论文标题

蓝牙低能网络网络用于功率限制,健壮和可靠的物联网服务

Bluetooth Low Energy mesh network for power-limited, robust and reliable IoT services

论文作者

Villa, Davide, Lin, Chih-Kuang, Kuenzi, Adam, Lang, Michael

论文摘要

蓝牙低能(BLE)是一种新兴的无线技术,专门用于短期控制和监视应用程序,由于其低成本和低能消耗,它在物联网(IoT)服务中越来越普遍。在本文中,我们提出了一种新颖的邻居发现方案和多路径低功率和可靠的BLE网络的新型邻居发现方案和故障恢复技术。通过利用节能访问控制以及具有自适应故障恢复的快速,可靠的路由想法,所提出的方法的表现优于BLE网格标准使用的众所周知的洪水方法。我们在事件驱动的模拟中显示了数据包潜伏期和功耗的改善,因为网络拓扑和流量变化。在模拟过程中,提出的故障恢复方法将进行了优化和证明,显示了不同用例中的整体故障恢复潜伏期和节点功耗的变化。

Bluetooth Low Energy (BLE) is an emerging wireless technology created for short-range control and monitoring applications that is becoming increasingly widespread among the Internet of Things (IoT) services because of its low-cost and low-energy consumption. In this paper, we propose a novel neighbor discovery scheme and failure recovery techniques for multi-path and single-path low-power and reliable BLE networks. By exploiting energy-efficient access control and fast and robust routing ideas with adaptive failure recovery, the proposed methods outperform the well-known flooding approach used by the BLE Mesh standard. We show varying improvements in packet latency and power consumption in event-driven simulations as network topology and traffic changes. The failure recovery approaches proposed are optimized and demonstrated during the simulations, showing the varying of the overall failure recovery latency and node power consumption in different use cases.

扫码加入交流群

加入微信交流群

微信交流群二维码

扫码加入学术交流群,获取更多资源