一个新的增强的医疗网络物理系统网络安全框架

IF 2.4 Q1 Computer Science SICS Software-Intensive Cyber-Physical Systems Pub Date : 2021-03-23 DOI:10.1007/s00450-021-00427-3
Ishaani Priyadarshini, Raghvendra Kumar, Le Minh Tuan, Le Hoang Son, Hoang Viet Long, Rohit Sharma, Sakshi Rai
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引用次数: 10

摘要

医疗信息物理系统(MCPS)是复杂的、位置感知的、联网的医疗设备系统,可以作为治疗中心的一部分,为患者提供最好的医疗护理。因此,它们整合了人、网络和物理元素。由于mcps对生命至关重要,并且具有上下文感知能力,因此它们对容易发生数据泄露和网络攻击的医疗保健行业非常重要。MCPS作为一个新兴的研究领域,在系统可靠性、保证性、自主性和安全性以及隐私性等方面面临着诸多挑战。在本文中,我们首先研究了过去几十年(1998-2020)MCPS的最新技术,随后提出了一个考虑MPCS安全/隐私的新框架,该框架包含了描述各种安全领域的几个模型。在对框架进行定性评估之后,进行了各种模型之间的相互作用,以对拟议框架进行详细描述。它在使用智能设备的各种医疗保健行业(如医疗保健服务、制造业、制药等)中非常有用。此外,该框架可用于增强物联网(IoT)环境中的安全性。在考虑框架下为患者部署有效的工作流操作也可能是有用的。该框架还将为在许多医疗保健应用程序中实施网络安全基础设施奠定基础。
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A new enhanced cyber security framework for medical cyber physical systems

Medical Cyber-Physical Systems (MCPS) are complex, location-aware, networked systems of medical devices that can be used as a piece of the healing center to give the best medical care to patients. Hence, they integrate human, cyber, and physical elements. Since MCPSs are life-critical and context-aware, they are significant to the healthcare industry, which is prone to data breaches and cyber-attacks. As an emerging research area, MCPS faces several challenges with respect to system reliability, assurance, autonomy and security, and privacy. In this paper, we initially examine the state-of-the-arts of MCPS over the last few decades (1998–2020) and subsequently propose a new framework considering security/privacy for MPCS that incorporates several models that depict various domains of security. An interaction between various models followed with a qualitative assessment of the framework has been carried out to present a detailed description of the proposed framework. It is useful in various healthcare industries like health care services, manufacturing, pharmaceuticals, etc. that utilize smart devices. Additionally, the framework may be applied to enhance security in the Internet of Things (IoT) environment. It may be also useful to deploy efficient workflow operations for patients under the consideration framework. The framework will also lay out the foundation for implementing cybersecurity infrastructures in many healthcare applications.

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SICS Software-Intensive Cyber-Physical Systems
SICS Software-Intensive Cyber-Physical Systems COMPUTER SCIENCE, HARDWARE & ARCHITECTURE-
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Beyond the limitations of real-time scheduling theory: a unified scheduling theory for the analysis of real-time systems Automating integration under emergent constraints for embedded systems A new enhanced cyber security framework for medical cyber physical systems The 13th advanced summer school on service-oriented computing Special issue on engineering collaborative embedded systems
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