The handover speed is always vital for the further development of Wireless Local Area Network (WLAN), which is enjoying a fast growth. Based on the handover technology specified in IEEE 802.11 WLAN, Manageable Fast Ha...The handover speed is always vital for the further development of Wireless Local Area Network (WLAN), which is enjoying a fast growth. Based on the handover technology specified in IEEE 802.11 WLAN, Manageable Fast Handover (MFHO) mechanism is proposed to speed up handover at the Access Point (AP), meet handover demands of services with different Quality of Service (QoS), and ensure service continuity. Adopting a handover policy named 'Make-before-break', this mechanism enables wireless APs to control and manage handover between two stations based on improving Inter-Access Point Protocol (IAPP). Tests have been carried out to compare functions and performance of MFHO and IAPP-based handover technology. The test results prove that MFHO provides a higher successful handover ratio and better handover performance than IAPP-based handover technology.展开更多
随着传统WLAN建网、维护问题的不断出现,一种全新的基于LWAPP(Lightweight Access Point Protocol,轻型接入点协议)的WLAN应运而生。指出了传统的WLAN存在的问题,介绍了基于LWAPP的WLAN的架构,阐述了LWAPP数据和控制信息的隧道传输模式...随着传统WLAN建网、维护问题的不断出现,一种全新的基于LWAPP(Lightweight Access Point Protocol,轻型接入点协议)的WLAN应运而生。指出了传统的WLAN存在的问题,介绍了基于LWAPP的WLAN的架构,阐述了LWAPP数据和控制信息的隧道传输模式,分析了轻型接入点和无线局域网控制器之间的主要交互过程和控制机制。展开更多
室内定位技术在多领域有着重要的应用,而传统的无线局域网(Wireless Local Area Network,WLAN)指纹定位方法通常很少考虑WLAN接收信号强度(Received Signal Strength,RSS)特征的多样性以及来自不同接入点(Access Point,AP)的RSS特征位...室内定位技术在多领域有着重要的应用,而传统的无线局域网(Wireless Local Area Network,WLAN)指纹定位方法通常很少考虑WLAN接收信号强度(Received Signal Strength,RSS)特征的多样性以及来自不同接入点(Access Point,AP)的RSS特征位置分辨力的差异性问题,从而导致WLAN定位精度不高且定位效率较低.对此,本文提出一种基于多维模糊映射AP优化的WLAN室内定位方法.在离线阶段通过多次采集RSS数据提取多维RSS特征,计算AP信息增益比及相应的离线模糊隶属度,并利用模糊关系方程求解多维RSS特征模糊权重;而在在线阶段,则通过多维模糊映射构造模糊判定矩阵并计算AP在线模糊隶属度,同时结合K近邻(K-Nearest Neighbor,KNN)算法完成对目标的位置坐标计算.实验结果表明,相较于传统的AP优化定位方法,所提方法在线阶段的定位计算开销最高减少了4.12 s,定位误差4 m内的置信概率为91.91%.展开更多
基于瘦接入点(FIT AP)模式建设的无线局域网(Wireless local area networks,WLAN)给用户带来无线接入的便捷,但其稳定性、可靠性不及有线网络接入。项目针对用户终端类型、AP布置情况以及网络结构分析,制定WLAN网络优化策略并部署。经测...基于瘦接入点(FIT AP)模式建设的无线局域网(Wireless local area networks,WLAN)给用户带来无线接入的便捷,但其稳定性、可靠性不及有线网络接入。项目针对用户终端类型、AP布置情况以及网络结构分析,制定WLAN网络优化策略并部署。经测试,采用的优化策略提高了用户终端无线连接的稳定性、可靠性及上网速率。展开更多
文摘The handover speed is always vital for the further development of Wireless Local Area Network (WLAN), which is enjoying a fast growth. Based on the handover technology specified in IEEE 802.11 WLAN, Manageable Fast Handover (MFHO) mechanism is proposed to speed up handover at the Access Point (AP), meet handover demands of services with different Quality of Service (QoS), and ensure service continuity. Adopting a handover policy named 'Make-before-break', this mechanism enables wireless APs to control and manage handover between two stations based on improving Inter-Access Point Protocol (IAPP). Tests have been carried out to compare functions and performance of MFHO and IAPP-based handover technology. The test results prove that MFHO provides a higher successful handover ratio and better handover performance than IAPP-based handover technology.
文摘随着传统WLAN建网、维护问题的不断出现,一种全新的基于LWAPP(Lightweight Access Point Protocol,轻型接入点协议)的WLAN应运而生。指出了传统的WLAN存在的问题,介绍了基于LWAPP的WLAN的架构,阐述了LWAPP数据和控制信息的隧道传输模式,分析了轻型接入点和无线局域网控制器之间的主要交互过程和控制机制。
文摘室内定位技术在多领域有着重要的应用,而传统的无线局域网(Wireless Local Area Network,WLAN)指纹定位方法通常很少考虑WLAN接收信号强度(Received Signal Strength,RSS)特征的多样性以及来自不同接入点(Access Point,AP)的RSS特征位置分辨力的差异性问题,从而导致WLAN定位精度不高且定位效率较低.对此,本文提出一种基于多维模糊映射AP优化的WLAN室内定位方法.在离线阶段通过多次采集RSS数据提取多维RSS特征,计算AP信息增益比及相应的离线模糊隶属度,并利用模糊关系方程求解多维RSS特征模糊权重;而在在线阶段,则通过多维模糊映射构造模糊判定矩阵并计算AP在线模糊隶属度,同时结合K近邻(K-Nearest Neighbor,KNN)算法完成对目标的位置坐标计算.实验结果表明,相较于传统的AP优化定位方法,所提方法在线阶段的定位计算开销最高减少了4.12 s,定位误差4 m内的置信概率为91.91%.
文摘基于瘦接入点(FIT AP)模式建设的无线局域网(Wireless local area networks,WLAN)给用户带来无线接入的便捷,但其稳定性、可靠性不及有线网络接入。项目针对用户终端类型、AP布置情况以及网络结构分析,制定WLAN网络优化策略并部署。经测试,采用的优化策略提高了用户终端无线连接的稳定性、可靠性及上网速率。
