Patent application number | Description | Published |
20120300714 | METHODS AND APPARATUS FOR RANDOM ACCESS PROCEDURES WITH CARRIER AGGREGATION FOR LTE-ADVANCED SYSTEMS - An eNodeB is configured to perform a method for a random access procedure in an LTE-Advanced system. The method includes receiving from a user equipment a random access preamble message on a physical random access channel (PRACH) on a first cell, the PRACH associated with a random access radio network temporary identifier (RA-RNTI). The method also includes transmitting to the user equipment a random access response (RAR) message on a second cell. At least one of the RAR message and the RA-RNTI includes information configured to allow the user equipment to identify a target Timing Advance Group (TAG) or cell associated with the RAR message. | 11-29-2012 |
20130077513 | CoMP MEASUREMENT SYSTEM AND METHOD - According to one embodiment, a subscriber station configured to communicate with one or more base stations in a wireless communication network. The subscriber station is configured to receive, from the network, information associated with one or more of the TPs that are candidates for coordinated multipoint (CoMP) transmission with the subscriber station, measure a plurality of channel quality values for each of the one or more TPs, and report to the network, the measured channel quality values. | 03-28-2013 |
20130114574 | APPARATUS AND METHOD FOR DEFINING TIMING REFERENCE FOR SECONDARY CELLS IN A SECONDARY TIMING ADVANCE GROUP - A user equipment (UE) is configured to perform a method for determining a timing reference for a secondary cell (SCell) in a secondary timing advance group (sTAG). The method includes selecting a SCell among a plurality of SCells within a sTAG as an uplink timing reference cell based on a predefined rule that is known at the UE and an eNB in communication with the UE. The method also includes receiving a downlink carrier from the selected SCell and determining, from the downlink carrier, a downlink timing used as a reference for an uplink transmission timing. | 05-09-2013 |
20130182687 | APPARATUS AND METHOD FOR CONTROLLING SECONDARY CELL UPLINK SYNCHRONIZATION STATES - A user equipment (UE) is configured to perform a method for controlling synchronization with a secondary cell (SCell). The method includes receiving a physical downlink control channel (PDCCH) order from an eNodeB associated with an SCell. The method also includes, in response to receiving the PDCCH order, transitioning from a first state where the UE considers the SCell in sync for an uplink transmission to a second state where the UE considers the SCell out of sync for the uplink transmission. | 07-18-2013 |
20140126496 | Configuration of Rate Matching and Interference Measurement Resources for Coordinated Multi-point Transmission - A method and an apparatus indicate and identify a ZP-CSI-RS configuration. The method for identifying includes identifying a DCI format and the ZP-CSI-RS configuration in response to receiving one or more control messages where a first set of ZP-CSI-RS configuration or configurations are configured to be used for DCI Format 1A and a second set of ZP-CSI-RS configuration or configurations are configured to be used for DCI Format 2D or 2C. The method also includes identifying a PDSCH rate matching based on the identified ZP-CSI-RS configuration. The method for indicating includes transmitting a dynamic signaling control message comprising an indication of a DCI format. The method also includes transmitting transmit a higher layer signaling control message comprising an indication of the ZP-CSI-RS configuration or configurations. | 05-08-2014 |
20150189574 | METHODS FOR DORMANT CELL SIGNALING FOR ADVANCED CELLULAR NETWORK - User equipment for wireless communication with at least one base station includes a transceiver operable to communicate with the at least one base station by transmitting radio frequency signals to the at least one base station and by receiving radio frequency signals from the at least one base station. The transceiver is configured to receive a discovery signal from a base station of the at least one base station, the discovery signal comprising a discovery signal identifier. The transceiver is also configured to receive a synchronization signal or reference signal, the synchronization signal or the reference signal comprising a physical cell identifier. The user equipment also includes processing circuitry configured to determine whether the discovery cell identifier matches the physical cell identifier. The processing circuitry is also configured to, responsive to the discovery cell identifier matching the physical cell identifier, identifying that the base station is active or in coverage | 07-02-2015 |
20150264588 | METHODS AND APPARATUS FOR SYNCHRONIZATION IN DEVICE-TO-DEVICE COMMUNICATION NETWORKS - A Device to Device (D2D) user equipment (UE) is configured to support synchronization (sync) in a D2D network. The D2D UE includes an antenna configured to communicate via a D2D communication. The D2D UE also includes processing circuitry configured to communicate with a second portable terminal via the D2D communication. The processing circuitry is further configured to: derive a transmission (TX) timing from a synchronization (sync) source; and transmit a D2D Sync Signal (D2DSS) and Physical D2D Sync Channel (PD2DSCH) configured to indicate a hop number from the sync source. The hop number is indicated via the preamble sequence set and the indicator in PD2DSCH. | 09-17-2015 |
20150271861 | METHODS AND APPARATUS FOR DEVICE TO DEVICE SYNCHRONIZATION PRIORITY - A Device to Device (D2D) user equipment (UE) is configured to support synchronization in a D2D network. The D2D UE includes an antenna configured to communicate via a D2D communication. The D2D UE also includes processing circuitry configured to enter a communication Mode 2 when certain conditions are met. The certain conditions include: when a first timer (T | 09-24-2015 |