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STROVE: spatial data infrastructure enabled cloud-fog-edge computing framework for combating COVID-19 pandemic.
Ghosh, Shreya; Mukherjee, Anwesha.
  • Ghosh S; Department of Computer Science and Engineering, Indian Institute of Technology Kharagpur, Kharagpur, India.
  • Mukherjee A; College of Information Sciences and Technology, The Pennsylvania State University, State College, USA.
Innov Syst Softw Eng ; : 1-17, 2022 Jun 02.
Article in English | MEDLINE | ID: covidwho-1885485
ABSTRACT
The outbreak of 2019 novel coronavirus (COVID-19) has triggered unprecedented challenges and put the whole world in a parlous condition. The impacts of COVID-19 is a matter of grave concern in terms of fatality rate, socio-economical condition, health infrastructure. It is obvious that only pharmaceutical solutions (vaccine) cannot eradicate this pandemic completely, and effective strategies regarding lockdown measures, restricted mobility, emergency services to users-in brief data-driven decision system is of utmost importance. This necessitates an efficient data analytics framework, data infrastructure to store, manage pandemic related information, and distributed computing platform to support such data-driven operations. In the past few decades, Internet of Things-based devices and applications have emerged significantly in various sectors including healthcare and time-critical applications. To be specific, health-sensors help to accumulate health-related parameters at different time-instances of a day, the movement sensors keep track of mobility traces of the user, and helps to assist them in varied conditions. The smartphones are equipped with several such sensors and the ability of low-cost connected sensors to cover large areas makes it the most useful component to combat pandemics such as COVID-19. However, analysing and managing the huge amount of data generated by these sensors is a big challenge. In this paper we have proposed a unified framework which has three major components (i) Spatial Data Infrastructure to manage, store, analyse and share spatio-temporal information with stakeholders efficiently, (ii) Cloud-Fog-Edge-based hierarchical architecture to support preliminary diagnosis, monitoring patients' mobility, health parameters and activities while they are in quarantine or home-based treatment, and (iii) Assisting users in varied emergency situation leveraging efficient data-driven techniques at low-latency and energy consumption. The mobility data analytics along with SDI is required to interpret the movement dynamics of the region and correlate with COVID-19 hotspots. Further, Cloud-Fog-Edge-based system architecture is required to provision healthcare services efficiently and in timely manner. The proposed framework yields encouraging results in taking decisions based on the COVID-19 context and assisting users effectively by enhancing accuracy of detecting suspected infected people by ∼ 24% and reducing delay by ∼ 55% compared to cloud-only system.
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Full text: Available Collection: International databases Database: MEDLINE Topics: Vaccines Language: English Journal: Innov Syst Softw Eng Year: 2022 Document Type: Article Affiliation country: S11334-022-00458-2

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Full text: Available Collection: International databases Database: MEDLINE Topics: Vaccines Language: English Journal: Innov Syst Softw Eng Year: 2022 Document Type: Article Affiliation country: S11334-022-00458-2