A Fully Pipelined FPGA Architecture for Multiscale BRISK Descriptors With a Novel Hardware-Aware Sampling Pattern

IF 3.1 2区工程技术 Q2 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Transactions on Very Large Scale Integration (VLSI) Systems Pub Date : 2022-03-02 DOI:10.1109/TVLSI.2022.3151896

Sina Ghaffari;David W. Capson;Kin Fun Li

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引用次数: 2

Abstract

Binary descriptors have been shown to be faster than nonbinary descriptors while producing comparable results in image matching applications. In recent years, there have been many attempts to design hardware accelerators for extraction of binary descriptors to achieve higher processing rates. One of the well-known methods is the binary robust invariant scalable key point (BRISK) algorithm, which has shown outstanding results in various applications. In this work, we propose a multiscale field-programmable gate array (FPGA)-based hardware architecture for the BRISK descriptor. In addition, a new image sampling pattern for the BRISK algorithm is described which is shown to be more efficient than the original sampling pattern for hardware implementation. Our new sampling pattern decreases the size of the patches containing the key point to one-quarter of the size of that used in the original BRISK algorithm, which leads to a reduction in FPGA resource utilization while maintaining the accuracy of the image matching application. Our proposed design is fully pipelined and achieves a frame rate of 78 fps on images with full HD resolution.

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基于硬件感知采样模式的多尺度轻快描述符全流水线FPGA结构

二进制描述符已被证明比非二进制描述符更快，同时在图像匹配应用程序中产生可比较的结果。近年来，为了实现更高的处理速率，人们尝试设计用于二进制描述符提取的硬件加速器。其中最著名的一种方法是二元鲁棒不变量可扩展关键点(BRISK)算法，该算法在各种应用中都取得了显著的效果。在这项工作中，我们为BRISK描述符提出了一种基于多尺度现场可编程门阵列(FPGA)的硬件架构。此外，还描述了一种新的图像采样模式，该模式在硬件实现上比原来的采样模式更有效。我们的新采样模式将包含关键点的补丁的大小减小到原始BRISK算法中使用的大小的四分之一，这导致FPGA资源利用率降低，同时保持图像匹配应用程序的准确性。我们提出的设计是完全流水线的，在全高清分辨率的图像上实现了78帧/秒的帧率。

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来源期刊

IEEE Transactions on Very Large Scale Integration (VLSI) Systems 工程技术-工程：电子与电气

CiteScore

6.40

自引率

7.10%

发文量

187

审稿时长

3.6 months

期刊介绍： The IEEE Transactions on VLSI Systems is published as a monthly journal under the co-sponsorship of the IEEE Circuits and Systems Society, the IEEE Computer Society, and the IEEE Solid-State Circuits Society. Design and realization of microelectronic systems using VLSI/ULSI technologies require close collaboration among scientists and engineers in the fields of systems architecture, logic and circuit design, chips and wafer fabrication, packaging, testing and systems applications. Generation of specifications, design and verification must be performed at all abstraction levels, including the system, register-transfer, logic, circuit, transistor and process levels. To address this critical area through a common forum, the IEEE Transactions on VLSI Systems have been founded. The editorial board, consisting of international experts, invites original papers which emphasize and merit the novel systems integration aspects of microelectronic systems including interactions among systems design and partitioning, logic and memory design, digital and analog circuit design, layout synthesis, CAD tools, chips and wafer fabrication, testing and packaging, and systems level qualification. Thus, the coverage of these Transactions will focus on VLSI/ULSI microelectronic systems integration.