Title :
Resiliency analysis and modeling for real-time cardiovascular diagnostic devices
Author :
Ledesma, R. ; Zhanpeng Jin
Author_Institution :
Dept. of Electr. & Comput. Eng., State Univ. of New York at Binghamton, Binghamton, NY, USA
Abstract :
To address the increasing severe challenges with regard to the reliability of medical devices, in this study we propose to investigate the resilience and vulnerability of cardiovascular diagnostic devices as a case study, by using a formal fault injection approach. We develop a generalized model of the ECG-based heart disease detection system using MATLAB/Simulink, which consists of heartbeat detection and classification. Furthermore, we propose a configurable fault generator (FG) to emulate a wide variety of accidential faults occuring within the developed system, to help us explore and understand the most critical data-paths and processing modules, where any faults or unexpected perturbations will cause dramatic impacts on the system accuracy and performance, or even result in system crash in real case.
Keywords :
biomedical equipment; cardiovascular system; diseases; electrocardiography; mathematics computing; medical signal processing; patient diagnosis; perturbation theory; signal classification; ECG-based heart disease detection system; MATLAB-Simulink; accidential faults; configurable fault generator; critical datapaths; formal fault injection approach; heartbeat classification; heartbeat detection; medical device reliability; processing modules; real-time cardiovascular diagnostic devices; resiliency analysis; resiliency modeling; system accuracy; system crash; system performance; unexpected perturbations; Accuracy; Artificial neural networks; Generators; Heart beat; Mathematical model; Medical diagnostic imaging; Monitoring;
Conference_Titel :
Signal Processing in Medicine and Biology Symposium (SPMB), 2012 IEEE
Conference_Location :
New York, NY
Print_ISBN :
978-1-4673-5665-7
DOI :
10.1109/SPMB.2012.6469456
