Privacy-Preserving Autoencoder for Collaborative Object Detection

Bardia Azizian;Ivan V. Bajić
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Abstract

Privacy is a crucial concern in collaborative machine vision where a part of a Deep Neural Network (DNN) model runs on the edge, and the rest is executed on the cloud. In such applications, the machine vision model does not need the exact visual content to perform its task. Taking advantage of this potential, private information could be removed from the data insofar as it does not significantly impair the accuracy of the machine vision system. In this paper, we present an autoencoder-style network integrated within an object detection pipeline, which generates a latent representation of the input image that preserves task-relevant information while removing private information. Our approach employs an adversarial training strategy that not only removes private information from the bottleneck of the autoencoder but also promotes improved compression efficiency for feature channels coded by conventional codecs like VVC-Intra. We assess the proposed system using a realistic evaluation framework for privacy, directly measuring face and license plate recognition accuracy. Experimental results show that our proposed method is able to reduce the bitrate significantly at the same object detection accuracy compared to coding the input images directly, while keeping the face and license plate recognition accuracy on the images recovered from the bottleneck features low, implying strong privacy protection. Our code is available at https://github.com/bardia-az/ppa-code .
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用于协作对象检测的隐私保护自动编码器
在协作式机器视觉中,一部分深度神经网络(DNN)模型在边缘运行,其余部分在云端执行,因此隐私是一个关键问题。在这种应用中,机器视觉模型不需要确切的视觉内容来执行任务。利用这一潜力,只要不严重影响机器视觉系统的准确性,就可以从数据中删除私人信息。在本文中,我们提出了一种集成在物体检测流水线中的自动编码器式网络,它能生成输入图像的潜在表示,在保留任务相关信息的同时去除私人信息。我们的方法采用了一种对抗训练策略,不仅能从自动编码器的瓶颈中去除私人信息,还能提高用传统编解码器(如 VVC-Intra)编码的特征通道的压缩效率。我们使用一个现实的隐私评估框架来评估所提出的系统,直接测量人脸和车牌识别的准确性。实验结果表明,与直接对输入图像进行编码相比,我们提出的方法能够在相同的目标检测精度下显著降低比特率,同时保持从瓶颈特征恢复的图像上较低的人脸和车牌识别精度,这意味着对隐私的有力保护。我们的代码见 https://github.com/bardia-az/ppa-code。
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