On the security of MQ cryptographic systems for constructing secure Internet of medical things

Yi, Haibo; Nie, Zhe

doi:10.1007/s00779-018-1149-y

Cited by 6 publications

(4 citation statements)

References 28 publications

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“…Efficiency was measured in terms of energy, lifetime, throughput, accuracy, and malware error detection rate. Yi and Nie [96] proposed a multivariate quadratic equation-based cryptographic security system for IoMT devices. A physical analysis model of the cryptographic system was designed by analyzing fault tolerance and differential power on a cloud platform.…”

Section: Security and Privacy In Iomt-based Health Carementioning

confidence: 99%

A Comprehensive Survey of the Internet of Things (IoT) and AI-Based Smart Healthcare

2021

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Section: Security and Privacy In Iomt-based Health Carementioning

confidence: 99%

A Comprehensive Survey of the Internet of Things (IoT) and AI-Based Smart Healthcare

2021

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“…Hence, the performance results were validated and measured. Yi and Nie [27] have demonstrated the Multivariate-Quadratic-Equations (MQ) public-key cryptography and rainbow model of cryptographic scheme for IoMT applications. This algorithm was employed for end-to-end service that has resisted to such threats.…”

Section: Related Workmentioning

confidence: 99%

An Overview on Security and Privacy of Data in IoMT Devices: Performance Metrics, Merits, Demerits, and Challenges

Khatiwada

Yang

2022

Studies in Health Technology and Informatics

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The Internet of Medical Things (IoMT) emerges with new trendsetter device applications, where it defines the incorporation of medical devices with the Internet of Things (IoT). The healthcare sector continues to encounter challenging obstacles that have an impact on the quality of treatment provided to patients. To get rid of this problem, IoMT is being deployed to achieve the high reliability and efficiency of the health system. The IoMT devices are superimposed with clinical information as they contain the details of patient health data, address, and other patient identifiers. By containing such amount of sensitive information, it becomes cumbersome to preserve data privacy and security. Due to inadequate security and privacy precautions, patient health data is susceptible to leakage, which has a direct impact on the patient’s life. In addition, the majority of medical devices are susceptible to cyberattacks, putting patient information at risk. Inadequate control of life-support equipment can have a devastating effect on patient outcomes. Thus, this survey intends to review the various security models of IoMT devices using standard techniques to support health care systems. It provides a wide range of literature reviews regarding IoMT systems and compares them with traditional methodologies. This review work exhibits the motivation for current technologies to maintain the security and privacy of patients’ data with IoMT devices. The systematic review entails background on security in IoMT devices, techniques for security, usage of diverse validation measures, and also discusses the problems and motivation for future research work.

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“…According to Cisco predictions, there will be approximately 50 billion devices connected to the Internet by 2020 [4]. In this respect, we can say that there is a big demand for IoT applications since IoT has a wide range of applications such as intelligent transportation systems, smart home and building automation, medical and health systems, industrial management, energy systems, environment and infrastructure monitoring [5,6,7,8]. For understanding of IoT applications, IoT systems need to be divided into small components in view of tasks [2].…”

Section: Introductionmentioning

confidence: 99%

A Novel Method for Polar Form of Any Degree of Multivariate Polynomials with Applications in IoT

Akleylek

Soysaldi

Boubiche

et al. 2019

Sensors

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Identification schemes based on multivariate polynomials have been receiving attraction in different areas due to the quantum secure property. Identification is one of the most important elements for the IoT to achieve communication between objects, gather and share information with each other. Thus, identification schemes which are post-quantum secure are significant for Internet-of-Things (IoT) devices. Various polar forms of multivariate quadratic and cubic polynomial systems have been proposed for these identification schemes. There is a need to define polar form for multivariate dth degree polynomials, where d ≥ 4 . In this paper, we propose a solution to this need by defining constructions for multivariate polynomials of degree d ≥ 4 . We give a generic framework to construct the identification scheme for IoT and RFID applications. In addition, we compare identification schemes and curve-based cryptoGPS which is currently used in RFID applications.

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On the security of MQ cryptographic systems for constructing secure Internet of medical things

Cited by 6 publications

References 28 publications

A Comprehensive Survey of the Internet of Things (IoT) and AI-Based Smart Healthcare

A Comprehensive Survey of the Internet of Things (IoT) and AI-Based Smart Healthcare

An Overview on Security and Privacy of Data in IoMT Devices: Performance Metrics, Merits, Demerits, and Challenges

A Novel Method for Polar Form of Any Degree of Multivariate Polynomials with Applications in IoT

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