干扰受限环境下蓝芽系统的性能及自适应跳频共存机制  被引量:2

Performance of Bluetooth Systems in Interference-limited Environment and Adaptive Frequency Hopping Co-existence Mechanism

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作  者:唐欣[1] 陈雷[1] 周正[1] 

机构地区:[1]北京邮电大学电信学院,北京100876

出  处:《电路与系统学报》2003年第5期23-27,共5页Journal of Circuits and Systems

基  金:国家电子工业发展基金项目(863-306-2D13-04-8)

摘  要:随着无线局域网(WLAN)的日益普及和无线个人局域网(WPAN)的飞速发展,由于共享同一频段而产生的系统间干扰不可避免。本文着重讨论基于IEEE802.11b标准的WLAN对基于蓝芽(Bluetooth)的短距离无线通信系统的影响。在利用MATLAB和C++搭建的系统干扰模型的仿真平台上,实现了基于蓝芽物理层的自适应跳频(Adaptive Frequency Hopping-AFH)共存机制(Co-existence Mechanism)。仿真结果显示,通过简单的AFH信道选择模块,可以有效减轻WLAN对蓝芽的干扰影响。With the wide-spread popularity of WLANs and WPANs, interference problem becomes unavoidable due to different wireless systems sharing the same bandwidth of frequency. In this paper, IEEE 802.11b based WLAN and Bluetooth-based short-range radio system are discussed, focusing on the impact of interference produced by WLAN on the Bluetooth. Simulation platform based on system interference model is built with the MATLAB and C++, then AFH coexistence mechanism based on Bluetooth PHY layer is implemented. Simulation results show that applying the simple AFH Selection Box, the interference from WLAN can be reduced significantly.

关 键 词:无线局域网 无线个人局域网 蓝芽 干扰 共存 

分 类 号:TN929.5[电子电信—通信与信息系统]

 

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