Aims and Scope

The Smart Wearable Technology(SWT)  aims to advance the knowledge and understanding of wearable devices by publishing high-quality research that addresses the latest developments, trends, and challenges in the field. The journal seeks to explore the intersection of cutting-edge technologies, including related materials, sensors, artificial intelligence, machine learning, and wireless communication, with wearable systems designed for health monitoring, fitness, personal well-being, and beyond. It strives to provide a platform for innovative solutions that enhance user experience, optimize data collection and analysis, and improve real-time decision-making. The journal also aims to bridge the gap between engineering, design, and healthcare applications, facilitating interdisciplinary research and collaboration.

By fostering the exchange of ideas and knowledge, the Smart Wearable Technology (SWT) seeks to contribute to the development of smarter, more efficient, and user-centric wearable technologies that can transform everyday life and improve the quality of life globally.

 

The journal is open to all relevant topics including but not limited to:

1. Materials for Wearables:

  • Soft materials including intrinsically stretchable materials, polymers
  • Organic-inorganic hybrid materials, biomaterials
  • Functional materials such as Semiconductors, light-emitting materials, materials for energy conversion
  • Flexible electrode materials, flexible substrate materials

2. Wearable Devices with specific functions:

  • Sensors/Controllers
  • Fitness trackers
  • Head-mounted displays
  • Wearable miniaturized systems  
  • Digital health
  • E-textiles
  • Intelligent garments
  • Wearable medical products
  • Medical implant products
  • Intelligent electronic
  • Human-computer interaction
  • Prosthetics
  • Soft wearable robotics

3. Fundamental science and technology for Wearables:

  • Interface science in wearable devices
  • Wearable electronic modeling, simulation
  • Manufacturing, integration, or packaging, and all
  • Applications of wearable electronics
  • Functional integration design