基于MISO波束形成射频发射机的SDWSN高效能量采集技术

Subaselvi Sundarraj, Gunaseelan Konganathan
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引用次数: 2

摘要

软件定义无线传感器网络(SDWSN)的出现是为了克服无线传感器网络中额外的能量消耗。即使这样,SDWSN中的传感器节点也会受到电池资源稀缺的影响。为了克服SDWSN的高能耗问题,通常在基站周围部署射频发射机(RF)。为了提高能量收集和网络中节点的覆盖,提出了一种利用多输入单输出(MISO)波束形成的射频发射机能量收集新技术。在该方法中,部署了多个天线射频发射器和单个天线传感器节点。提出了基于信噪比和能量收集约束的混合波束形成优化问题,以降低网络发射功率。为了得到混合波束形成设计的最优解,推导了基于凸二阶锥规划的优化问题。采用波束形成技术将波束引导到期望的方向,而将波束引导到另一个方向,提高了能量的收集。仿真结果表明,与现有基于射频发射机的能量收集方法相比,该方法具有更好的平均收集能量、平均发射功率、平均剩余能量和吞吐量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Energy Efficient Harvesting Technique for SDWSN using RF Transmitters with MISO Beamforming
Software Defined Wireless Sensor Networks (SDWSN) is emerged to overcome the additional energy consumption in WSN. Even then the sensor nodes in the SDWSN suffer from scarce battery resources. Generally, the Radio Frequency (RF) transmitters are deployed around the base station in the SDWSN to overcome the high energy consumption problem. To enhance harvesting energy and coverage of nodes in the network, a new energy harvesting technique using RF transmitters with Multiple Input and Single Output (MISO) beamforming is proposed. In this method, multiple antenna RF transmitters and single antenna sensor nodes are deployed. The optimization problem subject to Signal to Noise Ratio (SNR) and energy harvesting constraints is formulated for hybrid beamforming design to reduce the transmit power in the network. The optimization problem based on convex Second Order Cone Programming (SOCP) is derived to get the optimal solution for hybrid beamforming design. The beamforming technique is used to steer the beam in the desired direction and null to the other direction improves the energy harvesting. The simulation results show that the proposed technique provides better average harvesting energy, average transmit power, average residual energy and throughput than the existing RF transmitter based energy harvesting methods.
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