Abstract

Compressive sensing is a new methodology to capture signals at sub-Nyquist rate. To guarantee exact recovery from compressed measurements, one should choose specific matrix, which satisfies the Restricted Isometry Property (RIP), to implement the sensing procedure. In this letter, we propose to construct the sensing matrix with chaotic sequence following a trivial method and prove that with overwhelming probability, the RIP of this kind of matrix is guaranteed. Meanwhile, its experimental comparisons with Gaussian random matrix, Bernoulli random matrix and sparse matrix are carried out and show that the performances among these sensing matrix are almost equal.

Full Text

Submitted Version (Free)

Published Version

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
The characteristic of different chaotic sequences for Compressive Sensing
Guoming Chen ... Duanning Zhou
-
Guoming Chen, et. al.Guoming Chen ... Duanning Zhou
01 Oct 2012
Toeplitz-structured Chaotic Sensing Matrix for Compressive Sensing
Lei Yu ... Gang Zheng
-
Lei Yu, et. al. Lei Yu ... Gang Zheng
01 Jul 2010
Data Adaptive Compressed Sensing using deep neural network for Image recognition
Ronak Gupta ... Santanu Chaudhury
-
Ronak Gupta, et. al.Ronak Gupta ... Santanu Chaudhury
01 Feb 2020
Restricted Isometry Property on Banded Block Toeplitz Matrices with Application to Multi-Channel Convolutive Source Separation
Hoda Dehghan ... Richard M Dansereau
IEEE Transactions on Signal Processing | VOL. 63
Hoda Dehghan, et. al.Hoda Dehghan ... Richard M Dansereau
01 Nov 2015
View more papers

More From: IEEE Signal Processing Letters

Paper Title
Journal
Date
Author
Polyp-DAM: Polyp Segmentation via Depth Anything Model
Zhuoran Zheng ... Xiuyi Jia
IEEE Signal Processing Letters | VOL. 31
Zhuoran Zheng, et. al.Zhuoran Zheng ... Xiuyi Jia
01 Jan 2024
An Attention-Based Time-Frequency Pyramid Pooling Strategy in Deep Convolutional Networks for Acoustic Scene Classification
Pengxu Jiang ... Cairong Zou
IEEE Signal Processing Letters | VOL. 31
Pengxu Jiang, et. al.Pengxu Jiang ... Cairong Zou
01 Jan 2024
On the Optimality of Inverse Gaussian Approximation for Lognormal Channel Models
Taoshen Li ... Zhenrong Zhang
IEEE Signal Processing Letters | VOL. 31
Taoshen Li, et. al.Taoshen Li ... Zhenrong Zhang
01 Jan 2024
IIFC-Net: A Monaural Speech Enhancement Network With High-Order Information Interaction and Feature Calibration
Wenbing Wei ... Ying Hu
IEEE Signal Processing Letters | VOL. 31
Wenbing Wei, et. al.Wenbing Wei ... Ying Hu
01 Jan 2024
View more papers

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.