Detailed Examination of a Packet Collision Model for Bluetooth Low Energy Advertising Mode

The aim of this paper is to investigate the amount of energy that is required to successfully transmit information inside the Bluetooth low-energy (BLE) advertising packets. There are applications that require more than one BLE node to simultaneously transmit data. The BLE protocol utilizes a specif...

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Veröffentlicht in:	IEEE access 2018-01, Vol.6, p.46066-46073
Hauptverfasser:	Ghamari, Mohammad, Villeneuve, Emma, Soltanpur, Cinna, Khangosstar, Javad, Janko, Balazs, Sherratt, R. Simon, Harwin, William
Format:	Artikel
Sprache:	eng
Schlagworte:	Advertising Bluetooth Bluetooth low energy Bluetooth low energy advertising mode Broadcasting Collisions Current measurement Electronic devices Energy consumption Nodes packet collision analysis Power consumption Protocols Throughput
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creator	Ghamari, Mohammad Villeneuve, Emma Soltanpur, Cinna Khangosstar, Javad Janko, Balazs Sherratt, R. Simon Harwin, William
description	The aim of this paper is to investigate the amount of energy that is required to successfully transmit information inside the Bluetooth low-energy (BLE) advertising packets. There are applications that require more than one BLE node to simultaneously transmit data. The BLE protocol utilizes a specific communication method termed the advertising mode to perform unidirectional broadcasts of data from the advertising devices. However, with an increased number of BLE devices advertising simultaneously, there will be inevitable packet collisions from the advertising devices. This results in a waste of energy, specifically in low-power applications where lower consumption is desirable to minimize the need for battery replacements. This paper examines a packet collision model for the BLE advertising mode with the results validated using experimental data. Our analysis shows that when the throughput of the BLE network starts to fall due to an increase in the number of packet collisions, the energy consumption of the BLE nodes increases exponentially with respect to the number of nodes.
doi_str_mv	10.1109/ACCESS.2018.2866323
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subjects	Advertising Bluetooth Bluetooth low energy Bluetooth low energy advertising mode Broadcasting Collisions Current measurement Electronic devices Energy consumption Nodes packet collision analysis Power consumption Protocols Throughput
title	Detailed Examination of a Packet Collision Model for Bluetooth Low Energy Advertising Mode
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