Open AccessReliability Evaluation Model Of Industrial Internet Of Things Systems
Author(s) -
Dong-Seong Kim
Publication year - 2020
Publication title -
proceeding international conference on engineering
Language(s) - English
Resource type - Journals
ISSN - 2774-5082
DOI - 10.36728/icone.v1i1.1266
Subject(s) - reliability (semiconductor) , industrial internet , computer science , key (lock) , reliability engineering , internet of things , factory (object oriented programming) , systems engineering , the internet , risk analysis (engineering) , embedded system , computer security , engineering , world wide web , medicine , power (physics) , programming language , physics , quantum mechanics
The Industrial Internet of Things (IIoT) allows digitizing manufacturing processes and increasing the digital connectivity of smart factory and industrial systems. The reliability of a system is considered as a key performance indicator that defines how accurately and perfectly the system works. Ensuring reliability in industrial IoT exposes several challenges as well as promising opportunities for advancing technologies and systematic designs such as algorithms, architectures, and devices. It depends on several factors, for example, ensuring performance, accuracy, stability, and availability. This article provides a systematic model for evaluating the reliability of IIoT systems. This model enables elucidate several open research issues regarding designing the reliable and robust systems.