| Patent application number | Description | Published |
|---|
| 20080207207 | Self Configuring and Optimization of Cell Neighbors in Wireless Telecommunications Networks - The present invention relates to a cellular communications network and in particular to the problem of identifying cells for neighbor lists, or handover candidates when the cells are identified by a limited number of non-unique identities. The present invention includes a method for a radio base station, wherein the base station receives reports from one or more terminals in neighbor cells quality and non-unique identities. The match is sought in a neighbor cell list non-unique identity with a unique cell identity. If the match cannot be made without ambiguity, the base station causes the terminal to detect the unique cell identity. If the reason for the ambiguity is the particular cell is not included in the neighbor cell list it is included when its unique identity has been established. The uniquely identified cell is used if it is determined to perform a handover. | 08-28-2008 |
| 20090047955 | AUTOMATED AND SEAMLESS CHANGE OF REPORTING CELL IDENTITY - The technology described here allows a cell to change a cell identity without disrupting ongoing communication in that cell. In one non-limiting example embodiment, a cell identity change message is sent by a base station to one or more UEs being served in that base station. That message includes at least a new cell identifier and preferably also includes information indicating when that new cell identifier becomes active. In another non-limiting example embodiment, a cell identity change message is sent by a base station changing its cell identity to one or more neighboring base stations. | 02-19-2009 |
| 20090047956 | CELL IDENTIFIER CONFLICT RESOLUTION - The technology described automatically resolves cell identity collisions/conflicts in a cellular radio communications network. A detecting node determines that a first cell identifier associated with a first conflicting cell is the same as a second cell identifier associated with a second conflicting cell. One of the first and second conflicting cells is selected to change its cell identifier. A different cell identifier is determined for the selected cell. The different cell identifier is then provided to other cells and preferably to user equipment (UE) terminals without disrupting ongoing UE communications. | 02-19-2009 |
| 20090047960 | Closed subscriber group cell handover - A radio terminal connection may be handed over from a serving base station associated with a serving cell to a closed subscriber group (CSG) cell served by a CSG base station in which only radio terminals belonging to the CSG are permitted to access and receive service from the CSG cell. Radio terminals in the serving cell are generally informed not to report to the serving base station signal quality measurements of signals transmitted by CSG base stations. But if a radio terminal in the serving cell is authorized to access and receive service from the CSG cell, then that radio terminal is instructed to report to the serving base station signal quality measurements of signals transmitted by the CSG base station. Based on that report, the connection may be handed over to the CSG base station. A central node provides a CSG authorization list identifying CSG authorized radio terminals to the serving base station when a listed CSG cell is a neighboring cell which the radio terminal is authorized to access. | 02-19-2009 |
| 20090047968 | NEIGHBOR CELL RELATION LIST INITIALIZATION - Neighbor cell relation lists are initialized and managed in various ways that are especially beneficial to closed subscriber group (CSG) cells served by CSG base stations. Typically, only a radio terminal belonging to the CSG is permitted to access and receive service from the CSG cell. As a result, information is provided to radio terminals in the cells neighboring the CSG cell that generally indicates that radio terminals are not to report to a respective serving base station signal quality measurements of a signal received from the CSG base station unless the radio terminal is a member of the closed subscriber group for the CSG cell. When a CSG cell is powered-up, it is determined whether the CSG cell has previously been powered-on in the same environment. If so, the neighbor cell relation information for the CSG cell is updated with other network node(s). If not, neighbor cell relations of the CSG cell are initialized. In one example, when a new neighbor cell relation has been added to its neighbor cell relation list, the CSG base station inherits neighbor cell relation list entries from the newly-added neighbor cell. | 02-19-2009 |
| 20090191862 | INTER-RAT/ FREQUENCY AUTOMATIC NEIGHBOR RELATION LIST MANAGEMENT - In one of its aspects the technology concerns a method of operating a telecommunications system comprising a serving radio base station and a candidate radio base station. The serving radio base station comprises a radio base station to which a wireless mobile station provides measurement reports. The serving radio base station and the candidate radio base station are different with respect to at least one of frequency and radio access technology. The method comprises the serving radio base station allowing the mobile station to obtain information broadcasted by the candidate radio base station. The information is either information for locating Cell Global Identity (CGI) of the candidate radio base station or the Cell Global Identity (CGI) itself of the radio base station. The mobile station obtains the information from the candidate radio base station during at least one reading gap. The reading gap is a time period in which the mobile station does not receive information from the serving radio base station. | 07-30-2009 |
| 20100210255 | RANDOM ACCESS CHANNEL (RACH) RECONFIGURATION FOR TEMPORARILY EXTENDED CELL COVERAGE - A device obtains a service change associated with a cell in a radio network, and identifies helper cells in the radio network that need new random access channel (RACH) parameters due to the service change. The device also determines a RACH parameters configuration for the helper cells, and configures the helper cells with the determined RACH parameters configuration. | 08-19-2010 |
| 20100216453 | COMPENSATING FOR CELL OUTAGE USING PRIORITIES - A device receives information associated with multiple cells, and determines a priority for each of the multiple cells based on the received information. The device also assigns each of the determined priorities to a corresponding one of the multiple cells, detects an outage associated with one of the multiple cells, and provides a temporary service to the one of the multiple cells from one or more adjacent cells with priorities less than or equal to the priority assigned to the one of the multiple cells. | 08-26-2010 |
| 20100272070 | SCRAMBLING CODE ALLOCATION IN A CELLULAR COMMUNICATION NETWORK - In a cellular wireless communications network, measurements are received from a plurality of user equipments relating to the reference signal received powers from a plurality of other cells of the cellular wireless communications network For other cells of the cellular wireless communications network having a physical cell identity (such as a scrambling code) that is the same as a physical cell identity of that first cell, it is determined from the received measurements whether a mutual potential interference level with that cell exceeds a threshold If so, an alternative physical cell identity is proposed, that would cause a mutual potential interference level between the cell or the potentially interfering cell and another cell already using that alternative physical cell identity that is lower than the mutual potential interference level between the cell and the potentially interfering cell. | 10-28-2010 |
| 20100331025 | Method For Automatically Selecting A Physical Cell Identity (PCI) Of A Long Term Evolution (LTE) Radio Cell - In a Long Term Evolution (LTE) cellular radio system method of selecting a physical cell id (PCI) of a LTE cell is obtained by reporting PCIs of neighbors and also a parameter indicating each neighboring cell's relevance also termed visibility to the cell. A new cell added in a cellular radio, system can then make an improved selection of a PCI already at the very first neighbor relation establishment; even if all available PCIs are already used in the vicinity. | 12-30-2010 |
| 20110026492 | Method and Arrangement for Handling Handover Related Parameters in a Mobile Communications Network - The invention relates to methods and arrangements for handling handover-related parameters. A radio base station of a mobile communications network is arranged to serve at least a first cell, and to make handover decisions based on handover-related parameters. The radio base station comprises means for receiving handover related feedback from a radio base station serving a second cell after handover of a UE from said first cell to said second cell; means for using the handover related feedback received from the base station serving said second cell to adjust the handover-related parameters; and further by means for sending handover related feedback to a radio base station serving a second or another cell after handover of a UE to said first cell from said second or another cell. | 02-03-2011 |
| 20110098035 | METHOD AND ARRANGEMENT FOR AUTOMATIC TUNING OF THE RACH CONFIGURATION IN A WIRELESS COMMUNICATION NETWORK - The present invention relates to a method and a communication network node for automatically tuning a PRACH configuration parameter in a communication network system comprising radio base stations each serving at least one cell and with which user equipments are communicating on uplink and downlink channels. The PRACH configuration parameter is used for defining the division of uplink resource blocks between PRACH and PUSCH. Load statistics on RACH and PUSCH are collected used for determining a number of RACH opportunities required per time unit. Then a new PRACH configuration parameter having said required number of RACH opportunities per time unit is selected which is replacing the old PRACH configuration parameter. | 04-28-2011 |
| 20110098045 | METHOD AND ARRANGEMENT IN A COMMUNICATION NETWORK SYSTEM - A method of signalling a set cell identities in a cellular radio system from a transmitter to a receiver is provided. The method includes coding of a sequence of cell identities using a range indicator. The coded sequence is then signalling using the coded sequence. The range indicator can be an range indicator or an explicit range indicator. | 04-28-2011 |
| 20110122779 | SELF-MANAGEMENT OF MOBILITY MANAGEMENT ENTITY (MME) POOLS - A device estimates a load on the device based on static and dynamic load information associated with the device, provides the estimated load to the other devices in a pool of devices, and estimates, based on the estimated load, a weight of the device in the pool. The device also detects a load imbalance in the pool based on the estimated weight and weights associated with the other devices in the pool, and determines, based on the estimated load, a number of subscribers to offload from the device. The device further determines, based on the estimated weight and the weights associated with the other devices, to which of the other devices to offload the determined number of subscribers, and offloads, to address the load imbalance, the determined number of subscribers to the determined other devices in the pool. | 05-26-2011 |
| 20110158104 | Determining Preamble Sequences For Random Access - The present invention relates to a method and a communication network node for enabling auto-tuning of preamble sequences used during random access procedures when user equipments ( | 06-30-2011 |
| 20110165874 | METHOD AND ARRANGEMENT IN A COMMUNICATION NETWORK SYSTEM - A method and a communication network node for satisfying detection miss probability and false detection probability requirements in a random access channel used by mobile stations (MS) for accessing a communication network system comprising radio base stations (BS) each serving at least one cell ( | 07-07-2011 |
