Abstract
With the introduction of low-power wireless technologies, like Bluetooth Low Energy (BLE), new applications are approaching the home automation, healthcare, fitness, automotive and consumer electronics markets. BLE devices are designed to maximize the battery life, i.e., to run for long time on a single coin-cell battery. In typical application scenarios of home automation and Ambient Assisted Living (AAL), the sensors that monitor relatively unpredictable and rare events should coexist with other sensors that continuously communicate health or environmental parameter measurements. The former usually work in connectionless mode, acting as advertisers, while the latter need a persistent connection, acting as slave nodes. The coexistence of connectionless and connection-oriented networks, that share the same central node, can be required to reduce the number of handling devices, thus keeping the network complexity low and limiting the packet’s traffic congestion. In this paper, the medium access management, operated by the central node, has been modeled, focusing on the scheduling procedure in both connectionless and connection-oriented communication. The models have been merged to provide a tool supporting the configuration design of BLE devices, during the network design phase that precedes the real implementation. The results highlight the suitability of the proposed tool: the ability to set the device parameters to allow us to keep a practical discovery latency for event-driven sensors and avoid undesired overlaps between scheduled scanning and connection phases due to bad management performed by the central node.
Highlights
Bluetooth Low Energy (BLE), marketed as Bluetooth Smart, is a subset of legacy Bluetooth (BT), sometimes referred to as classic Bluetooth (BT)
This section is divided into two paragraphs: the former provides some results on discovery latency issue, approaching the Algorithm 1, while the latter shows how to use Algorithm 2 and understand its results, with the aim to balance and optimize the networks setting
Assuming the master was previously connected to the slave A with connection interval Tci,A, it must properly design the configuration for B for the incoming connection
Summary
Bluetooth Low Energy (BLE), marketed as Bluetooth Smart, is a subset of legacy Bluetooth (BT), sometimes referred to as classic Bluetooth (BT). It was introduced as a part of the Bluetooth 4.0 core specification [1]. While it inherits many features from the legacy BT, BLE is different in terms of all the functionalities regarding smart energy management. (ii) small size and low cost, (iii) full compatibility with commonly-used devices such as mobile phones, tablets and computers. These properties make the BLE more favorable for many short-range
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