Dual input radix 23 SDF IFFT/FFT processor for wireless multi-channel real sound speakers using time division duplex scheme

There has been an increased demand for realistic audio services because of the recent developments in multimedia techniques and contents. In addition, the rapid growth in wireless communications has brought about a new era of wireless multimedia applications and services such as the transmission of...

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Veröffentlicht in:	IEEE transactions on consumer electronics 2009-11, Vol.55 (4), p.2323-2328
Hauptverfasser:	Kim, Dong-sun, Lee, Seung-yerl
Format:	Artikel
Sprache:	eng
Schlagworte:	Audio systems Communication system control Communications technology Delay Fast Fourier transforms Feedback FFT/IFFT processor Field programmable gate arrays Fourier transforms Frequency conversion Hardware OFDMA Real audio time division duplex TIR2 3 SDF Wireless communication Wireless communications Wireless networks
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creator	Kim, Dong-sun Lee, Seung-yerl
description	There has been an increased demand for realistic audio services because of the recent developments in multimedia techniques and contents. In addition, the rapid growth in wireless communications has brought about a new era of wireless multimedia applications and services such as the transmission of video, images, and data over wireless broadband access networks. Accordingly, orthogonal frequency division multiple access (OFDMA) modulation technique based on time division duplex (TDD) scheme is an attractive wireless communication technology for high data rate wireless access with multi-channel real sound system. For modulation and de-modulation of the OFDMA, inverse fast Fourier transform (IFFT) and FFT processor are used and these are most energy consuming operation in OFDMA communication systems. In this paper, we proposed a two input radix 2 3 single delay feedback (TIR2 3 SDF) method to simultaneously use the IFFT and FFT in one FFT processor. We also described the architectures and the control signals for the proposed TIR2 3 SDF. The experimental results show that the FFT processor based on proposed TIR2 3 SDF reduce about 43.3% of the hardware complexity in the FPGA implementation.
doi_str_mv	10.1109/TCE.2009.5373805
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subjects	Audio systems Communication system control Communications technology Delay Fast Fourier transforms Feedback FFT/IFFT processor Field programmable gate arrays Fourier transforms Frequency conversion Hardware OFDMA Real audio time division duplex TIR2 3 SDF Wireless communication Wireless communications Wireless networks
title	Dual input radix 23 SDF IFFT/FFT processor for wireless multi-channel real sound speakers using time division duplex scheme
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