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    • 3. 发明申请
    • Client Balancing in Wireless Networks
    • 客户平衡无线网络
    • US20100195497A1
    • 2010-08-05
    • US12363611
    • 2009-01-30
    • Pradeep IyerSachin Ganu
    • Pradeep IyerSachin Ganu
    • H04J1/16H04W4/00
    • H04W48/06H04W28/08
    • Client balancing in a wireless digital network comprising a plurality of access nodes connected to a controller. Access nodes collect client density information and periodically report that client density information to the controller. The controller uses the client density information from the access nodes to compute Virtual RF Neighborhoods, identifying Virtual RF neighboring access nodes. Two access nodes are Virtual RF neighbors if a client which can connect to one access node can also connect to the other access node. The controller then identifies which nodes are overloaded by comparing the client loading of a target access node to the client loading of its Virtual RF neighbors. If an access node is identified as overloaded and selected for client balancing on a particular channel, it will initially refuse new association requests from client devices on that channel.
    • 包括连接到控制器的多个接入节点的无线数字网络中的客户端平衡。 接入节点收集客户密度信息,并定期向控制器报告客户密度信息。 控制器使用来自接入节点的客户端密度信息来计算虚拟RF邻居,识别虚拟RF邻近接入节点。 如果可以连接到一个接入节点的客户端也可以连接到另一个接入节点,则两个接入节点是虚拟RF邻居。 然后,控制器通过将目标接入节点的客户端负载与其虚拟RF邻居的客户端加载进行比较来识别哪些节点被重载。 如果接入节点被识别为过载并且被选择用于特定信道上的客户端平衡,则它将最初拒绝来自该信道上的客户端设备的新的关联请求。
    • 6. 发明申请
    • Client Balancing in Wireless Networks
    • 客户平衡无线网络
    • US20120170455A1
    • 2012-07-05
    • US13417080
    • 2012-03-09
    • Pradeep IyerSachin Ganu
    • Pradeep IyerSachin Ganu
    • H04W28/08H04W24/00H04W84/02
    • H04W48/06H04W28/08
    • Herein, a method directed to receiving, by a network device, client density data of a first access node in a plurality of access nodes in a network. Also, the network device receives client density data of a second access node in the plurality of access nodes. The network device determines whether the client density data of the first access node overlaps with the client density data of the second access node. In response to the received client density data of the first access node overlapping with the received client density data of the second access node, the network device identifies the first access node and the second access node as members of a virtual radio frequency (RF) neighborhood, wherein the virtual RF neighborhood comprises a subset of a RF neighborhood. Each member of the virtual RF neighborhood is capable of receiving beacons from other members of the virtual RF neighborhood.
    • 这里,一种旨在通过网络设备接收网络中的多个接入节点中的第一接入节点的客户密度数据的方法。 此外,网络设备接收多个接入节点中的第二接入节点的客户密度数据。 网络设备确定第一接入节点的客户密度数据是否与第二接入节点的客户密度数据重叠。 响应于第一接入节点接收到的客户密度数据与第二接入节点的接收到的客户密度数据重叠,网络设备将第一接入节点和第二接入节点标识为虚拟射频(RF)邻域的成员 ,其中所述虚拟RF邻域包括RF邻域的子集。 虚拟RF邻域的每个成员能够从虚拟RF邻域的其他成员接收信标。
    • 7. 发明授权
    • Client balancing in wireless networks
    • 无线网络中的客户端平衡
    • US09100895B2
    • 2015-08-04
    • US13417080
    • 2012-03-09
    • Pradeep IyerSachin Ganu
    • Pradeep IyerSachin Ganu
    • H04W4/00H04W48/06H04W28/08
    • H04W48/06H04W28/08
    • A method directed to receiving, by a network device, client density data of a first access node in a plurality of access nodes in a network. Also, the network device receives client density data of a second access node in the plurality of access nodes. The network device determines whether the client density data of the first access node overlaps with the client density data of the second access node. In response to the received client density data of the first access node overlapping with the received client density data of the second access node, the network device identifies the first access node and the second access node as members of a virtual radio frequency (RF) neighborhood, wherein the virtual RF neighborhood comprises a subset of a RF neighborhood. Each member of the virtual RF neighborhood is capable of receiving beacons from other members of the virtual RF neighborhood.
    • 一种旨在通过网络设备接收网络中的多个接入节点中的第一接入节点的客户密度数据的方法。 此外,网络设备接收多个接入节点中的第二接入节点的客户密度数据。 网络设备确定第一接入节点的客户密度数据是否与第二接入节点的客户密度数据重叠。 响应于第一接入节点接收的客户密度数据与第二接入节点的接收到的客户密度数据重叠,网络设备将第一接入节点和第二接入节点标识为虚拟射频(RF)邻域的成员 ,其中所述虚拟RF邻域包括RF邻域的子集。 虚拟RF邻域的每个成员能够从虚拟RF邻域的其他成员接收信标。
    • 8. 发明授权
    • Client balancing in wireless networks
    • 无线网络中的客户端平衡
    • US08155058B2
    • 2012-04-10
    • US12363611
    • 2009-01-30
    • Pradeep IyerSachin Ganu
    • Pradeep IyerSachin Ganu
    • H04W4/00
    • H04W48/06H04W28/08
    • Client balancing in a wireless digital network comprising a plurality of access nodes connected to a controller. Access nodes collect client density information and periodically report that client density information to the controller. The controller uses the client density information from the access nodes to compute Virtual RF Neighborhoods, identifying Virtual RF neighboring access nodes. Two access nodes are Virtual RF neighbors if a client which can connect to one access node can also connect to the other access node. The controller then identifies which nodes are overloaded by comparing the client loading of a target access node to the client loading of its Virtual RF neighbors. If an access node is identified as overloaded and selected for client balancing on a particular channel, it will initially refuse new association requests from client devices on that channel.
    • 包括连接到控制器的多个接入节点的无线数字网络中的客户端平衡。 接入节点收集客户密度信息,并定期向控制器报告客户密度信息。 控制器使用来自接入节点的客户端密度信息来计算虚拟RF邻居,识别虚拟RF邻近接入节点。 如果可以连接到一个接入节点的客户端也可以连接到另一个接入节点,则两个接入节点是虚拟RF邻居。 然后,控制器通过将目标接入节点的客户端负载与其虚拟RF邻居的客户端加载进行比较来识别哪些节点被重载。 如果接入节点被识别为过载并且被选择用于特定信道上的客户端平衡,则它将最初拒绝来自该信道上的客户端设备的新的关联请求。
    • 10. 发明授权
    • HTTP proxy based captive portal
    • 基于HTTP代理的强制门户
    • US09456018B2
    • 2016-09-27
    • US12976700
    • 2010-12-22
    • Pradeep Iyer
    • Pradeep Iyer
    • G06F15/16H04L29/08H04L12/14H04L29/06
    • H04L67/02H04L12/1403H04L63/08H04L63/164H04L67/2814
    • HTTP-Based Captive Portal. Client requests through a device such as an access point or wired connection are routed through a captive portal switch (CPS). If the CPS determines that the client has not been authenticated, the CPS redirects (NATs) the client request to an internal HTTP proxy. The CPS HTTP proxy terminates the client request and opens a connection to a captive portal server. Thus, for an unauthenticated client, any HTTP request will be routed to the captive portal server. When client authentication at the captive portal server completes, the captive portal server returns a success code, such as embedded in a web page delivered to the client. When the CPS recognizes this success code, it disables the NAT for that client, allowing further requests to be passed through the network. The CPS may be hosted in a separate network appliance, or it may be a process hosted in the AP or on another AP in the network, or on a network device such as a controller or switch.
    • 基于HTTP的强制门户。 通过诸如接入点或有线连接的设备的客户端请求通过强制门户交换机(CPS)进行路由。 如果CPS确定客户端尚未被认证,则CPS将客户端请求重定向到内部HTTP代理(NAT)。 CPS HTTP代理终止客户端请求,并打开与强制门户服务器的连接。 因此,对于未经身份验证的客户端,任何HTTP请求将被路由到强制门户服务器。 当强制门户网站服务器的客户端验证完成时,强制门户网站服务器返回一个成功代码,例如嵌入到传递给客户端的网页中。 当CPS认可此成功代码时,它将禁用该客户端的NAT,允许进一步的请求通过网络传递。 CPS可以托管在单独的网络设备中,或者它可以是在AP中或在网络中的另一个AP上托管的进程,或者在诸如控制器或交换机的网络设备上。