Yuji Huang, Graduate School of Computer and Information Sciences, Hosei University, Japan.
Aravindhan K, Department of Computer Science and Engineering, SNS College of Engineering, Tamil Nadu, India.
International Journal of Advanced Information and Communication Technology
Received On : April 14, 2020
Revised On : May 18, 2020
Accepted On : July 30, 2020
Published On : August 05, 2020
Volume 07, Issue 08
Pages : 125-130
Abstract
The present cyber-physical schemes and the Internet of Things (IoT) schemes comprise of both complex and simple interactions defining the different sources of the IoT systems such as cloud information and the edge internet service centres. All the modeling frameworks have been established on the virtualization dimensions that include both the cloud and the edge structures. Apart from that, the systems deal with big data based on the connections of various forms of services and networks. In that case, various forms of data uncertainties are evident. These uncertainties include elasticity and actuation uncertainties. As a result, this leads to a number of challenges that affect the process of testing these uncertainties in the big data systems. Nonetheless, there is a research gap present to effectively model and design the precise infrastructure frameworks that handle the necessities for evaluating these emergent big data uncertainties. With that regard, this scholastic paper focusses on the techniques used to generate and determine the deployment configurations used in the process of evaluating both the cloud and IoT systems. In this research, the survey will consider the actual-world application for analysing and monitoring the transceiver frameworks.
Keywords
Big Data; Internet of Things (IoT); Cloud Computing; Cyber Physical Systems (CPS); Unified Modeling Language (UML).
Cite this article
Yuji Huang, Aravindhan K, “ Cloud Provisioning and Modeling of Internet of Things (IoT) Systems for Evaluating Big Data Uncertainties, ” INTERNATIONAL JOURNAL OF ADVANCED INFORMATION AND COMMUNICATION TECHNOLOGY, pp. 125-130, August. 2020.
Copyright
© 2020 Yuji Huang, Aravindhan K. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.