Your search keyword '"dechirping transformation"' showing total 2 results

1. Linear Frequency Modulated Reverberation Suppression Using Non-Negative Matrix Factorization Methods, Dechirping Transformation and Modulo Operation

Author

Geunhwan Kim, Kyunkyung Lee, and Seokjin Lee

Subjects

Active sonar, dechirping transformation, modulo operation, non-negative matrix factorization, reverberation suppression, sparse constraints, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In this study, we propose a reverberation suppression algorithm for linear frequency-modulated (LFM) pulse sonar systems using a non-negative matrix factorization (NMF) method. Because conventional NMF-based reverberation suppression algorithms are only applicable to continuous wave reverberation, we propose two pre-processing methods, namely dechirping transformation and modulo operation, to facilitate application of the NMF method to LFM reverberation. Moreover, we impose additional sparse constraints on the NMF method to improve its performance. To evaluate the proposed algorithm, an experiment involving simulated LFM reverberation is performed. The results thereof show improved detection performance at several signal-to-reverberation ratios and false alarm conditions. Moreover, the proposed algorithm is also applied to sea experiment data. According to the sea experiment analysis, the algorithm is able to suppress the LFM reverberation effectively and improve detection performance in practical LFM pulse sonar systems.

Published

2020

2. Linear Frequency Modulated Reverberation Suppression Using Non-Negative Matrix Factorization Methods, Dechirping Transformation and Modulo Operation

Author

Seokjin Lee, Geunhwan Kim, and Kyun-Kyung Lee

Subjects

Reverberation, Modulo operation, General Computer Science, Computer science, General Engineering, Active sonar, Sonar, reverberation suppression, sparse constraints, Non-negative matrix factorization, Pulse (physics), Matrix decomposition, non-negative matrix factorization, dechirping transformation, Transformation (function), General Materials Science, False alarm, lcsh:Electrical engineering. Electronics. Nuclear engineering, modulo operation, Algorithm, lcsh:TK1-9971

Abstract

In this study, we propose a reverberation suppression algorithm for linear frequency-modulated (LFM) pulse sonar systems using a non-negative matrix factorization (NMF) method. Because conventional NMF-based reverberation suppression algorithms are only applicable to continuous wave reverberation, we propose two pre-processing methods, namely dechirping transformation and modulo operation, to facilitate application of the NMF method to LFM reverberation. Moreover, we impose additional sparse constraints on the NMF method to improve its performance. To evaluate the proposed algorithm, an experiment involving simulated LFM reverberation is performed. The results thereof show improved detection performance at several signal-to-reverberation ratios and false alarm conditions. Moreover, the proposed algorithm is also applied to sea experiment data. According to the sea experiment analysis, the algorithm is able to suppress the LFM reverberation effectively and improve detection performance in practical LFM pulse sonar systems.

Published

2020