VLSI Implementation of an Adaptive Block Partition Decision Object-Detection Design for Real-Time 4K2K Video Display

Q Engineering

Journal of Display Technology Pub Date : 2016-09-20 DOI:10.1109/JDT.2016.2611617

Shih-Lun Chen;Min-Chun Tuan

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引用次数: 2

Abstract

In this paper, an adaptive block partition decision methodology is presented for very large-scale integration (VLSI) implementation of object-detection for real-time ultrahigh-definition (4K2K) resolution video displaying. The proposed adaptive block partition decision algorithm includes a data controller, a gray-level generator, a subblock difference module, and an edge detector. The edge detector is designed for discovering edges in images using an efficient edge-catching technique. An adaptive block partition decision technique was added to enhance the shapes of objects and to decrease the edge distortion effects. Furthermore, a threshold constraint is used to set parameters for different sizes of blocks. A statistic methodology of object detection is also used to determine whether it is necessary to trigger an alert signal or not. The VLSI architecture of the proposed design contains 6.99-K gate counts. Its power consumption is 1.63 mW and its operating frequency is to 374.5 MHz by using a 90-nm CMOS technology. Compared with previous designs, the proposed design not only achieves reduction of more silicon area, but also increases the processing throughput, and accuracy of object-detection for real-time video display.

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实时4K2K视频显示器自适应块划分决策目标检测设计的VLSI实现

本文提出了一种自适应块划分决策方法，用于超大规模集成电路（VLSI）实现实时超高清（4K2K）分辨率视频显示的目标检测。所提出的自适应块划分决策算法包括数据控制器、灰度生成器、子块差分模块和边缘检测器。边缘检测器设计用于使用有效的边缘捕获技术来发现图像中的边缘。添加了一种自适应块分割决策技术，以增强对象的形状并减少边缘失真的影响。此外，阈值约束用于为不同大小的块设置参数。对象检测的统计方法也用于确定是否有必要触发警报信号。所提出的设计的超大规模集成电路结构包含6.99-K的门计数。采用90nm CMOS技术，功耗为1.63mW，工作频率为374.5MHz。与以前的设计相比，该设计不仅减少了更多的硅面积，而且提高了实时视频显示的处理吞吐量和目标检测精度。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Display Technology 工程技术-工程：电子与电气

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

2.8 months

期刊介绍： This publication covers the theory, material, design, fabrication, manufacturing and application of information displays and aspects of display technology that emphasize the progress in device engineering, design and simulation, materials, electronics, physics, and reliability aspects of displays and the application of displays. The Journal is sponsored by EDS, seven other IEEE societies (BT, CES, CPMT, IA, IM, PHO and SSC) and the Optical Society of America (OSA).