1. Enhancing Security of Health Information Using Modular Encryption Standard in Mobile Cloud Computing
- Author
-
Ayesha Shabbir, Jerry Chun-Wei Lin, Celestine Iwendi, Maryam Shabbir, Muhammad Rizwan, Norbert Herencsar, and Abdul Rehman Javed
- Subjects
General Computer Science ,Requirement-oriented approach ,health information security ,mobile cloud computing ,Computer science ,Vulnerability ,Cloud computing ,02 engineering and technology ,Computer security ,computer.software_genre ,Encryption ,Health services ,Health care ,VDP::Matematikk og Naturvitenskap: 400::Informasjons- og kommunikasjonsvitenskap: 420::Sikkerhet og sårbarhet: 424 ,0202 electrical engineering, electronic engineering, information engineering ,General Materials Science ,business.industry ,General Engineering ,Health Information Security ,020207 software engineering ,Mobile Cloud Computing ,Modular design ,modular protection-based computing ,TK1-9971 ,Mobile cloud computing ,Work (electrical) ,MES ,020201 artificial intelligence & image processing ,Modular Protection-based Computing ,Electrical engineering. Electronics. Nuclear engineering ,Health information ,business ,computer ,requirement-oriented approach - Abstract
Despite the numerous and noticeable inherited gains of Mobile Cloud Computing (MCC) in healthcare, its growth is being hindered by privacy and security challenges. Such issues require the utmost urgent attention to realize its full scale and efficient usage. There is a need to secure Health Information worldwide, regionally, and locally. To fully avail of the health services, it is crucial to put in place the demanded security practices for the prevention of security breaches and vulnerabilities. Hence, this research is deliberated on to provide requirement-oriented health information security using the Modular Encryption Standard (MES) based on the layered modeling of the security measures. The performance analysis shows that the proposed work excels, compared to other commonly used algorithms against the health information security at the MCC environment in terms of better performance and auxiliary qualitative security ensuring measures.
- Published
- 2021