F2c2C-DM: A Fog-to-cloudlet-to-Cloud Data Management Architecture in Smart City

Sinaeepourfard, Amir; Krogstie, John; Petersen, Sobah Abbas; Ahlers, Dirk

doi:10.1109/wf-iot.2019.8767226

Cited by 21 publications

(28 citation statements)

References 10 publications

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“…IoT hub is a new component in this architecture and other elements are the same as previous research of [23] and [27]. The final research of the series replaces IoT hub by the cloudlet layer [14], where a hybrid data management architecture combined with smart city scenario and ZEN center scenario are demonstrated. The architecture helps to reduce data traffic and latency of smart city data management.…”

Section: Literature Reviewmentioning

confidence: 97%

“…Cloud computing is one of the preferable data management technologies for developing smart cities [14]. To decrease the data traffic load and latency, other computing methods can be integrated with Cloud computing [14,17]. Cloud is large storage where a huge amount of data can be stored [14].…”

Section: Literature Reviewmentioning

confidence: 99%

“…To decrease the data traffic load and latency, other computing methods can be integrated with Cloud computing [14,17]. Cloud is large storage where a huge amount of data can be stored [14]. It is also exploited for machine learning (ML), data analytics, visualization, and other operations [17].…”

Section: Literature Reviewmentioning

confidence: 99%

“…Every layer will perform a different function and maintain a chain of data flow [25]. Moreover, the layers carry different types of data, such as random data, historical data, KPI data, and research data [14].…”

Section: Literature Reviewmentioning

confidence: 99%

“…So, it is an alarming policy making issue for the authorities because the cities will have to manage a vast population and thereby the possible smart city concept is no longer a dream. In a smart city, all the smart devices will integrate into a central system [14]. The service providers in the city will get the necessary access of respective information from the system and will act accordingly [15].…”

Section: Introductionmentioning

confidence: 99%

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IEF2C: A novel AI-powered framework for suspected COVID-19 patient detection and contact tracing in smart cities

Rahman

Mahmud

Rahman

2020

Preprint

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Novel coronavirus disease 2019 (COVID-19) has found as a climacteric pandemic that spreads from human-to-human through contiguity. It is not possible to control the virus properly because its vaccine has not been discovered yet. As of now, various contact tracing approaches are being taken to contain the spread of the virus by breaking its transmission chain. Recently, few technologies are being exploited for contact tracing such as geological location, Bluetooth and google maps. Governments of some countries have already launched contact tracing applications to identify the close contact people of COVID-19 positive patients.However, these methods may not be effective without a huge amount of testing facility since the tracing action starts when a COVID-19 testing result is found positive. In this paper, we have proposed a novel AI-powered data management framework for smart city named IoT-to-Edge-to-Fog-to-cloudlet-to-Cloud (IEF2C) data management framework which will be exploited to identify the COVID-19 suspected patients in smart cities and also be used to inform the surrounding people about the suspected patient. The proposed framework is isolated into five layers which have different tasks such as data collection, processing, authentication and storage. The framework will bring all the citizens under a common platform as well as will ensure the user and device mobility. It will mitigate the information gap by helping concerned authorities and users to take proper steps in such a pandemic era.

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Section: Literature Reviewmentioning

confidence: 97%

Section: Literature Reviewmentioning

confidence: 99%

Section: Literature Reviewmentioning

confidence: 99%

Section: Literature Reviewmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

IEF2C: A novel AI-powered framework for suspected COVID-19 patient detection and contact tracing in smart cities

Rahman

Mahmud

Rahman

2020

Preprint

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D2C-SM: Designing a Distributed-to-Centralized Software Management Architecture for Smart Cities

Sinaeepourfard

Petersen

Ahlers

2019

Lecture Notes in Computer Science

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Smart city innovations can enhance the quality of citizens' life through different smart technology management solutions, including resource management, data management, and software management. Nowadays, there are two primary proposals for smart technology management architectures in smart city environments, centralized, and distributed-to-centralized. The distributed-to-centralized schema architecture has several advantages. These advantages emerge from the contribution of distributed (e.g., Fog and cloudlet), and centralized (e.g., Cloud) technologies. For instance, decreasing network communication traffic and its latencies, improving data quality, and upgrading the security and privacy levels. In this paper, we develop our proposed Distributed-to-Centralized Data Management (D2C-DM) architecture and suggest novel contributions. First, we describe a new fully hierarchical software management architecture for smart cities based on Fog, cloudlet, and Cloud technologies. This Distributed-to-Centralized Software Management (D2C-SM) architecture can provide different software and services layers (including local, historical, and combined) through using distinct data types gathered from physical (e.g., sensors and smartphones) and non-physical (e.g., simulated data, and external databases) data sources in the smart city. Second, we envisage that our proposed D2C-SM can fit the software requirements of the Zero Emission Neighborhoods (ZEN) center. Thereafter, we use three different use cases of the ZEN center to depict the easy adaptation of our proposed ICT architecture, including D2C-SM and D2C-DM architectures.

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Distributed-to-Centralized Data Management Through Data LifeCycle Models for Zero Emission Neighborhoods

Sinaeepourfard

Petersen

2019

Communications in Computer and Information Science

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F2c2C-DM: A Fog-to-cloudlet-to-Cloud Data Management Architecture in Smart City

Cited by 21 publications

References 10 publications

IEF2C: A novel AI-powered framework for suspected COVID-19 patient detection and contact tracing in smart cities

IEF2C: A novel AI-powered framework for suspected COVID-19 patient detection and contact tracing in smart cities

D2C-SM: Designing a Distributed-to-Centralized Software Management Architecture for Smart Cities

Distributed-to-Centralized Data Management Through Data LifeCycle Models for Zero Emission Neighborhoods

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