Litcius/Paper detail

An Anonymous Key Distribution Scheme for Group Healthcare Services in 5G-Enabled Multi-Server Environments

Tuan‐Vinh Le, Chien-Lung Hsu

2021IEEE Access25 citationsDOIOpen Access PDF

Abstract

Fifth generation (5G) mobile technology enables a new kind of network that provides high peak data rates, ultra-low latency communication and high user density. Electronic healthcare (e-health) allows the data to be stored and shared in a highly efficient and flexible manner. Group e-health services help in improving long-term results of the treatments due to its collaborative characteristic. The services including real-time remote patient monitoring and transmission of large health data files can be facilitated by e-health systems enabled with the 5G network. Since the communication channel is open, security and privacy in the system should be taken into account. Our work proposes a key distribution scheme for group healthcare services in 5G network environments. We construct various healthcare domains and apply the proposed scheme to the group services. The paper also introduces Single Sign-On (SSO), a cost-efficient solution, for multi-server architecture of the constructed system. Security and privacy of the scheme are enforced by a three-factor authentication mechanism (integrating smart card, password and biometrics) and strong user anonymity property. We provide security proof of the proposed scheme using various well-known tools including RoR model, BAN logic and AVISPA simulation. Results of various performance comparisons indicate that our scheme provides most functions and bears rational costs, compared with its related works.

Topics & Concepts

Computer scienceScheme (mathematics)Key (lock)Health careComputer networkGroup (periodic table)Computer securityMathematicsOrganic chemistryEconomic growthChemistryEconomicsMathematical analysisAdvanced Authentication Protocols SecurityWireless Body Area NetworksUser Authentication and Security Systems