Contextual Information based Network with High-Frequency Feature Fusion for High Frame Rate and Ultra-Low Delay Small-Scale Object Detection

2021 17th International Conference on Machine Vision and Applications (MVA) Pub Date : 2021-07-25 DOI:10.23919/MVA51890.2021.9511387

Dongmei Huang, Jihang Zhang, Tingting Hu, Ryuji Fuchikami, T. Ikenaga

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Abstract

High frame rate and ultra-low delay small-scale object detection plays an important role in factory automation for its timely and accurate reaction. Although many CNN based detection methods have been proposed to improve the accuracy of small object detection for the low resolution and large gap between the object and the background, it is difficult to achieve a trade-off between accuracy and speed. For the pursuit of ultra-low delay processing by utilizing FPGA, this paper proposes: (A) IoU and distance based loss function, (B) Contextual information with high temporal correlation based parallel detection, (C) High frequency feature fusion for enhancing low-bit networks. The proposed methods achieve 45.3 % mAP for test sequences, which is only 0.7 % mAP lower compared with the general method. Meanwhile, the size of the model has been compressed to 1.94 % of the original size and reaches a speed of 278 fPs on FPGA and 15 fPs on GPU.

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基于上下文信息的高频特征融合网络高帧率超低延迟小尺度目标检测

高帧率、超低延迟的小尺度目标检测以其及时准确的反应在工厂自动化中发挥着重要作用。虽然针对分辨率低、目标与背景间隙大的小目标检测问题，提出了许多基于CNN的检测方法来提高小目标检测的精度，但很难在精度和速度之间实现权衡。为了利用FPGA实现超低延迟处理，本文提出:(A)基于IoU和距离的损失函数，(B)基于高时间相关性的上下文信息并行检测，(C)高频特征融合增强低比特网络。该方法对测试序列的mAP值达到45.3%，仅比常规方法低0.7个百分点。同时，模型尺寸被压缩到原始尺寸的1.94%，在FPGA上达到278 fPs，在GPU上达到15 fPs。

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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2021 17th International Conference on Machine Vision and Applications (MVA)

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