具有定向天线的认知无线电Ad-Hoc网络干扰感知混合MAC协议

EAI Endorsed Trans. Wirel. Spectr. Pub Date : 2015-07-16 DOI:10.4108/ws.1.3.e1

Satish Anamalamudi, Minglu Jin, J. Kim

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引用次数: 1

摘要

在多通道认知MAC协议中，CR和PU隐藏终端导致丢包增加。这是由于与现有“控制通道”设计的节点同步效率低下。迄今为止，提出了基于带内和带外CCC的MAC协议，以避免PU和CR隐藏终端。但是，基于带内CCC的CR-MAC协议无法有效解决由于节点同步不完善而导致的终端隐藏丢包问题，而基于带外CCC的MAC协议容易受到入侵者攻击和信道饱和的影响。为了克服这个问题，我们提出了一种具有定向RTS/CTS和数据传输的干扰感知混合CCC认知MAC协议。此外，提出了自适应功率控制算法，以避免对边缘覆盖区域隐藏的PU和CR节点的干扰。实验结果表明，与现有基于CCC的CR-MAC协议相比，提出的混合认知MAC协议提高了链路总吞吐量，降低了认知控制开销。

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Interference-Aware Hybrid MAC protocol for Cognitive Radio Ad-Hoc Networks with Directional Antennas

CR and PU hidden terminals in multi-channel Cognitive MAC protocols result in increased packet drops. This is due to inefficient node synchronization with existing “Control Channel” design. To date, In-band and Out-of-band CCC based MAC protocols are proposed to avoid PU and CR hidden terminals. But, In-band CCC based CR-MAC protocols cannot efficiently resolve the hidden terminal packet drops due to imperfect node synchronization whereas out-of-band CCC based MAC is vulnerable to intruder attacks and channel saturation. To overcome this, we propose an Interference-aware hybrid CCC cognitive MAC protocol with directional RTS/CTS and data transmission. In addition, adaptive power control algorithm is proposed to avoid interference to hidden PU and CR nodes at edge coverage area. Experimental results show that proposed Hybrid cognitive MAC protocol has increased link aggregate throughput and reduced cognitive control overhead in comparison with existing CCC based CR-MAC protocols.

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EAI Endorsed Trans. Wirel. Spectr.

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