Design of an Optimized Twin Mode Reconfigurable Adaptive FIR Filter Architecture for Speech Signal Processing

IF 0.6 4区 工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
S. Padmapriya
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引用次数: 1

Abstract

Reconfigurability, low complexity and low power are the key requirements of FIR filters employed in multi-standard wireless communication systems. Digital Filters are used to filter the audio data stream and increase the reliability of speech signal. Therefore, it is imperative to design an area optimized and low power based reconfigurable FIR filter architectures. The reconfigurable architecture designed in this research is capable of achieving lower adaptation-delay and area-delay-power efficient implementation of a Delayed Least Mean Square (DLMS) adaptive filter with reversible logic gates. The Optimized Adaptive Reconfigurable Adaptive Reconfigurable (OAR) FIR filter architectures are proposed. The optimized architectures are implemented across the combinational blocks by reducing the pipeline delays, sampling period, energy consumption and area, to increase the Power-Delay Product (PDP) and Energy Per Sample (EPS).The noisy speech signals are used for verifying the efficiency of the proposed architectures. The efficiency of the architecture is verified by implementing the proposed scheme in signal corrupted by various real-time noises at different Signal to Noise Ratios (SNRs).
一种用于语音信号处理的优化双模可重构自适应FIR滤波器结构设计
可重构性、低复杂度和低功耗是FIR滤波器应用于多标准无线通信系统的关键要求。数字滤波器用于对音频数据流进行滤波,提高语音信号的可靠性。因此,设计一种基于面积优化和低功耗的可重构FIR滤波器结构势在必行。本研究设计的可重构架构能够实现具有可逆逻辑门的延迟最小均方(DLMS)自适应滤波器的低自适应延迟和区域延迟功耗效率。提出了一种优化的自适应可重构FIR滤波器结构。优化的架构通过减少管道延迟、采样周期、能耗和面积来实现跨组合块,从而提高功率延迟积(PDP)和每样本能量(EPS)。用噪声语音信号验证了所提结构的有效性。通过在不同信噪比下被各种实时噪声破坏的信号中实现该方案,验证了该体系结构的有效性。
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来源期刊
CiteScore
1.80
自引率
0.00%
发文量
10
审稿时长
>12 weeks
期刊介绍: Informacije MIDEM publishes original research papers in the fields of microelectronics, electronic components and materials. Review papers are published upon invitation only. Scientific novelty and potential interest for a wider spectrum of readers is desired. Authors are encouraged to provide as much detail as possible for others to be able to replicate their results. Therefore, there is no page limit, provided that the text is concise and comprehensive, and any data that does not fit within a classical manuscript can be added as supplementary material. Topics of interest include: Microelectronics, Semiconductor devices, Nanotechnology, Electronic circuits and devices, Electronic sensors and actuators, Microelectromechanical systems (MEMS), Medical electronics, Bioelectronics, Power electronics, Embedded system electronics, System control electronics, Signal processing, Microwave and millimetre-wave techniques, Wireless and optical communications, Antenna technology, Optoelectronics, Photovoltaics, Ceramic materials for electronic devices, Thick and thin film materials for electronic devices.
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