Digital filter bank implementation and signal classification on the basis of CUDA

Author

Klionskiy, D.M. ; Kaplun, D.I. ; Voznesenskiy, A.S. ; Gulvanskiy, V.V. ; Kupriyanov, M.S.

Author_Institution

Comput. Sci. Dept., St. Petersburg Electrotech. Univ., St. Petersburg, Russia

fYear

2015

fDate

2-4 Feb. 2015

Firstpage

93

Lastpage

97

Abstract

The present paper discusses radio monitoring tasks and their solution using DFT-modulated filter banks. Filter bank software-hardware implementations are studied on the basis of Central Processing Unit (CPU) and Compute Unified Device Architecture (CUDA) with the use of Graphics Processing Unit (GPU). It is shown that CUDA technology is efficient for processing large datasets and outperforms computational results on CPU. The paper also considers signal classification in real time for different signal-to-noise ratios using a binary tree together with the iterative AdaBoost technique. Experiments show that it is possible to reach the total classification error of 10% for signals handled in radio monitoring tasks.

Keywords

channel bank filters; digital filters; discrete Fourier transforms; graphics processing units; iterative methods; learning (artificial intelligence); parallel architectures; real-time systems; signal classification; CPU; CUDA technology; DFT-modulated filter banks; GPU; binary tree; central processing unit; compute unified device architecture; digital filter bank implementation; graphics processing unit; iterative AdaBoost technique; radio monitoring tasks; real time; signal classification; signal-to-noise ratios; software-hardware implementations; Algorithm design and analysis; Biomedical monitoring; Graphics processing units; Monitoring; Random access memory; AdaBoost; CUDA; binary tree; digital filter bank; radio monitoring; signal classification; software-hardware implementation;

fLanguage

English

Publisher

ieee

Conference_Titel

Young Researchers in Electrical and Electronic Engineering Conference (EIConRusNW), 2015 IEEE NW Russia

Conference_Location

St. Petersburg

Print_ISBN

978-1-4799-7305-7

Type

conf

DOI

10.1109/EIConRusNW.2015.7102239

Filename

7102239