T. Adiono, Radhian Ferel Armansyah, Fadhli Dzil Ikram, Swizya Satira Nolika, Rachmad Vidya Wicaksana Putra, A. H. Salman
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引用次数: 5
摘要
在本文中,我们提出了一种基于绝对差和(SAD)并行形态学模板匹配方法的人体检测VLSI设计。它的研究目标是实现小面积消耗和快速计算。该架构设计用于处理原始图像和模板图像,分辨率分别为640×480和40×100像素。在这里,我们提出了两种技术,一种用于SAD计算的滚动索引架构和一种优化的二叉树加法器。对于每个计算窗口,在并行处理中计算源和模板的差值。因此,SAD计算每个时钟周期计算40×100像素。该设计采用Verilog HDL进行编码,并在Altera Cyclone II FPGA上实现。整个处理时间需要307,200个时钟周期。每帧图像需要6.144 ms,帧速度达到每秒162帧(fps)。该设计仅消耗16,689个逻辑元件,包括12,732个组合函数和4,460个专用逻辑寄存器。
Parallel morphological template matching design for efficient human detection application
In this paper, we present a VLSI design of human detection using Sum of Absolute Difference (SAD) based parallel morphological template matching method. Its research targets are to achieve small area consumption yet with fast computation. The architecture is designed to process original and its template images with resolution of 640×480 and 40×100 pixels respectively. Here, we propose two techniques, a rolling-index architecture for SAD computation and an optimized binary tree adder. For every calculation window, the difference between source and template is calculated in parallel processing. Hence, the SAD calculation computes 40×100 pixels per clock cycle. The proposed design is coded using Verilog HDL and implemented in Altera Cyclone II FPGA. The full processing time needs 307,200 clock cycles. Each image frame needs 6.144 ms and the frame speed reaches 162 frame-per-second (fps) for video application. This proposed design only consumes 16,689 logic elements, comprising 12,732 combinational functions and 4,460 dedicated logic registers.
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