MRI Communication Technology
The Science of Being Heard
EERS captures and reconstructs voice from inside the ear canal, enabling clear communication in the loudest environment in medicine.
The Most Acoustically Hostile Environment in Medicine
MRI scanners generate powerful acoustic noise during imaging sequences. These sounds can exceed levels that make speech communication extremely difficult.
Most existing systems attempt to send sound to the patient but struggle to capture speech clearly from inside the scanner.
Without reliable voice capture, clinicians cannot communicate effectively during procedures or scans.
EERS uses a multi-stage signal processing system designed specifically for MRI environments.
Why EERS Is Different
Most MRI communication systems operate in one direction — delivering sound to the patient.
EERS enables true two-way voice communication inside the MRI bore.
Key differentiators include:
• Voice capture from inside the ear canal
• AI-driven noise filtering designed for MRI environments
• Patented voice reconstruction technology
• Real-time two-way communication
Built by Experts in Advanced Audio Engineering
EERS technology has been developed through years of engineering research focused on solving one of the most difficult communication challenges in healthcare.
The system combines:
• advanced signal processing
• machine learning noise filtering
• patented speech reconstruction technology
This engineering approach enables reliable communication inside MRI environments where traditional audio systems fail.
Communication Across MRI Zones
MRI environments are organized into four safety zones.
EERS technology is designed to operate across these zones, ensuring communication is maintained from the control room to the patient inside the scanner.
Experience the Science Behind MRI Communication
Learn how EERS technology enables clear communication in the most challenging acoustic environment in medicine.