Wearable Devices Introduces AI-Powered LLM for Next-Level Gesture Control
Wearable Devices (WLDS) has announced the development of Large MUAP Models (LMM), an AI-powered neural gesture technology designed to revolutionize human-computer interaction. Building on the success of Large Language Models (LLMs), LMMs aim to decode Motor Unit Action Potentials (MUAPs) to enable personalized and intuitive gesture control.
The technology creates unique neural profiles for individual users, allowing for customized gesture interactions. Currently in development, LMMs are designed to enhance the company's existing products, including the Mudra Band for Apple Watch and Mudra Link for universal device control.
The company sees significant potential for LMM integration in extended reality (XR) platforms and plans to seek collaborations with leading companies in the field. According to Chief Scientific Officer Guy Wagner, this breakthrough could create 'sci-fi-like superhuman abilities' and provide a fundamental edge to early adopters.
Wearable Devices (WLDS) ha annunciato lo sviluppo dei Modelli MUAP Grandi (LMM), una tecnologia di gesture neurale potenziata dall'IA progettata per rivoluzionare l'interazione uomo-computer. Basandosi sul successo dei Modelli di Linguaggio Grandi (LLM), gli LMM mirano a decifrare i Potenziali d'Azione delle Unità Motorie (MUAP) per consentire un controllo gestuale personalizzato e intuitivo.
La tecnologia crea profili neurali unici per ciascun utente, permettendo interazioni gestuali su misura. Attualmente in fase di sviluppo, gli LMM sono progettati per migliorare i prodotti esistenti dell'azienda, inclusi il Mudra Band per Apple Watch e il Mudra Link per il controllo universale dei dispositivi.
L'azienda vede un potenziale significativo per l'integrazione degli LMM nelle piattaforme di realtà estesa (XR) e prevede di cercare collaborazioni con aziende leader nel settore. Secondo il Chief Scientific Officer Guy Wagner, questa innovazione potrebbe creare 'abilità sovrumane simili a quelle della fantascienza' e fornire un vantaggio fondamentale agli early adopters.
Wearable Devices (WLDS) ha anunciado el desarrollo de Modelos MUAP Grandes (LMM), una tecnología de gestos neuronales impulsada por IA diseñada para revolucionar la interacción humano-computadora. Basándose en el éxito de los Modelos de Lenguaje Grandes (LLM), los LMM buscan decodificar los Potenciales de Acción de Unidades Motoras (MUAP) para permitir un control gestual personalizado e intuitivo.
La tecnología crea perfiles neuronales únicos para cada usuario, permitiendo interacciones gestuales a medida. Actualmente en desarrollo, los LMM están diseñados para mejorar los productos existentes de la empresa, incluidos el Mudra Band para Apple Watch y el Mudra Link para el control universal de dispositivos.
La empresa ve un potencial significativo para la integración de los LMM en plataformas de realidad extendida (XR) y planea buscar colaboraciones con empresas líderes en el campo. Según el Director Científico Guy Wagner, este avance podría crear 'habilidades sobrehumanas dignas de ciencia ficción' y proporcionar una ventaja fundamental a los primeros adoptantes.
Wearable Devices (WLDS)는 인간-컴퓨터 상호 작용을 혁신하기 위해 설계된 AI 기반의 신경 제스처 기술인 대형 MUAP 모델(LMM)의 개발을 발표했습니다. 대형 언어 모델(LLM)의 성공을 기반으로 LMM은 Motor Unit Action Potentials (MUAP)을 해독하여 개인화되고 직관적인 제어를 가능하게 합니다.
이 기술은 개별 사용자에 대해 독특한 신경 프로필을 생성하여 맞춤형 제스처 상호 작용을 가능하게 합니다. 현재 개발 중인 LMM은 Apple Watch용 Mudra Band와 Mudra Link와 같은 회사의 기존 제품을 향상시키기 위해 설계되었습니다.
회사는 LMM 통합의 상당한 잠재력을 증강 현실(XR) 플랫폼에서 보고 있으며, 이 분야의 선도 기업과 협력할 계획입니다. 수석 과학 책임자 기 가그너에 따르면, 이 혁신은 'SF와 같은 초능력'을 창출하고 초기 사용자에게 근본적인 우위를 제공할 수 있습니다.
Wearable Devices (WLDS) a annoncé le développement de Grands Modèles MUAP (LMM), une technologie de gestes neurale alimentée par l'IA, conçue pour révolutionner l'interaction homme-machine. S'appuyant sur le succès des Grands Modèles de Langage (LLM), les LMM visent à décoder les Potentiels d'Action des Unités Motrices (MUAP) pour permettre un contrôle gestuel personnalisé et intuitif.
La technologie crée des profils neuronaux uniques pour chaque utilisateur, permettant des interactions gestuelles sur mesure. Actuellement en développement, les LMM sont conçus pour améliorer les produits existants de l'entreprise, y compris le Mudra Band pour Apple Watch et le Mudra Link pour le contrôle universel des dispositifs.
L'entreprise voit un potentiel significatif pour l'intégration des LMM dans les plateformes de réalité étendue (XR) et prévoit de chercher des collaborations avec des entreprises leaders dans le domaine. Selon le Directeur Scientifique Guy Wagner, cette avancée pourrait créer des 'habilités surhumaines dignes de la science-fiction' et offrir un avantage fondamental aux premiers utilisateurs.
Wearable Devices (WLDS) hat die Entwicklung von großen MUAP-Modellen (LMM) angekündigt, einer KI-gestützten neuralen Gesten-Technologie, die menschlich-computer-interaktionen revolutionieren soll. Basierend auf dem Erfolg großer Sprachmodelle (LLM) zielen LMM darauf ab, die Aktionspotentiale der motorischen Einheit (MUAPs) zu entschlüsseln, um eine personalisierte und intuitive Gestensteuerung zu ermöglichen.
Die Technologie erstellt einzigartige neuronale Profile für einzelne Benutzer, die maßgeschneiderte Gesteninteraktionen ermöglichen. Derzeit in der Entwicklung, sind LMM dazu gedacht, die bestehenden Produkte des Unternehmens zu verbessern, einschließlich des Mudra Band für Apple Watch und des Mudra Link für die universelle Gerätesteuerung.
Das Unternehmen sieht ein erhebliches Potenzial für die Integration von LMM in erweiterte Realität (XR) Plattformen und plant, Zusammenarbeit mit führenden Unternehmen in diesem Bereich zu suchen. Laut dem wissenschaftlichen Leiter Guy Wagner könnte dieser Durchbruch 'science-fictionartige übermenschliche Fähigkeiten' schaffen und frühen Anwendern einen grundlegenden Vorteil verschaffen.
- Development of innovative AI-powered neural gesture technology (LMM)
- Potential for strategic partnerships with leading XR companies
- Building on existing product line (Mudra Band and Mudra Link)
- Technology still in development phase with no immediate revenue impact
- No specific timeline provided for commercial implementation
Insights
The introduction of Large MUAP Models (LMM) by Wearable Devices marks a potentially significant leap in human-computer interaction, particularly for the emerging spatial computing market. This development carries several strategic implications:
Technical Innovation & Market Positioning:
The technology leverages neural data processing in a novel way, potentially creating high barriers to entry through proprietary algorithms and user data collection. This positions WLDS uniquely in the competitive landscape of gesture control interfaces, especially as major tech companies invest heavily in spatial computing platforms.
Revenue & Integration Potential:
The technology's compatibility with existing products like Mudra Band and Mudra Link provides immediate commercialization channels. However, the real value proposition lies in potential licensing opportunities with major XR platform developers. The timing aligns well with the industry's shift toward spatial computing interfaces.
Risk Considerations:
Several critical factors warrant attention:
- Development stage status with no clear commercialization timeline
- Potential technical challenges in achieving consistent accuracy across users
- Competition from established players with significant R&D resources
- Dependency on successful integration with third-party platforms
While the technology shows promise, investors should note that this announcement represents early-stage development without immediate revenue impact. The true value will depend on successful productization and strategic partnerships in the growing spatial computing ecosystem.
The Large MUAP Models (LMM) AI-powered neural gesture technology enables personalized, intuitive interactions for the AI and XR era
Yokneam Illit, Israel, Feb. 07, 2025 (GLOBE NEWSWIRE) -- Wearable Devices Ltd. (the “Company” or “Wearable Devices”) (Nasdaq: WLDS, WLDSW), an award-winning pioneer in artificial intelligence (“AI”)-based wearable gesture control technology, is proud to announce a groundbreaking advancement in human-computer interaction: Large MUAP Models (“LMM”). Building on the success of LLMs in natural language processing, Wearable Devices is actively developing LMMs with the goal to revolutionize how we interact with digital devices, aiming to offer personalized, intuitive gesture control powered by neural data.
While still in development, this innovative technology, as previously announced, holds immense potential to redefine human-device interaction.
The LMM Revolution: Decoding the Neural Alphabet
Just as LLMs unlocked the power of language for AI, LMMs aim to unlock the power of neural gestures for seamless, natural interactions. By decoding Motor Unit Action Potentials (MUAPs)—the body’s language for communicating with muscles—Wearable Devices has created a new paradigm for gesture control. LMMs are harnessing the potential of big data to enable devices to understand and predict user intentions with unprecedented speed and precision, making interactions faster and more intuitive than ever before.
Personalized Gestures for a Natural User Experience
At the heart of LMMs is personalization. The technology learns from individual users, creating a unique neural profile that will enable gestures tailored to each person’s natural movements. Whether it’s a subtle thumb swipe to select an option or a pinch-to-zoom gesture in augmented reality, LMMs will make interactions feel effortless and intuitive. "With LMMs, we are decoding the neural alphabet, potentially unlocking a strategically vital technology that fuses human neurology with AI. This breakthrough has the potential to create sci-fi-like superhuman abilities, giving a fundamental edge to whoever masters it first," said Guy Wagner, Chief Scientific Officer of Wearable Devices.
Wearable Devices’ flagship products, such as the Mudra Band for Apple Watch and the Mudra Link for universal device control, are already demonstrating the power of neural interfaces. These devices allow users to control their digital environments with simple, natural gestures. LMMs have the potential to make our current technology user-personalized, paving the way for a future where wearable technology is seamlessly integrated into our daily lives.
The Future of AI and XR: Powered by Neural Gestures
As spatial computing becomes the next computing platform, LMMs will provide the intuitive, natural interactions needed to unlock its full potential. Wearable Devices is focused on developing this technology and plans to seek collaboration with leading companies to integrate LMMs into next-generation extended reality (XR) platforms, ensuring that users can interact with their digital environments in ways that feel as natural as moving their hands.
“The future of XR and AI interactions is here, and it starts with your wrist,” added Mr. Wagner. “With LMMs, we are not just imagining the future—we are building it.”
About Wearable Devices Ltd.
Wearable Devices Ltd. is a pioneering growth company revolutionizing human-computer interaction through its AI-powered neural input technology for both consumer and business markets. Leveraging proprietary sensors, software, and advanced AI algorithms, the Company’s innovative products, including the Mudra Band for iOS and Mudra Link for Android, enable seamless, touch-free interaction by transforming subtle finger and wrist movements into intuitive controls. These groundbreaking solutions enhance gaming, and the rapidly expanding AR/VR/XR landscapes. The Company offers a dual-channel business model: direct-to-consumer sales and enterprise licensing. Its flagship Mudra Band integrates functional and stylish design with cutting-edge AI to empower consumers, while its enterprise solutions provide businesses with the tools to deliver immersive and interactive experiences. By setting the input standard for the XR market, Wearable Devices is redefining user experiences and driving innovation in one of the fastest-growing tech sectors. Wearable Devices’ ordinary shares and warrants trade on the Nasdaq under the symbols “WLDS” and “WLDSW,” respectively.
Forward-Looking Statement Disclaimer
This press release contains “forward-looking statements” within the meaning of Section 27A of the Securities Act of 1933, as amended, and Section 21E of the Securities Exchange Act of 1934, as amended, that are intended to be covered by the “safe harbor” created by those sections. Forward-looking statements, which are based on certain assumptions and describe our future plans, strategies and expectations, can generally be identified by the use of forward-looking terms such as “believe,” “expect,” “may,” “should,” “could,” “seek,” “intend,” “plan,” “goal,” “estimate,” “anticipate” or other comparable terms. For example, we are using forward-looking statements when we discuss the benefits and advantages of our devices and technology, including the potential of LMMs, and that we are focused on developing this technology and plan to seek collaboration with leading companies to integrate LMMs into next-generation XR platforms. All statements other than statements of historical facts included in this press release regarding our strategies, prospects, financial condition, operations, costs, plans and objectives are forward-looking statements. Forward-looking statements are neither historical facts nor assurances of future performance. Instead, they are based only on our current beliefs, expectations and assumptions regarding the future of our business, future plans and strategies, projections, anticipated events and trends, the economy and other future conditions. Because forward-looking statements relate to the future, they are subject to inherent uncertainties, risks and changes in circumstances that are difficult to predict and many of which are outside of our control. Our actual results and financial condition may differ materially from those indicated in the forward-looking statements. Therefore, you should not rely on any of these forward-looking statements. Important factors that could cause our actual results and financial condition to differ materially from those indicated in the forward-looking statements include, among others, the following: the trading of our ordinary shares or warrants and the development of a liquid trading market; our ability to successfully market our products and services; the acceptance of our products and services by customers; our continued ability to pay operating costs and ability to meet demand for our products and services; the amount and nature of competition from other security and telecom products and services; the effects of changes in the cybersecurity and telecom markets; our ability to successfully develop new products and services; our success establishing and maintaining collaborative, strategic alliance agreements, licensing and supplier arrangements; our ability to comply with applicable regulations; and the other risks and uncertainties described in our annual report on Form 20-F for the year ended December 31, 2023, filed on March 15, 2024 and our other filings with the SEC. We undertake no obligation to publicly update any forward-looking statement, whether written or oral, that may be made from time to time, whether as a result of new information, future developments or otherwise.
Investor Relations Contact
Michal Efraty
IR@wearabledevices.co.il
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