Litcius/Paper detail

Wearable Real-Time Gesture Recognition Scheme Based on A-Mode Ultrasound

Zongxing Lu, Shaoxiong Cai, Bingxing Chen, Zhoujie Liu, Lin Guo, Ligang Yao

2022IEEE Transactions on Neural Systems and Rehabilitation Engineering35 citationsDOIOpen Access PDF

Abstract

A-mode ultrasound has the advantages of high resolution, easy calculation and low cost in predicting dexterous gestures. In order to accelerate the popularization of A-mode ultrasound gesture recognition technology, we designed a human-machine interface that can interact with the user in real-time. Data processing includes Gaussian filtering, feature extraction and PCA dimensionality reduction. The NB, LDA and SVM algorithms were selected to train machine learning models. The whole process was written in C++ to classify gestures in real-time. This paper conducts offline and real-time experiments based on HMI-A (Human-machine interface based on A-mode ultrasound), including ten subjects and ten common gestures. To demonstrate the effectiveness of HMI-A and avoid accidental interference, the offline experiment collected ten rounds of gestures for each subject for ten-fold cross-validation. The results show that the offline recognition accuracy is 96.92% ± 1.92%. The real-time experiment was evaluated by four online performance metrics: action selection time, action completion time, action completion rate and real-time recognition accuracy. The results show that the action completion rate is 96.0% ± 3.6%, and the real-time recognition accuracy is 83.8% ± 6.9%. This study verifies the great potential of wearable A-mode ultrasound technology, and provides a wider range of application scenarios for gesture recognition.

Topics & Concepts

GestureComputer scienceGesture recognitionArtificial intelligenceWearable computerSupport vector machineProcess (computing)Interface (matter)Feature extractionSpeech recognitionComputer visionPattern recognition (psychology)Embedded systemMaximum bubble pressure methodBubbleOperating systemParallel computingMuscle activation and electromyography studiesHand Gesture Recognition SystemsStroke Rehabilitation and Recovery
Wearable Real-Time Gesture Recognition Scheme Based on A-Mode Ultrasound | Litcius