Unlearnable Examples For Time Series
This work addresses data privacy concerns for time series data owners by preventing unauthorized model training, though it is incremental as it extends existing unlearnable example techniques from images to time series.
The authors tackled the problem of protecting time series data from unauthorized deep learning training by introducing the first unlearnable example generation method for time series, which uses selective error-minimizing noise to render data unlearnable while preserving utility, as demonstrated through extensive experiments on various datasets.
Unlearnable examples (UEs) refer to training samples modified to be unlearnable to Deep Neural Networks (DNNs). These examples are usually generated by adding error-minimizing noises that can fool a DNN model into believing that there is nothing (no error) to learn from the data. The concept of UE has been proposed as a countermeasure against unauthorized data exploitation on personal data. While UE has been extensively studied on images, it is unclear how to craft effective UEs for time series data. In this work, we introduce the first UE generation method to protect time series data from unauthorized training by deep learning models. To this end, we propose a new form of error-minimizing noise that can be \emph{selectively} applied to specific segments of time series, rendering them unlearnable to DNN models while remaining imperceptible to human observers. Through extensive experiments on a wide range of time series datasets, we demonstrate that the proposed UE generation method is effective in both classification and generation tasks. It can protect time series data against unauthorized exploitation, while preserving their utility for legitimate usage, thereby contributing to the development of secure and trustworthy machine learning systems.