Zhoujuan Cui, Changlong Chen, Junshe An, Tianshu Cui
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引用次数: 0
摘要
针对传统视觉跟踪系统结构复杂、实时性差的问题,设计了一种基于PYNQ (Python productivity for Zynq)框架的方案,并在Zynq异构平台上进行了部署。首先,根据实时性要求,选择与核相关的滤波跟踪算法;然后,根据Zynq计算平台的特点,采用软硬件协同设计方法对系统任务进行划分,并通过HLS (High Level Synthesis)开发工具将算法转换为RTL (Register Transfer Level),进行计算。该流程被优化并导出为IP核。然后,使用Python在顶层导入IP核作为硬件协处理器,以实现底层到顶层的数据交互。最后,系统结果在Jupyter笔记本中异步更新。实验表明,该系统具有良好的实时性,平均跟踪速度为27.9FPS。同时具有优越的执行效率,易于开发和移植,具有一定的工程参考价值。
Heterogeneous tracking system of kernel correlation filtering based on PYNQ framework
Aiming at the complex structure and weak real-time performance of traditional visual tracking system, a scheme based on PYNQ (Python productivity for Zynq) framework is designed and deployed in Zynq heterogeneous platform. Firstly, according to the real-time requirements, the kernel-related filter tracking algorithm is selected. Then, according to the characteristics of the Zynq computing platform, the software and hardware collaborative design method is used to divide the system tasks, and the algorithm is converted into RTL (Register Transfer Level) by HLS (High Level Synthesis) development tools, and the calculation is performed. The process is optimized and exported as an IP core. Then, Python is used to import the IP core as a hardware coprocessor at the top level to implement the underlying to top-level data interaction. Finally, the system result is asynchronously updated in the Jupyter notebook. Experiments show that the system has good real-time performance, and the tracking speed averages 27.9FPS. At the same time, it has superior execution efficiency, is easy to develop and transplant, and has certain engineering reference value.
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