MEC-Enabled Hierarchical Emotion Recognition and Perturbation-Aware Defense in Smart Cities

With the explosive growth of Internet of Things (IoT) devices and various emerging network technologies, IoT-enabled smart cities are further refined into health smart cities. For example, IoT devices can automatically recognize emotional states through collected facial expressions, which can further serve mental health assessment, human-computer interaction, etc. On the other hand, existing facial expression recognition algorithms emphasize the application of deep neural networks (DNNs), and it is difficult for resource-constrained IoT devices to provide sufficient computing resources to optimize parameters for DNN-based structures. To solve the challenge of resource constraints, we propose the hierarchical emotion recognition system enabled by mobile edge computing (MEC). Specifically, MEC nodes provide IoT devices with short-delay and high-performance computing services, satisfying the requirements of training DNN-based algorithms. Moreover, our proposed emotion recognition system leverages a pretrained feature extraction module on the remote cloud to accelerate optimization and provides a localization module for specific tasks of IoT devices. In addition to evaluating the accuracy and efficiency, we also clarify that the DNN-based emotion recognition system exposes obvious vulnerability to perturbation. Due to the uncertainty of the environment, it is common for facial expressions collected by IoT devices to be accompanied by perturbation. To address this issue, we propose the proactive perturbation-aware defense mechanism. It has been demonstrated that the newly proposed defense mechanism can maintain state-of-the-art performance on the publicly available LIRIS-CSE dataset while defending against known and unknown perturbation. This can promote the deployment of our proposed MEC-enabled hierarchical emotion recognition system and defense mechanism in real-world scenarios.