| Literature DB >> 31839931 |
Olufemi A Omitaomu1, Ozgur Ozmen1, Mohammed M Olama1, Laura L Pullum2, Teja Kuruganti1, James Nutaro1, Hilda B Klasky1, Helia Zandi1, Aneel Advani3, Angela L Laurio4, Merry Ward4, Jeanie Scott4, Jonathan R Nebeker4.
Abstract
An increase in the reliability of Health Information Technology (HIT) will facilitate institutional trust and credibility of the systems. In this paper, we present an end-to-end framework for improving the reliability and performance of HIT systems. Specifically, we describe the system model, present some of the methods that drive the model, and discuss an initial implementation of two of the proposed methods using data from the Veterans Affairs HIT and Corporate Data Warehouse systems. The contributions of this paper, thus, include (1) the design of a system model for monitoring and detecting hazards in HIT systems, (2) a data-driven approach for analysing the health care data warehouse, (3) analytical methods for characterising and analysing failures in HIT systems, and (4) a tool architecture for generating and reporting hazards in HIT systems. Our goal is to work towards an automated system that will help identify opportunities for improvements in HIT systems. © Operational Research Society 2019.Keywords: Health information technology; Markov chain; corporate data warehouse; hazard detection; statistical process control; transaction process model
Year: 2019 PMID: 31839931 PMCID: PMC6896425 DOI: 10.1080/20476965.2019.1599701
Source DB: PubMed Journal: Health Syst (Basingstoke) ISSN: 2047-6965