A Secure IoT-Based Cloud Platform Selection Using Entropy Distance Approach and Fuzzy Set Theory

Author:

Chakraborty Alakananda1ORCID,Jindal Muskan1ORCID,Khosravi Mohammad R.2ORCID,Singh Prabhishek1ORCID,Shankar Achyut1ORCID,Diwakar Manoj3ORCID

Affiliation:

1. Amity School of Engineering and Technology, Amity University Uttar Pradesh, Noida, India

2. Department of Computer Engineering, Persian Gulf University, Iran

3. Graphic Era Deemed to be University Dehradun, India

Abstract

With the growing emergence of the Internet connectivity in this era of Gen Z, several IoT solutions have come into existence for exchanging large scale of data securely, backed up by their own unique cloud service providers (CSPs). It has, therefore, generated the need for customers to decide the IoT cloud platform to suit their vivid and volatile demands in terms of attributes like security and privacy of data, performance efficiency, cost optimization, and other individualistic properties as per unique user. In spite of the existence of many software solutions for this decision-making problem, they have been proved to be inadequate considering the distinct attributes unique to individual user. This paper proposes a framework to represent the selection of IoT cloud platform as a MCDM problem, thereby providing a solution of optimal efficacy with a particular focus in user-specific priorities to create a unique solution for volatile user demands and agile market trends and needs using optimized distance-based approach (DBA) aided by Fuzzy Set Theory.

Publisher

Hindawi Limited

Subject

Electrical and Electronic Engineering,Computer Networks and Communications,Information Systems

Reference22 articles.

1. A Survey on IOT enabled cloud platforms

2. The Security Issues in IoT - Cloud: A Review

3. Twenty-one key factors to choose an IoT platform: theoretical framework and its applications;M. Ullah,2020

4. Trust-based service selection in public cloud computing using fuzzy modified VIKOR method;H. M. Alabool;Australian Journal of Basic and Applied Sciences,2013

5. Parallel Cloud Service Selection and Ranking Based on QoS History

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