Fog Computing Model for Evolving Smart Transportation Applications

This chapter introduces the needs and prospects of adopting data‐drive transportation architectures and the landscape of smart applications supported over adoption of such data‐driven mobility models. It discusses which computer requirements can be best fulfilled through cloud...

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Vydáno v:Fog and Edge Computing s. 347 - 372
Hlavní autoři: Muzakkir Hussain, M., Alam, Mohammad Saad, Sufyan Beg, M.M.
Médium: Kapitola
Jazyk:angličtina
Vydáno: United States Wiley 2019
John Wiley & Sons, Incorporated
John Wiley & Sons, Inc
Vydání:1
Edice:Wiley Series on Parallel and Distributed Computing
Témata:
cloud computing
cloud platforms
data‐driven mobility models
fog computing framework
intelligent transportation systems
ITLM system
mission‐critical architectures
smart transportation applications
Cloud computing
Smart transportation
Computational modeling
Mission critical systems
Computer architecture
Edge computing
ISBN:9781119524984, 1119524989
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Shrnutí:This chapter introduces the needs and prospects of adopting data‐drive transportation architectures and the landscape of smart applications supported over adoption of such data‐driven mobility models. It discusses which computer requirements can be best fulfilled through cloud computing and which require fog rollout. The chapter identifies the fog computing requirements of intelligent transportation systems (ITS) such as mission‐critical architectures. It assesses the state of cloud platforms to store and compute support for such applications and discusses the proper mix of both computational models to best meet the mission‐critical computing needs of smart transportation applications. The chapter presents a fog computing framework customized to support latency sensitive ITS applications. The fog orchestrating requirements in ITS domain are substantiated through an intelligent traffic lights management (ITLM) system case study. The chapter outlines the key big data issues, challenges, and future research opportunities, while developing a viable fog orchestrator for smart transportation applications.
ISBN:9781119524984
1119524989
DOI:10.1002/9781119525080.ch14