Time Series Classification (TSC) problems are encountered in many real life
data mining tasks ranging from medicine and security to human activity
recognition and food safety. With the recent success of deep neural networks in
various domains such as computer vision and natural language processing,
researchers started adopting these techniques for solving time series data
mining problems. However, to the best of our knowledge, no previous work has
considered the vulnerability of deep learning models to adversarial time series
examples, which could potentially make them unreliable in situations where the
decision taken by the classifier is crucial such as in medicine and security.
For computer vision problems, such attacks have been shown to be very easy to
perform by altering the image and adding an imperceptible amount of noise to
trick the network into wrongly classifying the input image. Following this line
of work, we propose to leverage existing adversarial attack mechanisms to add a
special noise to the input time series in order to decrease the network's
confidence when classifying instances at test time. Our results reveal that
current state-of-the-art deep learning time series classifiers are vulnerable
to adversarial attacks which can have major consequences in multiple domains
such as food safety and quality assurance.Comment: Accepted at IJCNN 201