WANA (August 11)The Vice Presidency for Science, Technology, and Knowledge-Based Economy has unveiled smart gloves as one of the most innovative wearable technologies, paving the way for more natural and efficient interaction between humans and smart devices.

 

These gloves, equipped with various sensors, compact processors, and intelligent software, can detect hand movements, forces, and even physiological signals. Perinaz Seifaldini, a PhD student in Nanoelectronics at the University of Tehran, led this groundbreaking project under the guidance of Mohammadreza Kolahdooz Esfahani.

 

She highlighted key challenges with imported smart gloves, including their limited compatibility with various platforms, lack of technical support, high repair costs, and the unavailability of spare parts.

 

Seifaldini also pointed out the potential of image processing technology for these gloves but noted that the need for powerful, energy-intensive processors limits their widespread use. The high cost of current smart gloves is a major barrier, which could be mitigated by using cheaper materials and optimizing production processes.

 

She stressed the importance of collaboration among industries, universities, and research centers to overcome these challenges and emphasized that government support for domestic production and investment in research and development could play a crucial role in advancing smart glove technology.

 

The project’s sensors are notable for their simplicity, low cost, and ability to detect a wide range of movements and forces. The absence of similar products in the country underscores the innovative nature of this technology and the need for further research.

 

Seifaldini also mentioned that the smart gloves have passed initial tests and are at TRL 4 (Technology Readiness Level). The focus is now on optimizing signal processing, designing gloves to meet smart glove standards and ergonomics, and incorporating wireless communication for better integration with devices.

 

Finally, Seifaldini highlighted the need for government support for innovative projects through financial incentives, resource access, and infrastructure development. Creating a network of specialists across various fields could facilitate knowledge exchange and technical problem-solving.

 

The National Technology Development Headquarters has supported the project “Design and Development of Smart Gloves as a Human-Machine Interface for Hand Movement Detection,” recognizing its potential and impact.