| Patent application number | Description | Published |
|---|
| 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 |
| 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 |
| 20090325578 | SUPPORT FOR MULTI-GROUP FREQUENCY DIVISION DUPLEX WIRELESS NETWORK - Various example embodiments are disclosed herein. According to an example embodiment, a method may include receiving, at a serving base station (BS) in a wireless network from a mobile station (MS), group preference information for the MS for each of one or more candidate BSs; obtaining, by the serving BS based on the group preference information, a group assignment for the MS from each of the one or more candidate BSs; and sending by the serving BS to the MS the group assignment from each of the candidate BSs. | 12-31-2009 |
| 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 |
| 20110103253 | METHOD AND APPARATUS FOR PROVIDING POWER SAVING USING SUPERFRAMES - An approach is provided for providing sleep mode associated with a resource frame structure. A superframe that includes a plurality of frames that is partitioned into sub-frames is detected. A length of listening window ( | 05-05-2011 |
| 20110183632 | COEXISTENCE FOR COGNITIVE RADIO - A system for managing wireless communication in view of other potentially interfering wireless signal sources. Signal-related information may be collected from one or more apparatuses that are participating in a network. The information may then be evaluated in order to determine expected signal activity in the environment in which the apparatuses are operating. In some instances the signal activity may then be compared to a scan schedule utilized, for example, to identify legacy apparatuses operating in the environment. This scan schedule may be altered to avoid potential conflicts that may exist with the expected signal activity. The scan schedule may then be communicated to the networked apparatuses. | 07-28-2011 |
| 20110275316 | DEVICE TO DEVICE CONNECTION SETUP USING NEAR-FIELD COMMUNICATION - Example method, apparatus, and computer program product embodiments are disclosed to enable near-field communication to be used in out-of-band initialization methods for connection setup for device-to-device communication. Example embodiments of the invention include a method comprising the steps of initiating, by a first device, an out-of-band near-field communication connection with a second device by transmitting wireless communication signals including necessary power for providing the near-field communication connection; sending a first short-range communication connection parameters for role determination, to the second device via the out-of-band near-field communication connection; receiving second short-range communication connection parameters for role determination, from the second device via the out-of-band near-field communication connection; selecting a role for the short-range communication connection by adopting short-range communication connection parameters for role determination that correspond to the role; discarding short-range communication connection parameters for role determination that are not adopted; and initiating the short-range communication connection according to the selected role using the adopted short-range communication connection parameters for role determination. | 11-10-2011 |
