Wearable Devices Ltd. (NASDAQ: WLDS) has unveiled new features and technology for its Mudra Link neural wristband ahead of CES 2026, marking important developments in touchless interface technology. The company announced updates designed to simplify and standardize interactions across the smart-glasses ecosystem, addressing key usability challenges that have limited adoption of gesture-based controls.
The updates include customized presets and compatibility of the Mudra Link app on certain smart glasses models. These improvements help reduce onboarding friction, speed up the setup process, and give users more intuitive control over their devices. By standardizing these interactions, Wearable Devices aims to create a more seamless experience across different smart glasses platforms, potentially accelerating the adoption of gesture-based interfaces in professional and consumer applications.
In a significant technical advancement, the company successfully demonstrated and implemented an electromyography (EMG)-driven weight-estimation capability on the Mudra Link. This development represents a major step forward in the company's neuromuscular computing roadmap, moving beyond simple gesture recognition to more sophisticated physical interaction sensing. The EMG technology allows the device to detect muscle signals that can be interpreted as weight estimation, opening possibilities for more nuanced control schemes in industrial, medical, and consumer applications.
The company has also formed a strategic partnership with Rokid to bring neural gesture control to AI and AR glasses. The companies plan to demonstrate the combined experience at CES 2026, showcasing how the Mudra Link technology can enhance augmented reality interfaces. This collaboration signals growing industry recognition of neural interface technology as a viable solution for next-generation computing interfaces.
For business and technology leaders, these developments indicate several important trends. First, the standardization efforts suggest that the industry is moving toward more interoperable gesture control systems, which could reduce fragmentation and accelerate adoption. Second, the EMG-driven capabilities demonstrate that neural interface technology is advancing beyond basic functionality toward more sophisticated sensing and control applications. Third, the partnership with Rokid highlights how neural interfaces are becoming integrated into broader technology ecosystems, particularly in the growing AR and AI hardware markets.
The latest news and updates relating to WLDS are available in the company's newsroom at https://ibn.fm/WLDS. For technology executives and investors, these developments warrant attention as they represent progress in making neural interfaces more practical and scalable. As CES 2026 approaches, the demonstration of these technologies will provide important validation of their commercial viability and potential impact on how humans interact with increasingly sophisticated computing systems.
