Patent application number | Description | Published |
20080205352 | COMMUNICATION BETWEEN OVERLAPPING WRAN CELLS WORKING IN DIFFERENT CHANNELS - A common control channel for base station (“BS”)/consumer premise equipment (“CPE”) communication in areas of overlapping coverage by wireless regional area network (“WRAN”) cells operating on different working channels is disclosed. A common control channel is selected from among the various working channels sensed in each of a plurality of overlapping WRAN cells so as to enable BS/CPE and BS/BS communication. Once chosen, each CPE within the overlapping area communicates with the controlling BS via an enhanced coexistence beacon protocol messages. These messages include timing and other synchronization information. | 08-28-2008 |
20080207192 | PRIORITIZED COMMON SUBFRAME TO PROVIDE BETTER SERVICE TO THE OVERLAPPING AREAS IN A COMMUNITY - A subframe structure for a wireless community uses a master common subframe and second master common subframe method to give BSs different priorities to serve overlapping areas in common subframes. The subframe structure and corresponding method can increase overlapping cells' capacity and reduce interference. | 08-28-2008 |
20080207215 | FAIR CHANNEL USE IN A WIRELESS AREA NETWORK - Fair usage of working channels in a wireless network is disclosed. A base station associated with a cell within a wireless community monitors the congestion of the working channel of neighboring communities. Upon determining that the congestion of the working channel of a neighboring community is less than that of its existing working channel, the base station initiates a switch to the neighboring community's working channel. Upon joining the new community, the frame structure and other networking parameters and attributes are adjusted. | 08-28-2008 |
20090003291 | SIX-ADDRESS SCHEME FOR MULTIPLE HOP FORWARDING IN WIRELESS MESH NETWORKS - A six field address scheme identifies both the originating point and the endpoint of a data frame enabling multiple hop forwarding though a plurality of intermediate mesh points in a wireless mesh network. Data frames originating or ending at a point outside of the wireless mesh network access the wireless network at a mesh access point using a legacy address scheme. The legacy address schemes are converted to a six address scheme using a proxy address table at the access point. Each mesh access point includes not only a routing table but a proxy address table as well as enabling the mesh access point, and/or mesh portal points, to convert address schemes having less than six address fields to the six field format. Subsequent to the conversion, mesh points within the wireless mesh network need only the routing table to facilitate the forwarding of the data frame. | 01-01-2009 |
20090003298 | SIX-ADDRESS SCHEME FOR MULTIPLE HOP FORWARDING IN WIRELESS MESH NETWORKS - A six field address scheme identifies both the originating point and the endpoint of a data frame enabling multiple hop forwarding through a plurality of intermediate mesh points in a wireless mesh network. Data frames originating or ending at a point outside of the wireless mesh network access the wireless network at a mesh access point using a legacy address scheme. The legacy address schemes are converted to a six address scheme using a proxy address table at the access point. Each mesh access point includes not only a routing table but a proxy address table as well as enabling the mesh access point, and/or mesh portal points, to convert address schemes having less than six address fields to the six field format. Subsequent to the conversion, mesh points within the wireless mesh network need only the routing table to facilitate the forwarding of the data frame. | 01-01-2009 |
20090213776 | BROADCAST/MULTICAST COLLISION FREE FRAME TRANSMISSION - A protocol for collision avoidance in inter and intra basic service set broadcast/multicast communication in a wireless network is disclosed. An access point reserves a broadcast transmission time and conveys that reservation to each of its associated stations. Using a beacon or an action frame, the transmission reservation time is sent to all stations and other neighboring access points within range of the primary access point. Upon receiving the broadcast transmission time reservation, each station associated with the reserving access point and any neighboring access points set their network allocation vector thus preventing frame transmission or reception during the now reserved transmission time. | 08-27-2009 |
20090231995 | TUNNELED DIRECT LINK SETUP COLLISION RESOLUTION IN A WIRELESS LOCAL AREA NETWORK - Collisions between tunneled direct link setup (“TDLS”) requests are resolved by associating each request with a priority value. Upon issuing a TDLS request the encapsulated frame is associated with a priority value. When a station, which is waiting for a response from a recently issued TDLS request, receives a TDLS request from another station, a collision occurs. The collision is resolved by comparing the priority value associated with the TDLS request initiated by the station and the TDLS request received. The TDLS request with the higher priority value is pursued while the TDLS request with the lower priority value is ignored. The priority value can be based on the sending station's MAC address or other value which can differentiate the TDLS requests. | 09-17-2009 |
20100177755 | HIGH THROUGHPUT FEATURES IN 11S MESH NETWORKS - The addition of high throughput capability elements to beacon frames and peer link action frames in wireless mesh networks enable the utilization of desirable features without further modifications to the network. Rules can be established for high throughput mesh point protection in a mesh network, Space-time Block Code (STBC) operations and 20/40 MHz operation selections. However, features such as PSMP (power save multi-poll) and PCO (phased coexistence operations) are barred from implementation to prevent collisions. | 07-15-2010 |
20110255474 | PRIORITIZED COMMON SUBFRAME TO PROVIDE BETTER SERVICE TO THE OVERLAPPING AREAS IN A COMMUNITY - A subframe structure for wireless communication uses a master common subframe and second master common subframe method to give BSs different priorities to serve overlapping areas in common subframes. The subframe structure and corresponding method can increase overlapping cells' capacity and reduce interference. | 10-20-2011 |
20110255520 | COMMUNICATION BETWEEN OVERLAPPING WRAN CELLS WORKING IN DIFFERENT CHANNELS - A common control channel for base station (“BS”)/consumer premise equipment (“CPE”) communication in areas of overlapping coverage by wireless regional area network (“WRAN”) cells operating on different working channels is disclosed. A common control channel is selected from among the various working channels sensed in each of a plurality of overlapping WRAN cells so as to enable BS/CPE and BS/BS communication. Once chosen, each CPE within the overlapping area communicates with the controlling BS via an enhanced coexistence beacon protocol messages. These messages include timing and other synchronization information. | 10-20-2011 |
20120026883 | FAIR CHANNEL USE IN A WIRELESS AREA NETWORK - Fair usage of working channels in a wireless network is disclosed. A base station associated with a cell within a wireless community monitors the congestion of the working channel of neighboring communities. Upon determining that the congestion of the working channel of a neighboring community is less than that of its existing working channel, the base station initiates a switch to the neighboring community's working channel. Upon joining the new community, the frame structure and other networking parameters and attributes are adjusted. | 02-02-2012 |
20120120796 | METHOD AND SYSTEM FOR PROVIDING A PRIORITY-BASED, LOW-COLLISION DISTRIBUTED COORDINATION FUNCTION USING A SUPER-FRAME STRUCTURE - A method for providing a priority-based, low-collision distributed coordination function (DCF) in a wireless network is provided. The network includes an access point and a plurality of stations. The method includes receiving at a first station a super-frame from the access point. The super-frame is operable to define a service period for each of the stations. A priority for the first station is determined based on the super-frame. A back-off time is selected for the first station based on the priority. | 05-17-2012 |