2019
DOI: 10.1145/3301443
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Fog Computing for the Internet of Things

Abstract: Research in the Internet of Things (IoT) conceives a world where everyday objects are connected to the Internet and exchange, store, process, and collect data from the surrounding environment. IoT devices are becoming essential for supporting the delivery of data to enable electronic services, but they are not sufficient in most cases to host application services directly due to their intrinsic resource constraints. Fog Computing (FC) can be a suitable paradigm to overcome these limitations, as it can coexist … Show more

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Cited by 281 publications
(157 citation statements)
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References 137 publications
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“…These demands open many potential research directions to effectively governance MEC in IoT systems. The future works considering technical aspects of IoT and MEC, i.e., scalability, communication, computation offloading and resource allocation, mobility management, security, privacy, and trust management, have been well indicated and manifested in some recent MEC-IoT surveys, such as, [198], [199] to which the interested readers are recommended to refer. In the following, we discuss key open problems in MEC IoT systems which are different to the mentioned challenging technical aspects.…”
Section: Learned Lessons and Potential Workmentioning
confidence: 99%
“…These demands open many potential research directions to effectively governance MEC in IoT systems. The future works considering technical aspects of IoT and MEC, i.e., scalability, communication, computation offloading and resource allocation, mobility management, security, privacy, and trust management, have been well indicated and manifested in some recent MEC-IoT surveys, such as, [198], [199] to which the interested readers are recommended to refer. In the following, we discuss key open problems in MEC IoT systems which are different to the mentioned challenging technical aspects.…”
Section: Learned Lessons and Potential Workmentioning
confidence: 99%
“…If the RRH is busy, it sends a notification (2) to a seed node located near the client to serve on its behalf, which is also received by the client. The client then sends its tasks to the seed node (3). Based on the received tasks and task requirements, the seed node decides if it can serve the client on its own or should enlist the resources of its neighboring user devices by recruiting them as service nodes to collectively serve in a v-FAP.…”
Section: System Modellingmentioning
confidence: 99%
“…With the emergence of the Internet of Things (IoT), where a large number of smart devices will need to communicate with each other, next-generation cellular networks will play a pivotal role in providing fast and reliable communication services, not only to humans but also the IoT devices [1]. The notion of a cloud radio access network (Cloud-RAN) was developed to support these goals by enabling flexible splitting of RAN functionalities between radio access points (RAPs) and the cloud, based on the availability of cloud resources [2,3]. However, the Cloud-RAN may suffer from a heavy workload in its centralized baseband unit (BBU) pool, coerced backhaul capacity and difficulty in meeting the low latency requirements of delay-sensitive applications [4,5].…”
Section: Introductionmentioning
confidence: 99%
“…In the past few years, the Internet of Things has become common in many knowledge areas towards innovation, moving several kinds of research projects around the world. The IoT capability of collecting, recording and correlating data, enables the inference of knowledge, generating business, and learning [10].…”
Section: Internet Of Thingsmentioning
confidence: 99%