多波束二维IIR宽带波束形成的光栅扫描波-数字滤波器结构

2010 International Conference on Microelectronics Pub Date : 2010-12-01 DOI:10.1109/ICM.2010.5696086

N. Rajapaksha, C. Wijenayake, A. Madanayake, L. Bruton

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引用次数: 3

摘要

二维(2D)波束滤波器在时空平面波(PWs)的高选择性定向增强中得到应用。提出了一种基于二维lr阶梯原型网络的二维光栅扫描(RS)波数滤波器硬件结构，该结构采用均匀线性阵列传感器，可获得选择性可调的M独立可操纵宽带波束。提供了基于FPGA的2,3波束原型，支持多达32个宽带传感器，以及测量结果，FPGA资源消耗和各种定点精度下的最大速度。m波束二维IIR波束WDF架构的片上验证可在定向音频、多媒体、地震和超声波信号处理等应用中实现多波束形成。

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Raster-scanned wave-digital filter architectures for multi-beam 2D IIR broadband beamforming

Two-dimensional (2D) beam filters find applications in highly-selective directional enhancement of spatio-temporal (ST) plane-waves (PWs). A 2D raster-scanned (RS) wave-digital filter (WDF) hardware architecture, using a uniform linear array (ULA) of sensors, based on a 2D LR-ladder prototype network is proposed for obtaining M independently-steerable broadband beams having adjustable selectivity. FPGA-based prototypes for 2,3 beams supporting upto 32 broadband sensors are as well as measured results, FPGA resource consumptions, and maximum speeds at various fixed-point precisions, are provided. On-chip verification of the M-beam 2D IIR beam WDF architecture leads to multi-beamforming in applications such as directional audio, multimedia, seismic, and ultrasonic signal processing.

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2010 International Conference on Microelectronics

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