Nós geramos átomos em lugar da realidade das coisas: Pascal e o a-teísmo do infinito

Recent developments in telecommunications have allowed drawing new paradigms, including the Internet of Everything, to provide services by the interconnection of different physical devices enabling the exchange of data to enrich and automate people's daily activities; and Fog computing, which is an extension of the well-known Cloud computing, bringing tasks to the edge of the network exploiting characteristics such as lower latency, mobility support, and location awareness. Combining these paradigms opens a new set of possibilities for innovative services and applications; however, it also brings a new complex scenario that must be efficiently managed to properly fulfill the needs of the users. In this scenario, the Fog Orchestrator component is the key to coordinate the services in the middle of Cloud computing and Internet of Everything. In this paper, key challenges in the development of the Fog Orchestrator to support the Internet of Everything are identified, including how they affect the tasks that a Fog service Orchestrator should perform. Furthermore, different service Orchestrator architectures for the Fog are explored and analyzed in order to identify how the previously listed challenges are being tackled. Finally, a discussion about the open challenges, technological directions, and future of the research on this subject is presented.

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Assessing the reliability of fog computing for smart mobility applications in VANETs

Pereira

Ricardo

Luís

et al. 2019

Future Generation Computer Systems

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Scheduling service workflows for cost optimization in hybrid clouds

Bittencourt

Senna

Madeira

2010

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A Multi-Technology Communication Platform for Urban Mobile Sensing

Almeida

Oliveira

Luís

et al. 2018

Sensors

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A common concern in smart cities is the focus on sensing procedures to provide city-wide information to city managers and citizens. To meet the growing demands of smart cities, the network must provide the ability to handle a large number of mobile sensors/devices, with high heterogeneity and unpredictable mobility, by collecting and delivering the sensed information for future treatment. This work proposes a multi-wireless technology communication platform for opportunistic data gathering and data exchange with respect to smart cities. Through the implementation of a proprietary long-range (LoRa) network and an urban sensor network, our platform addresses the heterogeneity of Internet of Things (IoT) devices while conferring communications in an opportunistic manner, increasing the interoperability of our platform. It implements and evaluates a medium access communication (MAC) protocol for LoRa networks with multiple gateways. It also implements mobile Opportunistic VEhicular (mOVE), a delay-tolerant network (DTN)-based architecture to address the mobility dimension. The platform provides vehicle-to-everything (V2X) communication with support for highly reliable and actionable information flows. Moreover, taking into account the high mobility pattern that a smart city scenario presents, we propose and evaluate two forwarding strategies for the opportunistic sensor network.

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A Multi-Technology Opportunistic Platform for Environmental Data Gathering on Smart Cities

Almeida

Oliveira

Sousa³

et al. 2017

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Execution of service workflows in grid environments

Senna

Bittencourt

Madeira

2009

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A Forecasting Approach to Improve Control and Management for 5G Networks

Ferreira

Reis

Senna

et al. 2021

IEEE Trans. Netw. Serv. Manage.

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Handling Producer and Consumer Mobility in IoT Publish–Subscribe Named Data Networks

Hernández

Gameiro

Senna

et al. 2022

IEEE Internet Things J.

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Carlos Senna

Fog orchestration for the Internet of Everything: state-of-the-art and research challenges

Assessing the reliability of fog computing for smart mobility applications in VANETs

Scheduling service workflows for cost optimization in hybrid clouds

A Multi-Technology Communication Platform for Urban Mobile Sensing

A Multi-Technology Opportunistic Platform for Environmental Data Gathering on Smart Cities

Execution of service workflows in grid environments

A Forecasting Approach to Improve Control and Management for 5G Networks

Handling Producer and Consumer Mobility in IoT Publish–Subscribe Named Data Networks

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