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Related Experiment Video

Updated: Feb 10, 2026

Evaluation of a Smartphone-based Human Activity Recognition System in a Daily Living Environment
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SKS-transformer: multi-scale and direction-aware attention for inertial sensor-based activity recognition.

Chengwei Feng1, Boris Bačić1,2,3,4, Weihua Li1,2

  • 1School of Engineering, Computer and Mathematical Sciences (ECMS), Auckland University of Technology, Auckland, New Zealand.

Frontiers in Sports and Active Living
|February 9, 2026
PubMed
Summary
This summary is machine-generated.

A new scalable Human Activity Recognition (HAR) system uses the SKS-Transformer model and a wearable Inertial Measurement Unit (IMU) to accurately identify activities and golf swing errors.

Keywords:
Human Activity Recognition (HAR)IoTbiomechanicsinertial data classificationopen source (OS)privacy & securitytransformerwearable IMU sensors

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Area of Science:

  • Computer Science
  • Machine Learning
  • Wearable Technology

Background:

  • Human Activity Recognition (HAR) is crucial for applications like healthcare and sports analytics.
  • Scalable and accurate HAR systems that generalize across diverse scenarios remain a challenge.

Purpose of the Study:

  • To propose a scalable HAR system integrating a novel SKS-Transformer model with a custom wearable Inertial Measurement Unit (IMU).
  • To enhance HAR accuracy and scalability for diverse activities and fine-grained error detection.

Main Methods:

  • Developed a custom wearable IMU with ESP8266 and JY61 sensor for wireless motion data acquisition.
  • Proposed the SKS-Transformer model featuring Selective Kernel Networks and squeeze-enhanced axial attention for multiscale temporal and directional dependency capture.
  • Implemented a data preprocessing pipeline (denoising, segmentation, normalization) and a learnable gating mechanism for adaptive fusion of motion patterns.

Main Results:

  • The SKS-Transformer model achieved state-of-the-art performance on public datasets (UCI-HAR, PAMAP2), outperforming 11 other models.
  • Attained up to 98.10% accuracy on collected HAR data and 100% accuracy in golf swing error detection.
  • Ablation studies validated the contribution of each SKS-Transformer component.

Conclusions:

  • The proposed SKS-Transformer model significantly enhances HAR system performance and scalability.
  • The system demonstrates high accuracy in recognizing daily activities and detecting specific errors like golf swing faults.
  • Future work includes applying the system to intelligent healthcare, sports monitoring, and wearable computing, with publicly available source code.