Leong, LambertWiere, Sean2020-01-042020-01-042020-01-07978-0-9981331-3-3http://hdl.handle.net/10125/64532In this paper, we investigate a potential security vulnerability associated with wrist wearable devices. Hardware components on common wearable devices include an accelerometer and gyroscope, among other sensors. We demonstrate that an accelerometer and gyroscope can pick up enough unique wrist movement information to identify digits being written by a user. With a data set of 400 writing samples, of either the digit zero or the digit one, we constructed a machine learning model to correctly identify the digit being written based on the movements of the wrist. Our model’s performance on an unseen test set resulted in an area under the receiver operating characteristic (AUROC) curve of 1.00. Loading our model onto our fabricated device resulted in 100% accuracy when predicting ten writing samples in real-time. The model’s ability to correctly identify all digits via wrist movement and orientation changes raises security concerns. Our results imply that nefarious individuals may be able to gain sensitive digit based information such as social security, credit card, and medical record numbers from wrist wearable devices.8 pagesengAttribution-NonCommercial-NoDerivatives 4.0 InternationalMachine Learning and Cyber Threat Intelligence and Analyticsmachine learningsecuritywrist wearableConference Paper10.24251/HICSS.2020.790