Conventional neural implants are significantly limited by data transmission bottlenecks. Traditional multi-electrode arrays rely on digital compression and digitisation methods that demand high power consumption, large physical footprints, and restrict the number of electrodes that can be effectively deployed. These limitations hinder scientific research, clinical diagnostics, and therapeutic interventions, preventing researchers from obtaining comprehensive neural data across multiple brain regions simultaneously. As a result, the exploration and understanding of complex neural dynamics remain significantly constrained.
At Cerebro One, we directly address these pervasive challenges with a groundbreaking analog compression approach, performing signal compression at the analog stage before digitisation. Our proprietary, patent-pending technology achieves a real-time compression ratio exceeding 100:1, significantly alleviating the data transmission burden while preserving exceptional signal integrity and fidelity. This innovative approach enables ultra-low power consumption, notably smaller device sizes, and the ability to simultaneously record from hundreds to thousands of electrodes without sacrificing quality or performance.
With our next-generation neural implants, neuroscientists and clinicians can access richer, more comprehensive datasets, unlocking deeper insights into brain function, disease mechanisms, and potential therapeutic pathways. Enhanced scalability and signal preservation allow researchers to capture neural dynamics with unprecedented detail, empowering advances in understanding neurological disorders, cognitive functions, and therapeutic efficacy.
The Cerebro One technology is currently undergoing rigorous validation processes, with initial testing demonstrating robust performance, high-fidelity signal preservation, seamless wireless integration, and significant scalability. With our patent-pending innovation, Cerebro One is poised to redefine the standards for neural recording, accelerating breakthroughs in neuroscience research and paving the way for revolutionary neural diagnostics and therapeutic interventions.
