Qing Wang, Junsong Wang, Yonghua Lin, Jianbin Tang, Z. Zhu
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引用次数: 11
摘要
智能电网中的无线通信是典型的机器对机器通信场景。与其他M2M应用相比,智能电网通信系统对稳定性、安全性和可靠性的要求更为严格。干扰管理是保证无线系统稳定可靠工作的关键问题之一。干扰可能来自现有的SCADA (Supervisory Control and Data Acquisition)系统,也可能来自某些使用同一频段的未知设备。在本文中,我们提出了一种新的基于WiMAX的系统在认知环境下管理各种带内干扰的机制,这在没有为新系统分配专用频谱资源或处于系统从窄带向宽带演进阶段时具有重要意义。在正常无线通信过程中,我们设计了周期感知(PS)过程来获取实时干扰信息,并定义了物理层和MAC层之间的跨层消息,分别将干扰信息传递给下行链路和上行链路。在对PS数据进行时域和频域分析的基础上,我们将接收到的干扰分为几种类型,并采取相应的管理方法来减少干扰带来的影响。通过两个城市的现场测试,证明了我们提出的干扰管理机制是有效的。
Interference management for smart grid communication under cognitive wireless network
Wireless communication in smart grid is a typical scenario of Machine-to-Machine (M2M) communication. For a smart grid communication system, the requirements for stability, security and reliability are more strict than those for other M2M applications. Interference management is one of the key challenges to ensure the wireless system working with stability and reliability. The interferences may come from the existed SCADA (Supervisory Control and Data Acquisition) system, or some unknown devices using the same spectrum band occasionally. In this paper, we propose a novel mechanism for a WiMAX based system to manage various in-band interferences under cognitive environment, which are meaningful when there is no dedicated spectrum resource assigned for the new system or at the stage for system evolution from narrow band to broadband. We design the periodical sensing (PS) process during the normal wireless communication to obtain the realtime interference information and define the cross layer message between PHY and MAC to deliver the interference information to downlink and uplink respectively. Based on the time and frequency domain analysis for PS data, we classify received interferences into several types and execute corresponding management methods to reduce the influences caused by interferences. Through the field test in two cities, it proves that the interference management mechanism we proposed is effective.