Srini Tridandapani

Verified Contributor4 Publications in Hub

Research Bibliography

ID: near-real-time-implementation-of-an-adaptive-seismocardiography-ecg-multimodal-framework-for-cardiac-gating2019

Near Real-Time Implementation of An Adaptive Seismocardiography – ECG Multimodal Framework for Cardiac Gating

This research shows that combining heart vibration signals (SCG) with ECG improves the accuracy of heart imaging, making it safer and more effective for diagnosing heart diseases.

ID: echocardiography-as-an-indication-of-continuous-time-cardiac-quiescence2016

Echocardiography as an indication of continuous-time cardiac quiescence

This research shows that ultrasound can help identify heart motion phases for better CT scans, potentially reducing radiation and improving accuracy in diagnosing heart disease.

ID: a-system-for-seismocardiography-based-identification-of-quiescent-heart-phases-implications-for-cardiac-imaging2012

A System for Seismocardiography-Based Identification of Quiescent Heart Phases: Implications for Cardiac Imaging

This study shows that SCG, a chest vibration signal, can better identify heart motion phases for clearer CT scans, potentially reducing radiation and improving heart disease diagnosis.

ID: a-trimodal-system-for-the-acquisition-of-synchronous-echocardiography-electrocardiography-and-seismocardiography-data2011

A trimodal system for the acquisition of synchronous echocardiography, electrocardiography, and seismocardiography data

This study developed a system that combines ultrasound, heart electrical signals, and chest vibrations to better understand heart function and improve imaging techniques like CT and MRI.