Litcius/Paper detail

Domain-Independent Gesture Recognition Using Single-Channel Time-Modulated Array

Lei Guan, Xiaodong Yang, Nan Zhao, Akram Alomainy, Muhammad Ali Imran, Qammer H. Abbasi

2024IEEE Transactions on Antennas and Propagation11 citationsDOIOpen Access PDF

Abstract

In recent years, gesture recognition system based on radio frequency (RF) sensing has a wide application prospect and attraction in noncontact electronic interaction with its advantages of privacy security, lighting independence, and wide sensing range. The traditional RF sensing system depends on the environment and the subject, and the multichannel sensing equipment is expensive, which brings great challenges to the practical application. To address the above issues, a single-channel, low-cost, and domain-independent gesture recognition system is proposed. Specifically, the time-modulation technology is adopted to expand the number of antennas of the sensing device. The time-modulation array (TMA) is converted into a traditional array through harmonic recovery technology. The 2D-fast Fourier transform (FFT), moving target indication filter, and data normalization are used to extract domain-independent angle-Doppler maps (ADMs) gesture features. In order to ensure recognition accuracy, we propose a lightweight neural network with an attention mechanism, which only needs one training and can be applied to different data domains. The experimental results show that the accuracy of in-domain recognition of the proposed system is 98.9%, and the accuracy of cross-domain (i.e., new environments, new users, and new positions) recognition is 85.6%–97.4% without model retraining.

Topics & Concepts

Computer scienceNormalization (sociology)Gesture recognitionArtificial intelligenceFast Fourier transformModulation (music)GestureTime domainSpeech recognitionComputer visionAcousticsSociologyAnthropologyAlgorithmPhysicsHand Gesture Recognition SystemsIndoor and Outdoor Localization TechnologiesGait Recognition and Analysis
Domain-Independent Gesture Recognition Using Single-Channel Time-Modulated Array | Litcius