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Moura, J. & Hutchison, D. (2020). Fog computing systems: state of the art, research issues and future trends, with a focus on resilience. Journal of Network and Computer Applications. 169
J. A. Moura and D. Hutchison, "Fog computing systems: state of the art, research issues and future trends, with a focus on resilience", in Journal of Network and Computer Applications, vol. 169, 2020
@article{moura2020_1731980309801, author = "Moura, J. and Hutchison, D.", title = "Fog computing systems: state of the art, research issues and future trends, with a focus on resilience", journal = "Journal of Network and Computer Applications", year = "2020", volume = "169", number = "", doi = "10.1016/j.jnca.2020.102784", url = "https://www.sciencedirect.com/journal/journal-of-network-and-computer-applications" }
TY - JOUR TI - Fog computing systems: state of the art, research issues and future trends, with a focus on resilience T2 - Journal of Network and Computer Applications VL - 169 AU - Moura, J. AU - Hutchison, D. PY - 2020 SN - 1084-8045 DO - 10.1016/j.jnca.2020.102784 UR - https://www.sciencedirect.com/journal/journal-of-network-and-computer-applications AB - Many future innovative computing services will use Fog Computing Systems (FCS), integrated with Internet of Things (IoT) resources. These new services, built on the convergence of several distinct technologies, need to fulfil time-sensitive functions, provide variable levels of integration with their environment, and incorporate data storage, computation, communications, sensing, and control. There are, however, significant problems to be solved before such systems can be considered fit for purpose. The high heterogeneity, complexity, and dynamics of these resource-constrained systems bring new challenges to their robust and reliable operation, which implies the need for integral resilience management strategies. This paper surveys the state of the art in the relevant fields, and discusses the research issues and future trends that are emerging. We envisage future applications that have very stringent requirements, notably high-precision latency and synchronization between a large set of flows, where FCSs are key to supporting them. Thus, we hope to provide new insights into the design and management of resilient FCSs that are formed by IoT devices, edge computer servers and wireless sensor networks; these systems can be modelled using Game Theory, and flexibly programmed with the latest software and virtualization platforms. ER -