A 1000 fps Spiking Neural Network Tracking Algorithm for On-Chip Processing of Dynamic Vision Sensor Data

2022 IEEE International Conference on Integrated Circuits, Technologies and Applications (ICTA) Pub Date : 2022-10-28 DOI:10.1109/ICTA56932.2022.9962968

Chi Zhang, Lei Kang, Xu Yang, Guanghao Guo, P. Feng, Shuangming Yu, Liyuan Liu

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引用次数: 1

Abstract

Dynamic vision sensor (DVS), an event-based camera, has attracted significant attention due to its unique characteristics. Unlike frame-based cameras, the data format of DVS makes it difficult for traditional algorithms to process it directly. On the other hand, as a new type of brain-like neural network, the spiking neural network is specially used to process spiking data, and it is well suited for this type of event-based camera. In addition, because of the rapid development of neuromorphic hardware in recent years, it is possible to deploy SNN applications on edge-side system-on-chip. Therefore, based on the characteristics of dynamic vision sensors, this paper designs a spike encoding module and an SNN for processing sensor information. We use selective search to accomplish object tracking by classifying targets and backgrounds. The SNN can achieve 98.66% classification accuracy on our synthetic test dataset, and the tracking algorithm can achieve over 1000 fps after quantizing and compiling the network to the hardware simulator.

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一种用于片上动态视觉传感器数据处理的1000 fps脉冲神经网络跟踪算法

动态视觉传感器(DVS)作为一种基于事件的相机，因其独特的特性而备受关注。与基于帧的摄像机不同，分布式交换机的数据格式使得传统算法难以直接处理。另一方面，脉冲神经网络作为一种新型的类脑神经网络，专门用于处理脉冲数据，非常适合这类基于事件的相机。此外，由于近年来神经形态硬件的快速发展，使得在边缘端片上部署SNN应用成为可能。因此，本文根据动态视觉传感器的特点，设计了尖峰编码模块和SNN对传感器信息进行处理。通过对目标和背景进行分类，利用选择性搜索实现目标跟踪。SNN在我们的合成测试数据集上可以达到98.66%的分类准确率，跟踪算法在将网络量化并编译到硬件模拟器后可以达到1000 fps以上。

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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2022 IEEE International Conference on Integrated Circuits, Technologies and Applications (ICTA)

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