Patent application number | Description | Published |
20130083756 | E-DCH Resource Control - Mechanisms are described that are useful if source and target radio configuration for a UE used in the RRC message uses E-DCH. Thus, when a UE having a common E-DCH resource receives a pre-defined message, the message in particular being an RRC Radio Bearer (RB) Reconfiguration message or an RRC RB Setup message or an RRC Connection setup, moving the UE to CELL_DCH state with E-DCH configured in the target state, the UE is configured to hold on to the common E-DCH resource. | 04-04-2013 |
20130142076 | NETWORK NODE, USER EQUIPMENT AND METHODS THEREIN - Embodiments herein relate to a method in a network node ( | 06-06-2013 |
20140044055 | Method and Apparatus for Resource Relocation in a Wireless Communication Network - In an example configuration, a user equipment (UE) is configured such that, when transmitting a first type of data on first common Enhanced Dedicated Channel (E-DCH) resources, the UE calculates a Total E-DCH Buffer Status (TEBS) based on available data of the first type and excludes from the calculation any available data of a second type. Correspondingly, the UE is configured to trigger release of the first common E-DCH resources responsive to determining that the TEBS equals zero, as calculated for the first type of data. In this context, the first type of data comprises one of Common Control Channel (CCCH) data and Dedicated Traffic Channel/Dedicated Control Channel (DTCH/DCCH) data, and the second type of data comprises the other one of CCCH data or DTCH/DCCH data. | 02-13-2014 |
20140064207 | Methods and Devices for Selection of Random Access Channel - Disclosed is, among other things, a method of physical Random Access Channel (PRACH) selection in a User Equipment, (UE) where the UE selects PRACH non-randomly from a list of candidate PRACHs. | 03-06-2014 |
20140066080 | Controlling User Equipment Nodes for Enhanced Uplink and User Equipment Nodes Configured for Enhanced Uplink - Methods for controlling uplink transmission of data to a network node of a communications system a user equipment node are disclosed. The methods include receiving parameters to configure enhanced uplink in CELL_FACH state, determining whether the user equipment node is able to communicate on an E-DCH in CELL_FACH state and determining whether additional defined conditions have been satisfied, and performing a cell update operation to obtain an E-RNTI value responsive to determining that the user equipment node is not able to communicate on an E-DCH in CELL_FACH state. The methods may also include transmitting uplink data on an E-DCH transport channel to the network node responsive to determining that the user equipment node is able to communicate on an E-DCH in CELL_FACH state and determining that the additional defined conditions have been satisfied. Related user equipment nodes are also disclosed. | 03-06-2014 |
20140073314 | NETWORK TRIGGERED MEASUREMENTS AND MEASUREMENT REPORTS BY USER EQUIPMENT - A method of operating a network node ( | 03-13-2014 |
20140078975 | Method and Apparatus for Resource Release in a Wireless Communication Network - According to the teachings herein, a UE is configured to perform a method for releasing common E-DCH resources used for a CCCH transmission to a network. According to the method, the UE triggers transmission of scheduling information (SI) to the network upon transmission of the last CCCH data available at the UE, regardless of whether or not a Total E-DCH Buffer Status (TEBS) at the UE equals zero. The UE is further configured to release the common E-DCH resources responsive to sending the SI. In an example, the UE triggers the transmission of SI upon transmission of a MAC-i PDU containing the last CCCH data available at the UE, regardless of whether or not TEBS equals zero at the UE. The method also may include the UE setting TEBS to zero in the SI reported to the network, regardless of whether TEBS equals zero at the UE. | 03-20-2014 |
20140086220 | Methods and Apparatuses in a Mobile Communication Network - Techniques for supporting concurrent deployment of 2-millisecond and 10-millisecond TTI for E-DCH transmissions in CELL_FACH state and Idle Mode are disclosed. One example method comprises receiving a ( | 03-27-2014 |
20140321435 | Methods and Apparatuses for Use in a Mobile Communication Network - The proposed technology relates to the issue of supporting release of common radio resources in a radio communication network. A radio network controller ( | 10-30-2014 |
20140334462 | METHODS, APPARATUSES AND COMPUTER PROGRAM PRODUCTS FOR DETERMINING A RESOURCE INDEX - This disclosure provides methods for determining or calculating a default Enhanced Dedicated Channel, E-DCH, resource index, and apparatuses for performing the method. In some embodiments, a method for calculating a E-DCH resource index includes: receiving a Concurrent Transmission Time Interval, TTI, Partition Index, CTPI, and calculating (SigInd+CTPI) mod Y or calculating (SigInd mod (Y−CTPI))+CTPI, where Y is the total number of E-DCH resources configured in a cell for Enhanced Uplink in CELL_FACH state and IDLE mode, and SigInd is the signature index value of the Nth PRACH preamble signature corresponding to an access indicator, AI, that is configured available in the cell and corresponding to E-DCH transmission for Enhanced Uplink in CELL_FACH state and IDLE mode. | 11-13-2014 |
20150038157 | Network Node, User Equipment and Methods Therein for Configuring Cells for Downlink Operations - A network node, user equipment, and corresponding methods can support non-contiguous cell configuration of the downlink in at least one frequency band of a telecommunications system. The network node configures cells for non-contiguous downlink operations based on a signal received from a user equipment. The signal comprises information about the user equipment's radio access capability in non-contiguous downlink operation, including: a first indication that indicates the maximum number of cells supported by the user equipment; a second indication that indicates the maximum gap bandwidth between cells supported by the user equipment; and a third indication that indicates whether the user equipment supports an equal number of cells, or a different number of cells, on each side of a gap between the maximum number of cells. | 02-05-2015 |