IEEE 802.11AH: the WiFi approach for M2M communications

M2M communications are positioned to be one of the fastest growing technology segments in the next decade. Sensor and actuator networks connect communication machines and devices so that they automatically transmit information, serving the growing demand for environmental data acquisition. The IEEE...

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Published in:IEEE wireless communications 2014-12, Vol.21 (6), p.144-152
Main Authors: Adame, Toni, Bel, Albert, Bellalta, Boris, Barcelo, Jaume, Oliver, Miquel
Format: Article
Language:English
Subjects:
Automation
Data models
Delay
Demand
Devices
Downlink
IEEE 802.11 Standards
Machine-to-machine communication
Monitoring
Networks
Reduction
Uplink
Wireless communication
Wireless sensor networks
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description M2M communications are positioned to be one of the fastest growing technology segments in the next decade. Sensor and actuator networks connect communication machines and devices so that they automatically transmit information, serving the growing demand for environmental data acquisition. The IEEE 802.11ah Task Group is working on a new standard to address the particular requirements of M2M networks: a large number of power-constrained stations; a long transmission range; small and infrequent data messages; low data rates; and a non-critical delay. This article explores the key features of this new standard, especially those related to the reduction of energy consumption in the medium access control layer. Given these requirements, a performance assessment of IEEE 802.11ah in four common M2M scenarios, i.e. agriculture monitoring, smart metering, industrial automation, and animal monitoring, is presented.
doi_str_mv 10.1109/MWC.2014.7000982
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subjects Automation
Data models
Delay
Demand
Devices
Downlink
IEEE 802.11 Standards
Machine-to-machine communication
Monitoring
Networks
Reduction
Uplink
Wireless communication
Wireless sensor networks
title IEEE 802.11AH: the WiFi approach for M2M communications
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