Advanced magnetic resonance imaging system for high-resolution brain and body scanning with real-time signal processing capabilities. Features 3 Tesla magnetic field strength, sub-millimeter resolution, and advanced diffusion tensor imaging.
High-density electroencephalography system with advanced signal processing for brain-computer interface research. Includes 128 simultaneous channels, 24-bit resolution at 1000 Hz, and real-time artifact removal capabilities.
Advanced ultrasound imaging with real-time 3D visualization and Doppler flow analysis for cardiovascular research. Features real-time 4D imaging, color Doppler analysis, and AI-enhanced image quality.
Dedicated laboratory with high-performance computing clusters for advanced biomedical signal analysis and algorithm development. Equipped with GPU-accelerated computing and parallel processing capabilities.
Clean room facility for developing and testing next-generation wearable biosensors and implantable medical devices. Features Class 1000 clean room standards and micro-fabrication tools.
Advanced patient monitoring system with integrated signal processing for real-time analysis of vital signs and cardiac rhythms. Includes 12-lead ECG monitoring, continuous blood pressure measurement, and arrhythmia detection algorithms.
Our biomedical engineering gallery showcases the cutting-edge work in signal processing and medical device development.
From neural signal analysis to medical imaging processing, these visuals demonstrate how we extract, analyze, and interpret complex biological data to advance healthcare technologies.
Advanced analysis of EEG and neural signals to develop brain-computer interfaces and diagnostic tools for neurological disorders.
Developing algorithms for enhanced processing of MRI, CT, and ultrasound images to improve diagnostic accuracy and early detection.
Innovative techniques for ECG signal analysis to detect arrhythmias and predict cardiac events with higher precision.
Our biomedical engineering research is transforming how we diagnose and treat medical conditions. We're bridging the gap between engineering and medicine through innovative signal processing techniques.