Multi-Level Resource Sharing Framework Using Collaborative Fog Environment for Smart Cities

Qayyum, Tariq; Trabelsi, Zouheir; Malik, Asad Waqar; Hayawi, Kadhim

doi:10.1109/access.2021.3054420

Cited by 20 publications

(9 citation statements)

References 44 publications

(45 reference statements)

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“…In comparison, another optimal resource-sharing approach could maximize the corresponding utility [22]. A hybrid system that combines Mobile Edge Computing (MEC) and Software-Defined Systems (SDSys) for constructing ubiquitous MEC where many local controllers are connected by a global controller [23]. Cloud computing is used to mitigate resource management via sharing device resources among users [24].…”

Section: B Related Workmentioning

confidence: 99%

A Fog Computing Framework in IoT Healthcare Environment: Towards A New Method Based on Tasks Significance

Shanshool¹,

Abbas²

2022

Int. J. Adv. Sci. Eng. Inf. Technol.

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The Internet-of-Things (IoT) is an important technology and is considered the future of the Internet. Healthcare is described as one of the important areas in IoT used for remote patient monitoring. Real-time remote monitoring health applications are important as delays in data transfer between the cloud, and the application may be unacceptable. Fog computing refers to a geographically distributed computing system with several devices connected to the same network to achieve flexible and collaborative computation, storage, and communication services. Fog computing is mainly used for efficient data processing between sensors and cloud computing as it reduces the volume of data exchanged between sensors and the cloud, thereby improving the whole system's efficiency. Wireless sensor networks (WSN) are also used in health monitoring systems to simultaneously transfer huge data volumes (of different priority levels and length values) to the fog computing system. Hence, there is a need to appropriately implement a task scheduling mechanism that can accurately prioritize tasks irrespective of their length. This study aims to systematically review the existing fog computing technologies in the Internet of things HealthCare (IoTH) systems and improve the performance of the available static task scheduling algorithms using the Tasks Classification (TC) method where task importance is paramount. The performance of the suggested approach was evaluated based on the Max-Min scheduling algorithm (SA).

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Section: B Related Workmentioning

confidence: 99%

A Fog Computing Framework in IoT Healthcare Environment: Towards A New Method Based on Tasks Significance

Shanshool¹,

Abbas²

2022

Int. J. Adv. Sci. Eng. Inf. Technol.

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“…Qayyum et al [154] proposed a framework based on the QoS that managed the peak computation load and resource sharing of fog devices. The authors have work on the Earliest Deadline First and Ant Colony Optimization (ACO) algorithms to improve the performance.…”

Section: ) Metricsmentioning

confidence: 99%

Fog computing: A taxonomy, systematic review, current trends and research challenges

Singh

Gill

2021

Journal of Parallel and Distributed Computing

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“…In iIFCs, cloud computing offers scalable and on-demand computing and data storage infrastructures for smart city applications. Furthermore, fog computing enables the establishment of large-scale and scalable IoT networks to support these applications [68,[135][136][137]. A single-level (linear) or multi-level (hierarchical) fog architecture can be employed to provide scalable support for smart city applications.…”

Section: Scalabilitymentioning

confidence: 99%

“…Collaboration between fog nodes in close proximity to each other will enable better utilization of their resources and an enhanced ability to achieve real-time performance. With fog node collaboration, better load balancing across these nodes is achieved and situations where some nodes become overloaded while there are other nodes with low loads can be eliminated [137,138]. However, adding features to enable fog nodes collaboration is also a complex task, as several issues must be addressed.…”

Section: Real-time Supportmentioning

confidence: 99%

Applications of Integrated IoT-Fog-Cloud Systems to Smart Cities: A Survey

et al. 2021

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Several cities have recently moved towards becoming smart cities for better services and quality of life for residents and visitors, with: optimized resource utilization; increased environmental protection; enhanced infrastructure operations and maintenance; and strong safety and security measures. Smart cities depend on deploying current and new technologies and different optimization methods to enhance services and performance in their different sectors. Some of the technologies assisting smart city applications are the Internet of Things (IoT), fog computing, and cloud computing. Integrating these three to serve one system (we will refer to it as integrated IoT-fog-cloud system (iIFC)) creates an advanced platform to develop and operate various types of smart city applications. This platform will allow applications to use the best features from the IoT devices, fog nodes, and cloud services to deliver best capabilities and performance. Utilizing this powerful platform will provide many opportunities for enhancing and optimizing applications in energy, transportation, healthcare, and other areas. In this paper we survey various applications of iIFCs for smart cities. We identify different common issues associated with utilizing iIFCs for smart city applications. These issues arise due to the characteristics of iIFCs on the one side and the requirements of different smart city applications on the other. In addition, we outline the main requirements to effectively utilize iIFCs for smart city applications. These requirements are related to optimization, networking, and security.

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Multi-Level Resource Sharing Framework Using Collaborative Fog Environment for Smart Cities

Cited by 20 publications

References 44 publications

A Fog Computing Framework in IoT Healthcare Environment: Towards A New Method Based on Tasks Significance

A Fog Computing Framework in IoT Healthcare Environment: Towards A New Method Based on Tasks Significance

Fog computing: A taxonomy, systematic review, current trends and research challenges

Applications of Integrated IoT-Fog-Cloud Systems to Smart Cities: A Survey

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