A Prospective Approach for Human-to-Human Interaction Recognition from Wi-Fi Channel Data using Attention Bidirectional Gated Recurrent Neural Network with GUI Application Implementation

Recent advances in 5G wireless technology and socioeconomic transformation have brought a paradigm shift in sensor applications. Wi-Fi signal demonstrates a strong correlation between its temporal variation and body movements, which can be leveraged to recognize human activity. In this article, we demonstrate the cognitive ability of device free mutual human-to-human interaction recognition method based on the time scale Wi-Fi channel state information. The mutual activities examined are steady-state, approaching, departing, handshaking, high-five, hugging, kicking (left-leg), kicking (right-leg), pointing (left-hand), pointing (right-hand), punching(left-hand), punching (right-hand), and pushing. We explore and propose a Self-Attention furnished Bidirectional Gated Recurrent Neural Network model to classify 13 human-to-human mutual interaction types from the time-series data. Our proposed model can recognize a two subject pair mutual interaction with a maximum benchmark accuracy of 94%. This has been expanded for ten subject pairs, which secured a benchmark accuracy of 88% with improved classification around the interaction-transition region. Also, an executable graphical user interface (GUI) is developed, using the PyQt5 python module, to subsequently display the overall mutual human-interaction recognition procedure in real-time. Finally, we conclude with a brief discourse regarding the possible solutions to the handicaps that resulted in curtailments observed during the study. Such, Wi-Fi channel perturbation pattern analysis is believed to be an efficient, economical and privacy-friendly approach to be potentially utilized in mutual human-interaction recognition for indoor activity monitoring, surveillance system, smart health monitoring systems and independent assisted living.