Research Excellence

Advancing Cardiovascular
Health Monitoring

Pioneering research in non-invasive cardiovascular assessment technologies, combining biomedical engineering, signal processing, and artificial intelligence to transform healthcare delivery.

6+
Research Areas
30+
Active Projects
15+
PhD Students
50+
Collaborators

Research Areas

Exploring multiple dimensions of cardiovascular health through innovative technologies

Cardiovascular Monitoring

Cardiovascular Monitoring

Advanced non-invasive techniques for continuous cardiovascular health assessment and early disease detection.

Real-time monitoringEarly detectionNon-invasive methods
Arterial Stiffness Assessment

Arterial Stiffness Assessment

Novel methodologies for evaluating vascular health through pulse wave velocity and arterial compliance measurements.

PWV analysisVascular agingCompliance metrics
Cuffless Blood Pressure

Cuffless Blood Pressure

Revolutionary calibration-free blood pressure measurement technologies for accessible healthcare monitoring.

Calibration-freeContinuous monitoringPortable devices
Pulse Wave Analysis

Pulse Wave Analysis

Comprehensive signal processing and machine learning approaches for extracting cardiovascular biomarkers.

Signal processingAI algorithmsBiomarker extraction
Image-Free Ultrasound

Image-Free Ultrasound

Innovative ultrasound technologies that eliminate the need for image interpretation while maintaining diagnostic accuracy.

Simplified operationAutomated analysisPoint-of-care
AI & Deep Learning

AI & Deep Learning

Machine learning models for predictive cardiovascular risk assessment and automated disease classification.

Neural networksRisk predictionAutomated diagnosis

Key Projects

Flagship research initiatives driving innovation in cardiovascular healthcare

ARTSENS® Technology
Commercial

ARTSENS® Technology

Arterial Stiffness Evaluation System

A revolutionary image-free ultrasound device for automated assessment of arterial stiffness and cardiovascular health. The system provides calibration-free measurements of pulse wave velocity, arterial diameter, and blood pressure.

1000+ clinical validations
FDA approval pathway
5 international patents
View Publications →
Incremental PWV Research
Active Research

Incremental PWV Research

Intra-Beat Cardiovascular Dynamics

Groundbreaking research on pressure-dependent changes in pulse wave velocity within a single cardiac cycle. This work has opened new avenues for understanding cardiovascular mechanics and disease progression.

Best paper awards
IEEE TBME featured
500+ citations
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Deep Learning BP Estimation
Development

Deep Learning BP Estimation

AI-Powered Blood Pressure Prediction

Advanced neural network architectures for continuous blood pressure estimation from photoplethysmography and pulse wave signals. Achieving clinical-grade accuracy without calibration requirements.

95% accuracy
Real-time processing
Wearable integration
View Publications →

Research Lab

State-of-the-art facilities at IIT Madras for cutting-edge biomedical research

Research Lab

Cardiovascular Monitoring Lab

Our laboratory is equipped with cutting-edge instrumentation for cardiovascular research, including high-frequency ultrasound systems, multi-channel data acquisition systems, and advanced signal processing workstations.

Advanced Equipment
15+ Researchers
Clinical Studies
Global Collaborations
Visit Our Lab →

Collaborations

Working with leading institutions worldwide to advance cardiovascular research

IIT Madras
NIH USA
SERB-DST India
Radboud University
ARTERY Society
IEEE EMBS
Clinical Partners
Industry Leaders