A Hybrid Approach for Seamless and Interoperable Communication in the Internet of Things

Reliable and resource-aware communication is a challenging task in Internet of Things (IoT) networks. In these networks, seamless and interoperable communication among member devices is a challenging task that becomes more complex with the simultaneous communication of two or more devices with a cen...

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Veröffentlicht in:	IEEE network 2021-11, Vol.35 (6), p.202-208
Hauptverfasser:	Khan, Rahim, Ali, Ihsan, Jan, Mian A., Zakarya, Muhammad, Khan, Muazzam A., Alshamrani, Sultan S., Guizani, Mohsen
Format:	Artikel
Sprache:	eng
Schlagworte:	Bandwidth Bandwidths Communication Consumption Controllers Delays Internet of Things Logic gates Modules Network latency Quality of service Resource management Slot allocation Time division multiple access
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creator	Khan, Rahim Ali, Ihsan Jan, Mian A. Zakarya, Muhammad Khan, Muazzam A. Alshamrani, Sultan S. Guizani, Mohsen
description	Reliable and resource-aware communication is a challenging task in Internet of Things (IoT) networks. In these networks, seamless and interoperable communication among member devices is a challenging task that becomes more complex with the simultaneous communication of two or more devices with a centralized controller, that is, a cluster head or a gateway module. While addressing this challenge, existing approaches suffer from excessive packet collision, bandwidth consumption, packet loss, laten-cy, and unnecessary waiting for the TDMA slots. In this article, a hybrid communication approach is proposed to resolve most of the aforementioned challenges. Initially, a dynamic TDMA approach is presented to permit simultaneous and interoperable communication among multiple devices and their controller modules. The proposed approach allocates a variable number of time-slots to the IoT devices. For the time-slot allocation, an enhanced RTS/CTS mechanism is devised to allow seamless communication with a minimum possible latency, waiting time and bandwidth consumption. A case study of the proposed approach in a real-world IoT scenario is also presented. The simulation results verify the effectiveness of our proposed approach.
doi_str_mv	10.1109/MNET.011.2000787
format	Article
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subjects	Bandwidth Bandwidths Communication Consumption Controllers Delays Internet of Things Logic gates Modules Network latency Quality of service Resource management Slot allocation Time division multiple access
title	A Hybrid Approach for Seamless and Interoperable Communication in the Internet of Things
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