基于深度学习的物体检测与跟踪系统的设计与实现

IF 2.2 3区 工程技术 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE
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引用次数: 0

摘要

许多利用深度学习进行人体跟踪的方法都依赖于强大的计算资源。对于资源有限的嵌入式平台来说,有效利用资源是当务之急。本文设计了一种基于深度学习方法的物体检测和跟踪系统。我们通过软件和硬件设计提出了一个高效的系统。我们采用硬件/软件协同设计方法,应用了 Vitis AI 框架及其深度学习处理单元。这种方法利用了更高级别的加速设计框架,卷积模型可以更灵活、更快速地更新。这种设计方法不仅提供了快速的设计流程,而且在吞吐量方面具有良好的性能。我们促进了对象检测模型 YOLO v3 的设计和加速,以实现更高的吞吐量和能效。我们的跟踪方法在增加了单目标跟踪器后,处理速度提高了 1.27 倍。在相同的测试序列下,我们提出的人体跟踪方法在精度上比其他方法取得了更好的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and implementation of deep learning-based object detection and tracking system

Many human tracking methods by deep learning rely on powerful computing resources. For embedded platforms with limited resources, efficient use of resources is a priority. In this paper, we design an object detection and tracking system based on deep learning methods. We propose an efficient system with software and hardware design. We apply the framework of Vitis AI and its Deep Learning Processing Unit using a hardware/software co-design approach. This approach capitalizes on a higher-level acceleration design framework, where the convolutional models can be updated more flexibly and rapidly. This design approach not only provides a fast design flow but also has good performance in terms of throughput. We facilitate the design and accelerate the object detection model YOLO v3 to achieve higher throughput and energy efficiency. Our tracking method achieves a 1.27x improvement in processing speed with the addition of a single-object tracker. Our proposed human tracking methods can achieve better performance than the others in precision with the same test sequences.

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来源期刊
Integration-The Vlsi Journal
Integration-The Vlsi Journal 工程技术-工程:电子与电气
CiteScore
3.80
自引率
5.30%
发文量
107
审稿时长
6 months
期刊介绍: Integration''s aim is to cover every aspect of the VLSI area, with an emphasis on cross-fertilization between various fields of science, and the design, verification, test and applications of integrated circuits and systems, as well as closely related topics in process and device technologies. Individual issues will feature peer-reviewed tutorials and articles as well as reviews of recent publications. The intended coverage of the journal can be assessed by examining the following (non-exclusive) list of topics: Specification methods and languages; Analog/Digital Integrated Circuits and Systems; VLSI architectures; Algorithms, methods and tools for modeling, simulation, synthesis and verification of integrated circuits and systems of any complexity; Embedded systems; High-level synthesis for VLSI systems; Logic synthesis and finite automata; Testing, design-for-test and test generation algorithms; Physical design; Formal verification; Algorithms implemented in VLSI systems; Systems engineering; Heterogeneous systems.
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