Our world-class research laboratory is at the forefront of artificial intelligence, computer vision, and augmented reality innovation. Discover the groundbreaking research that powers Smart Glasses Tech's revolutionary smart glasses technology.
Our multidisciplinary research spans cutting-edge AI technologies and their applications
Advanced algorithms for real-time object detection, scene understanding, and visual AI processing with unprecedented accuracy and speed.
Developing next-generation neural network architectures optimized for edge AI processing and ultra-low latency inference.
Pioneering spatial computing, rendering optimization, and multi-user AR experiences for seamless digital-physical integration.
Advanced NLP models for voice interaction, real-time translation, and contextual understanding in AR environments.
Researching intuitive interfaces and interaction paradigms for seamless human-AI collaboration in mixed reality.
Developing privacy-preserving AI techniques and secure computing frameworks for sensitive data processing.
Meet the brilliant minds driving innovation at Smart Glasses Tech
Chief Research Officer
Former MIT professor with 15+ years in computer vision and AI. Led breakthrough research in real-time object detection and neural architecture optimization.
Lead AI Researcher
Expert in neural networks and edge AI optimization. Pioneer in developing efficient AI models for wearable devices.
AR Research Director
Leading expert in spatial computing and augmented reality systems. Former Google Research scientist.
NLP Research Lead
Specialist in natural language processing and multimodal AI. Expert in voice interaction systems for AR.
Hardware AI Specialist
Expert in AI chip design and neural processing units. Leading development of custom silicon for edge AI.
Privacy & Security Lead
Leading researcher in privacy-preserving AI and secure computing. Expert in federated learning and differential privacy.
Our latest research contributions to the scientific community
We present a novel neural architecture optimized for real-time augmented reality applications, achieving 50x speedup while maintaining 99.9% accuracy in object detection tasks.
A comprehensive study on optimizing AI models for edge deployment in wearable devices, focusing on power efficiency and real-time performance.
Novel algorithms for synchronized multi-user AR experiences with sub-millimeter precision and real-time collaboration capabilities.
Advanced natural language processing techniques for contextual voice commands and real-time translation in augmented reality environments.
A novel approach to object detection optimized for the computational constraints of smart glasses while maintaining high accuracy.
Comprehensive framework for implementing privacy-preserving artificial intelligence in wearable computing devices using federated learning.
Our innovative technologies protected by comprehensive patent portfolio
8 patents covering real-time object detection, scene understanding, and visual processing algorithms.
12 patents for custom neural processing units, edge AI optimization, and hardware acceleration.
9 patents covering spatial computing, AR rendering, and multi-user synchronization technologies.
6 patents for gesture recognition, eye tracking, and intuitive human-AI interaction methods.
7 patents covering end-to-end encryption, biometric authentication, and secure data transmission protocols.
5 patents for advanced battery management, dynamic power scaling, and energy-efficient processing systems.
Collaborating with leading universities and research institutions worldwide
Joint research on neural architecture optimization and edge AI processing for wearable devices.
Collaborative research on computer vision algorithms and real-time object detection systems.
Research partnership focusing on spatial computing and augmented reality interaction paradigms.
Joint research on natural language processing and multimodal AI for augmented reality applications.
Be part of the team that's defining the future of AI and augmented reality. Explore career opportunities, research collaborations, and academic partnerships.