Preserving Privacy in Image-based Emotion Recognition through User Anonymization

Abstract

The large amount of data captured by ambulatory sensing devices can afford us insights into longitudinal behavioral patterns, which can be linked to emotional, psychological, and cognitive outcomes. Yet, the sensitivity of behavioral data, which regularly involve speech signals and facial images, can cause strong privacy concerns, such as the leaking of the user identity. We examine the interplay between emotion-specific and user identity-specific information in image-based emotion recognition systems. We further study a user anonymization approach that preserves emotion-specific information, but eliminates user-dependent information from the convolutional kernel of convolutional neural networks (CNN), therefore reducing user re-identification risks. We formulate an adversarial learning problem implemented with a multitask CNN, that minimizes emotion classification and maximizes user identification loss. The proposed system is evaluated on three datasets achieving moderate to high emotion recognition and poor user identity recognition performance. The resulting image transformation obtained by the convolutional layer is visually inspected, attesting to the efficacy of the proposed system in preserving emotion-specific information. Implications from this study can inform the design of privacy-aware emotion recognition systems that preserve facets of human behavior, while concealing the identity of the user, and can be used in ambulatory monitoring applications related to health, well-being, and education.