Driving Technology
The Duke Center for Computational and Digital Health Innovation unites the powerful capabilities of three core technologies—wearable sensors, high performance computing, and extended reality—with software approaches, mathematical modeling, physics-based modeling, and AI to uncover unique insights into health.
Through these powerful tools, we push the boundaries of healthcare innovation, addressing a wide range of medical challenges.
Wearable Sensors
We utilize wearable sensors paired with advanced machine learning to remotely monitor patient activity in real time. By tracking daily behaviors and analyzing time series data, we can detect early health changes, monitor disease progression, and deliver personalized, proactive care.
High Performance Computing (HPC)
We harness the power of leadership-class supercomputers, cloud-based computing infrastructure, and advanced GPU computing to push the boundaries of healthcare innovation. These cutting-edge resources enable real-time solutions, expand the scope of data we analyze, and enhance the spatial and temporal resolution of physics-based models. They also allow us to train larger, more sophisticated AI models, unlocking new possibilities for predictive insights and transformative medical advances.
Extended Reality (XR)
We use immersive technologies like augmented reality, virtual reality, and spatial computing to create interactive platforms for healthcare professionals. These tools enable dynamic visualization and engagement with patient-specific digital twins, enhancing treatment planning and medical education with precision.