.org/10.1016/j.acha.2013.02.002
Publication status	Published - 1 Jan 2014

Keywords

Integrate-and-fire
Non-uniform sampling
Quantization
Reproducing kernels
Shift-invariant subspaces
Signal representation
Time encoding machine

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10.1016/j.acha.2013.02.002

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title = "Sampling based on timing: Time encoding machines on shift-invariant subspaces",

abstract = "Sampling information using timing is an approach that has received renewed attention in sampling theory. The question is how to map amplitude information into the timing domain. One such encoder, called time encoding machine, was introduced by Lazar and T{\'o}th (2004 [23]) for the special case of band-limited functions. In this paper, we extend their result to a general framework including shift-invariant subspaces. We prove that time encoding machines may be considered as non-uniform sampling devices, where time locations are unknown a priori. Using this fact, we show that perfect representation and reconstruction of a signal with a time encoding machine is possible whenever this device satisfies some density property. We prove that this method is robust under timing quantization, and therefore can lead to the design of simple and energy efficient sampling devices.",

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AU - Vetterli, Martin

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AB - Sampling information using timing is an approach that has received renewed attention in sampling theory. The question is how to map amplitude information into the timing domain. One such encoder, called time encoding machine, was introduced by Lazar and Tóth (2004 [23]) for the special case of band-limited functions. In this paper, we extend their result to a general framework including shift-invariant subspaces. We prove that time encoding machines may be considered as non-uniform sampling devices, where time locations are unknown a priori. Using this fact, we show that perfect representation and reconstruction of a signal with a time encoding machine is possible whenever this device satisfies some density property. We prove that this method is robust under timing quantization, and therefore can lead to the design of simple and energy efficient sampling devices.

KW - Integrate-and-fire

KW - Non-uniform sampling

KW - Quantization

KW - Reproducing kernels

KW - Shift-invariant subspaces

KW - Signal representation

KW - Time encoding machine

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Sampling based on timing: Time encoding machines on shift-invariant subspaces

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Keywords

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