A Low Complexity High Speed Architecture Design Methodology For Reduced 3-Lead to 12-Lead ECG Signal Reconstruction Targeting Remote Health Care

Panda, U (2014) A Low Complexity High Speed Architecture Design Methodology For Reduced 3-Lead to 12-Lead ECG Signal Reconstruction Targeting Remote Health Care. Masters thesis, Indian Institute of Technology.

Preview

Text
EE12M1038.pdf - Submitted Version
Download (1MB)

Abstract

Cardiovascular diseases is one of the prime causes of human corporeality and mobidity in society . In order to abate this researchers had paid heed in the field of detection and pre- vention in both hospital-based and remotely accessed environments . Advancements in wireless technology and tale-monitoring can be used to provide the accessibility of state-of -the-art(Sot A) facilities to patients in remote and rural areas. However, bandwidth and storage limitations and data transmission time are major challenges in wireless transmission . Though cardiologists are habituated to standard 12-lead (S12) system because of its decade old usage and widespread acceptability, however generally, for such remote healthcare environments a reduced lead(RL)ECG is suitable for aforementioned reasons , which however , may not be clinically acceptable for diagnosis . Several efficient algorithms for reconstruction of RL to SotA 12 lead have been proposed. The overall Cardio Vascular Disease detection system can be characterized to 6 different sections namely Data Acquisition , Preprocessing , Data Transmission, Coefficient Generation, Signal Reconstruction and Display on Monitor. The thesis work includes a low complexity and high speed architecture design ( for the preprocess- sing section) and its implementation on FPGA and ASIC platform which intern can be used for the accurate reconstruction of 3 lead to 12 lead ECG signal reconstruction .

[error in script]

IITH Creators: