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机构地区:[1]浙江理工大学计算机科学与技术学院(人工智能学院),浙江 杭州 [2]嘉兴学院信息科学与工程学院,浙江 嘉兴
出 处:《软件工程与应用》2022年第6期1375-1382,共8页Software Engineering and Applications
摘 要:部署在电力无线传感网络中的传感器节点目前多数还依靠能量受限的电池驱动且算力有限,本文针对电力系统这一应用场景,使用双向时间戳交换算法校正时间偏移,保障同步精度;同时利用温度–频偏公式及时补偿同步节点相对于被同步节点的频率偏移,从而有效增加了同步算法执行间隔,以减少频繁交换时间戳产生的通信能耗,在保证时间同步精度的同时大大降低了同步过程产生的通信能耗。经过实验对比验证,本文设计的算法从校正同步精度和节约网络通信能耗两个维度与单纯交换时间戳校正时偏的同步算法相比都有一定程度的提升。Currently, most sensor nodes deployed in electric power wireless sensor networks are powered by low capacity batteries and have limited computing power. For the application scenario of electric power system, this paper uses a two-way timestamp exchange algorithm to correct the time offset and ensure the synchronization accuracy. Moreover, the temperature-frequency offset formula is used to compensate the frequency offset of the synchronizing node relative to the synchronized node in time, which effectively increases the execution interval of the synchronization algorithm and reduces the communication energy consumption caused by the frequent exchange of time stamps. While ensuring the accuracy of time synchronization, the communication energy consumption generated by the synchronization process is greatly reduced. After experimental comparison and verification, the algorithm designed in this paper has a certain degree of improvement in the two dimensions of correcting synchronization accuracy and saving network communication energy consumption compared to the synchronization algorithm that simply exchanges timestamps to correct the time offset.
分 类 号:TP212.9[自动化与计算机技术—检测技术与自动化装置] TN929.5[自动化与计算机技术—控制科学与工程]
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