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1. 发明申请

WO2015186077A1 A UNIVERSAL REPEATER, A METHOD OF OPERATING A UNIVERSAL REPEATER AND A NETWORK INCLUDING THE SAME 审中-公开
标题翻译：通用复用器，通用复用器和网络的操作方法
公开(公告)号：WO2015186077A1
公开(公告)日：2015-12-10
申请号：PCT/IB2015/054203
申请日：2015-06-03
申请人： AIRTIES KABLOSUZ ILETISM SANAYI VE DISTICARET AS
发明人： BIRLIK, Firat , CAN, Ilhan , KARACA, Mehmet
IPC分类号： H04W76/02 , H04W84/12
CPC分类号： H04W74/004 , H04B7/155 , H04W16/26 , H04W24/02 , H04W28/18 , H04W76/10 , H04W76/14 , H04W84/12
摘要： A Universal Repeater (UR) is configured to pair with an uplink in a network. The UR includes an interface configured to interface with an uplink along a selected route between the UR and an access point (AP) in a network; and a memory having machine executable code therein that, when executed by a processor, causes the processor to determine the uplink based on data received from a plurality of candidate uplinks, and to instruct the interface to pair with the uplink (S1010). Preferably, a process S1000 commences at step S 1002, when the universal repeater is activated within a WLAN network and comes online. Then, the process moves to step S1004, whereby the universal repeater listens for 1 second for beacons using the same SSID. The process then moves to step S1006, whereby the universal repeater determines the BSSIDs of the devices, inluding a plurality of URs, operating in the WLAN and the end-to-end capacities from the devices operating in the WLAN to the Access Point (AP) gateway of the network.The process then determines a sorted list of end-to-end capacities for each of the devices at step S1008. Once the universal repeater has determined the sorted list, the universal repeater associates itself as a station (STA) to the device with the BSSID with the highest end-to-end capacity at step S 1010. The process then ends at step S 1012. The universal repeater may further determine the uplink based on a number of hops between the UR and the AP. Advantageously, a universal repeater that is introduced into a wireless network can dynamically associate with other parts of the network, thereby extending the range of the network whilst providing the most efficient throughput from that universal repeater to the network gateway. Beneficially, subsequently introduced universal repeaters in an extended network can form efficient chains of connection to a gateway. When the universal repeater has associated as a STA to the BSSID with the highest end-to-end capacity, third party devices are more easily able to integrate with the network, whilst benefitting from the optimised data throughput.
摘要翻译：通用中继器（UR）被配置为与网络中的上行链路进行配对。 UR包括被配置为沿着UR与网络中的接入点（AP）之间的所选路由与上行链路接口的接口; 以及其中具有机器可执行代码的存储器，当由处理器执行时，使处理器基于从多个候选上行链路接收的数据来确定上行链路，并指示接口与上行链路配对（S1010）。优选地，当通用中继器在WLAN网络内被激活并在线时，步骤S1000开始于步骤S1002。然后，处理进入步骤S1004，由此通用中继器使用相同的SSID侦听1秒钟的信标。然后，该过程移动到步骤S1006，由此通用中继器确定在WLAN中操作的多个设备的BSSID，以及从在WLAN中操作的设备到接入点（AP）的端到端容量）网关。然后，过程在步骤S1008确定每个设备的端到端容量的排序列表。一旦通用中继器确定了排序的列表，则在步骤S1010，通用中继器将自身关联到具有具有最高端到端容量的BSSID的设备的站（STA）。该过程在步骤S1012结束。通用中继器还可以基于UR与AP之间的跳数进一步确定上行链路。有利地，引入到无线网络中的通用中继器可以动态地与网络的其他部分相关联，从而扩展网络的范围，同时提供从该通用中继器到网络网关的最有效的吞吐量。有利地，随后在扩展网络中引入通用中继器可以形成与网关的有效连接链。当通用中继器作为STA与具有最高端到端容量的BSSID相关联时，第三方设备更容易地能够与网络集成，同时受益于优化的数据吞吐量。

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