Patent application number | Description | Published |
20080282126 | ACKNOWLEDGMENTS OF NEGATIVE ACKNOWLEDGMENTS BY RELAY STATIONS AND MOBILE STATIONS - Various example embodiments are discloses. According to one example embodiment, a method may include sending a packet to both a relay station and a destination station in a wireless network, receiving a relay station acknowledgment (ACK) or negative acknowledgment (NACK) from the relay station during an ACK/NACK frame, and receiving a destination station ACK or NACK from the destination station during the ACK/NACK frame. The relay station ACK or NACK may either acknowledge or negatively acknowledge successful receipt of the packet by the relay station. The destination station ACK or NACK may either acknowledge or negatively acknowledge successful receipt of the packet by the destination station. | 11-13-2008 |
20080294959 | Decoder - An H-ARQ system wherein the transmission of two consecutive, or sequential, blocks of information bits are considered jointly; i.e., one of the blocks of information being embedded within the other one of the blocks of information. If a retransmission for the first block is necessary, the system processes both blocks jointly. The system is provided with cross-packet coding which extends current H-ARQ schemes for point-to-point communications wherein the transmission of two consecutive block of information bits is considered jointly. If a retransmission for the first block is necessary, the system processes both blocks jointly. This allows both blocks to be decoded without errors at the receiver after the retransmission. | 11-27-2008 |
20090092066 | TECHNIQUES FOR LINK UTILIZATION FOR HALF-DUPLEX AND FULL-DUPLEX STATIONS IN A WIRELESS NETWORK - Various example embodiments are disclosed herein. According to an example embodiment, an apparatus may include a controller, and a wireless transmitter coupled to the controller, the wireless transmitter configured to the wireless transmitter configured to transmit at least a portion of a frame via wireless link to one or more mobile stations in a wireless network, the at least a portion of a frame including: an all-group downlink region directed to group 1 half-duplex (HD) mobile stations, group 2 HD mobile stations, and full-duplex (FD) mobile stations, a group 1 downlink region directed to the group 1 HD mobile stations and the FD mobile stations, and a group 2 downlink region directed to the group 2 HD mobile stations and the FD mobile stations. | 04-09-2009 |
20090213766 | FRAME STRUCTURES WITH FLEXIBLE PARTITION BOUNDARY FOR WIRELESS NETWORKS - Various example embodiments are disclosed herein. According to an example embodiment, an apparatus may include a wireless interface, and a controller, the apparatus being configured to: transmit a downlink subframe of a frequency division duplex (FDD) frame to one or more mobile stations in a wireless network, each wireless station being assigned to one of a plurality of groups, such as, for example, one of group | 08-27-2009 |
20090252116 | Multiple Action Times in Mobile WiMAX Fast Handover - A base station and a method for handover of a mobile station from a serving base station to a target base station of a mobile telecommunication network. Invitations may be sent from a base station to the mobile station, and the invitations may be invitations to send a request for a fast handover procedure from the mobile station to a base station. | 10-08-2009 |
20090268645 | TECHNIQUES FOR RESOURCE ALLOCATION FOR STATIONS IN A FDD WIRELESS NETWORK - Various example embodiments are disclosed herein. According to an example embodiment, an apparatus may include a controller, and a wireless transmitter coupled to the controller, the wireless transmitter configured to the wireless transmitter configured to transmit a Map message as part of a first group downlink (DL) region, the Map message allocating, to a full-duplex (FD) mobile station (MS), a first resource in a first group UL region and a second resource in a second group UL region. The transmitter may also be configured to transmit a dummy information element (IE), for example, as part of a second group DL region, the dummy information element (IE) reflecting at least the allocating to the FD MS of the second resource in the second group UL region. | 10-29-2009 |
20100008326 | RECOVERY SCHEMES FOR GROUP SWITCHING PROCEDURES FOR MULTI-GROUP FREQUENCY DIVISION DUPLEX WIRELESS NETWORKS - Various example embodiments are disclosed herein. According to an example embodiment, a method may include receiving at a mobile station from a base station in a wireless network, a message including a group switch instruction instructing the mobile station to switch from a current group to a new group, attempting, by the mobile station, to switch to the new group in response to receiving the group switch instruction, and sending, from the mobile station, an acknowledgement message that acknowledges either the success or failure of the attempting to switch to the new group. | 01-14-2010 |
20110206006 | SIGNALING EXCHANGE FOR HANDOVER CONTROL FOR WIRELESS NETWORKS - Various example embodiments are disclosed herein. According to an example embodiment, a technique may include transmitting, from a mobile station to a base station in a wireless network, a message (e.g., a subscriber station basic capability (SBC) request message) indicating whether or not the mobile station supports base station-controlled handover for the mobile station. The technique may also include receiving, by the mobile station from the base station, a message (e.g., a subscriber station basic capability (SBC) response message) indicating whether or not the base station supports base-station controlled handover. | 08-25-2011 |
20120087338 | INDICATING ACTION TIMES AND FAST RANGING CAPABILITIES OF TARGET BASE STATIONS - According to one example embodiment, a method may include determining whether each of a plurality of target base stations is capable of providing a fast ranging opportunity to a mobile station served by the serving base station, and, for each of the plurality of target base stations which is capable of providing the fast ranging opportunity to the mobile station, determining an action time after which the target base station can send an uplink map to the mobile station, the uplink map indicating when the mobile station should send a fast ranging request. The method may also include sending a handover message to the mobile station, the handover message indicating whether each of the plurality of target base stations is capable of providing the fast ranging opportunity to the mobile station and, for each of the plurality of target base stations which is capable of providing the fast ranging opportunity to the mobile station, indicating the action time after which the target base station can send the uplink map to the mobile station. | 04-12-2012 |
20120140696 | ROUTE MAINTENANCE AND UPDATE BASED ON CONNECTION IDENTIFIER IN MULTI-HOP RELAY SYSTEMS - Connection ID (CID) assignment in multi-hop relay system can be used to perform routing. Using CID assignment as routing information in a multi-hop wireless relay system to maintain the routing structure is disclosed. In a CID cache scheme, a base station builds a CID cache based on the upstream packet and broadcasts the CID cache to a relay station. The CID cache comprises CIDs along with routing information. Based on CID cache the spanning tree of the routing can be reconstructed. A hierarchical CID assignment is disclosed wherein a base station assigns a range of CIDs to a relay station. A relay station can recognize its data packets and forward them to corresponding mobile stations. Maintaining routing automatically along with CID assignment is also disclosed. | 06-07-2012 |
20120276945 | CELL SELECTION TECHNIQUES FOR IDLE MODE FOR WIRELESS NETWORKS - Various example embodiments are disclosed herein. According to an example embodiment, an apparatus may include a processor. The processor may be configured to: make a first determination, by a mobile station in idle mode, that a trigger condition for cell selection has been met for a target base station as compared to a current preferred base station; compare a network specified cell preference of the target base station to a network specified cell preference of the current preferred base station; select the target base station as a new preferred base station if the cell preference of the target base station is the same or lower than the cell preference of the current preferred base station; otherwise, if the cell preference of the target base station is higher than the cell preference of the current preferred base station, then selecting the target base station as a new preferred base station only if the trigger condition for cell selection for the target base station is still met after a delay period after the first determination has been made. | 11-01-2012 |
20130223408 | ACTION TIMES FOR HANDOVER OF MOBILE STATIONS - A method may include determining whether each of a plurality of target base stations is capable of providing a fast ranging opportunity to a mobile station served by the serving base station, and, for each of the plurality of target base stations which is capable of providing the fast ranging opportunity to the mobile station, determining an action time after which the target base station can send an uplink map to the mobile station, the uplink map indicating when the mobile station should send a fast ranging request. The method may also include sending a handover message to the mobile station, the handover message indicating whether each of the plurality of target base stations is capable of providing the fast ranging opportunity to the mobile station and indicating the action time after which the target base station can send the uplink map to the mobile station. | 08-29-2013 |
20150063311 | METHOD OF REDUCING ACTIVE CELLULAR CONNECTIONS IN A WIRELESS NETWORK - A system and method of providing wireless communications to a wireless device is provided. A scanning report can be received from each of a plurality of wireless devices in communication with a first access node using a first radio access technology. A second access node can be selected from among one or more second access nodes to initiate communications with the first access node over a communication link based on the scanning report from each of the plurality of wireless devices. The plurality of wireless devices can be instructed to establish communications with the second access node using a second radio access technology different from the first radio access technology. A bandwidth allocation of the communication link can be adjusted based on the plurality of wireless devices. | 03-05-2015 |