Noise degradation system using Wiener filter and CORDIC based FFT/IFFT processor 被引量：2

Noise degradation system using Wiener filter and CORDIC based FFT/IFFT processor

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摘要 On augmentation of past work, an effective Wiener filter and its application for noise suppression combined with a formed CORDIC based FFT/IFFT processor with improved speed were executed. The pipelined methodology was embraced for expanding the execution of the system. The proposed Wiener filter was planned in such an approach to evacuate the iteration issues in ordinary Wiener filter. The division process was supplanted by a productive inverse and multiplication process in the proposed design. An enhanced design for matrix inverse with reduced computation complexity was executed. The wide-ranging framework processing was focused around IEEE-754 standard single precision floating point numbers. The Wiener filter and the entire system design was integrated and actualized on VIRTEX 5 FPGA stage and re-enacted to approve the results in Xilinx ISE 13.4. The results show that a productive decrease in power and area is developed by adjusting the proposed technique for speech signal noise degradation with latency of n/2 clock cycles and substantial throughput result per every 12 clock cycles for n-bit precision. The execution of proposed design is exposed to be 31.35% more effective than that of prevailing strategies. On augmentation of past work, an effective Wiener filter and its application for noise suppression combined with a formed CORDIC based FFT/IFFT processor with improved speed were executed. The pipelined methodology was embraced for expanding the execution of the system. The proposed Wiener filter was planned in such an approach to evacuate the iteration issues in ordinary Wiener filter. The division process was supplanted by a productive inverse and multiplication process in the proposed design. An enhanced design for matrix inverse with reduced computation complexity was executed. The wide-ranging framework processing was focused around IEEE-754 standard single precision floating point numbers. The Wiener filter and the entire system design was integrated and actualized on VIRTEX 5 FPGA stage and re-enacted to approve the results in Xilinx ISE 13.4. The results show that a productive decrease in power and area is developed by adjusting the proposed technique for speech signal noise degradation with latency of n/2 clock cycles and substantial throughput result per every 12 clock cycles for n-bit precision. The execution of proposed design is exposed to be 31.35% more effective than that of prevailing strategies.

作者 Yasodai A Ramprasad A V

机构地区 Department of Electronics and Communication Engineering Department of Electronics and Communication Engineering

出处《Journal of Central South University》 SCIE EI CAS CSCD 2015年第10期3849-3859,共11页 中南大学学报（英文版）

关键词 Wiener filter ITERATIONS power spectrum FFT/IFFT floating point noise suppression speech enhancement VLSI speed power area CORDIC算法维纳滤波器 FFT处理器退化系统噪声抑制 Virtex Xilinx 生产过程

分类号 TP332 [自动化与计算机技术—计算机系统结构] TN713 [电子电信—电路与系统] TB535 [理学—声学]

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Journal of Central South University

2015年第10期

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Noise degradation system using Wiener filter and CORDIC based FFT/IFFT processor 被引量：2

参考文献31

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