Liu Wei, Xia Yu, Zheng Daqing, Xie Jian, Luo Rong, Hu Shunren
School of Electrical and Electronic Engineering, Chongqing University of Technology, Chongqing 400054, China.
Department of Electronic Engineering, Tsinghua University, Beijing 100084, China.
Sensors (Basel). 2020 Sep 17;20(18):5327. doi: 10.3390/s20185327.
Hardware-based link quality estimators (LQEs) in wireless sensor networks generally use physical layer parameters to estimate packet reception ratio, which has advantages of high agility and low overhead. However, many existing studies didn't consider the impacts of environmental changes on the applicability of these estimators. This paper compares the performance of typical hardware-based LQEs in different environments. Meanwhile, aiming at the problematic Signal-to-Noise Ratio () calculation used in existing studies, a more reasonable calculation method is proposed. The results show that it is not accurate to estimate the packet reception rate using the communication distance, and it may be useless when the environment changes. Meanwhile, the fluctuation range of the Received Signal Strength Indicator () and will be affected and that of Link Quality Indicator (LQI) is almost unchanged. The performance of based LQEs may degrade when the environment changes. Fortunately, this degradation is mainly caused by the change of background noise, which could be compensated conveniently. The best environmental adaptability is gained by LQI and based LQEs, as they are almost unaffected when the environment changes. Moreover, LQI based LQEs are more accurate than based ones in the transitional region. Nevertheless, compared with , the fluctuation range of LQI is much larger, which needs a larger smoothing window to converge. In addition, the calculation of LQI is typically vendor-specific. Therefore, the tradeoff between accuracy, agility, and convenience should be considered in practice.
无线传感器网络中基于硬件的链路质量估计器(LQEs)通常使用物理层参数来估计数据包接收率,具有高敏捷性和低开销的优点。然而,许多现有研究没有考虑环境变化对这些估计器适用性的影响。本文比较了典型的基于硬件的LQEs在不同环境中的性能。同时,针对现有研究中存在问题的信噪比()计算,提出了一种更合理的计算方法。结果表明,使用通信距离估计数据包接收率并不准确,在环境变化时可能毫无用处。同时,接收信号强度指示符()和的波动范围会受到影响,而链路质量指示符(LQI)的波动范围几乎不变。当环境变化时,基于的LQEs的性能可能会下降。幸运的是,这种下降主要是由背景噪声的变化引起的,可以方便地进行补偿。基于LQI和的LQEs具有最佳的环境适应性,因为它们在环境变化时几乎不受影响。此外,在过渡区域,基于LQI的LQEs比基于的更准确。然而,与相比,LQI的波动范围要大得多,这需要更大的平滑窗口来收敛。此外,LQI的计算通常是特定于供应商的。因此,在实际应用中应考虑准确性、敏捷性和便利性之间的权衡。
