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Filters: Author is Pleva, Matus  [Clear All Filters]
2023-03-03
Pleva, Matus, Korecko, Stefan, Hladek, Daniel, Bours, Patrick, Skudal, Markus Hoff, Liao, Yuan-Fu.  2022.  Biometric User Identification by Forearm EMG Analysis. 2022 IEEE International Conference on Consumer Electronics - Taiwan. :607–608.
The recent experience in the use of virtual reality (VR) technology has shown that users prefer Electromyography (EMG) sensor-based controllers over hand controllers. The results presented in this paper show the potential of EMG-based controllers, in particular the Myo armband, to identify a computer system user. In the first scenario, we train various classifiers with 25 keyboard typing movements for training and test with 75. The results with a 1-dimensional convolutional neural network indicate that we are able to identify the user with an accuracy of 93% by analyzing only the EMG data from the Myo armband. When we use 75 moves for training, accuracy increases to 96.45% after cross-validation.
ISSN: 2575-8284
Korecko, Stefan, Haluska, Matus, Pleva, Matus, Skudal, Markus Hoff, Bours, Patrick.  2022.  EMG Data Collection for Multimodal Keystroke Analysis. 2022 12th International Conference on Advanced Computer Information Technologies (ACIT). :351–355.
User authentication based on muscle tension manifested during password typing seems to be an interesting additional layer of security. It represents another way of verifying a person’s identity, for example in the context of continuous verification. In order to explore the possibilities of such authentication method, it was necessary to create a capturing software that records and stores data from EMG (electromyography) sensors, enabling a subsequent analysis of the recorded data to verify the relevance of the method. The work presented here is devoted to the design, implementation and evaluation of such a solution. The solution consists of a protocol and a software application for collecting multimodal data when typing on a keyboard. Myo armbands on both forearms are used to capture EMG and inertial data while additional modalities are collected from a keyboard and a camera. The user experience evaluation of the solution is presented, too.
ISSN: 2770-5226