Patent application number | Description | Published |
20080233948 | Wireless Communications Systems - A method for controlling uplink transmissions from a user device to an access point in a wireless telecommunications system is described. Each access point defines a communications cell, and the method comprises monitoring interference in an uplink channel at an access point, performing interference control actions at the access point when monitored interference exceeds a first predetermined level, monitoring occurrences of such control actions at the access point, and if a number of such occurrences exceeds a predetermined level, performing interference control actions with reference to a plurality of cells at a central controller of the telecommunications system, which central controller is operable to control a plurality of access points. | 09-25-2008 |
20090005058 | Dynamic Inter-Cell Channel Sharing - A mechanism to share channels between cells dynamically and without simultaneous allocation of the same channel by more than one access point achieved by a method for a dynamic inter-cell channel sharing for a first access point in a radio access network, the first access point being associated with a first cell of a number of cells within the radio access network, the first access point being adapted to connecting at least one first user equipment being situated in the first cell, to a network infrastructure, comprising the steps of: receiving from the at least one first user equipment a report indicating whether a specific channel is used in a second adjacent cell of said number of cells, the report being based on a first information sent from at least one second access point, the information indicating whether a specific channel is used in the second adjacent cell. | 01-01-2009 |
20090086682 | Downlink Out of Sync Detection in Continuous Packet Connectivity - Out-of-sync and in-sync detections and downlink power control by UTRAN user equipment are improved in Continuous Packet Connectivity mode featuring discontinuous UL DPCCH transmission by requiring all F-DPCH transmissions from a base station to the user equipment to be valid during a UL DTX gated period. Additionally, the user equipment receives and considers all F-DPCH transmissions during the UL DTX gated period, for power control, out-of-sync and in-sync detections. If the user equipment detects an out-of-sync condition, it may immediately transmit a scheduling request to notify the network, temporarily or permanently annulling the discontinuous UL DPCCH transmission. | 04-02-2009 |
20090111400 | POWER CONTROL USING BIT RATE AND OUTSTANDING USER TRAFFIC - The present invention relates to cellular mobile radio systems, and more especially it relates to multi-cell interference-limited environments, such as Orthogonal Frequency Division Multiple Access, OFDMA, and Code Division Multiple Access, CDMA, cellular mobile radio systems. Particularly, it relates to transmission power allocation in such systems. Method and systems where transmission power is based on parameters directly affecting perceived user performance parameters are disclosed. | 04-30-2009 |
20090117896 | Distinguishing Between Synchronized and Asynchronous Mobile Communications Networks - A user equipment is operated in a mobile communications system, wherein a network part of the mobile communications system is capable of operating in a synchronized mode or in an asynchronous mode. Operation includes recording timing information about a periodically occurring signal received from a neighboring cell. The recorded timing information is used in a blind detection process that ascertains whether the network part of the mobile communications system is operating in the synchronized mode or in the asynchronous mode by detecting at least whether the periodically occurring signal received from the neighboring cell occurred within a predetermined window of time of a corresponding periodically occurring signal received from a serving cell. The detected operating mode of the network part of the mobile communications system is used for controlling subsequent operation of the user equipment. | 05-07-2009 |
20090149170 | APPARATUS AND METHOD FOR MEASUREMENT REPORTING IN A CELLULAR TELECOMMUNICATIONS SYSTEM - The signalling overhead in cellular communication systems such as OFDMA is reduced by calculating a report value as a function of each measurement value that is to be reported from a user terminal to the network. The report value is preferably based on a maximum value for the parameter measured, and can be represented by fewer bits than the measurement value. The overhead may be further reduced by selecting only the best measurement values for reporting from the user terminal to the network. | 06-11-2009 |
20090197555 | Signal Power Measurement Methods and Apparatus - Methods and apparatus in a receiver for estimating a received power of at least one signal having a pattern known to the receiver, the signal having being transmitted by at least one antenna. A method includes using a first method of measuring the received power based on the pattern, the first method generating a first sequence of first power estimates; determining whether a predetermined first event has occurred; and if the first event has occurred, changing to a second method of measuring the received power, the second method being different from the first method and generating a second sequence of second power estimates. | 08-06-2009 |
20090201810 | METHOD FOR GENERATING A CONGESTION FLAG BASED ON MEASURED SYSTEM LOAD - A radio base station generates a congestion status flag, based on measured resource usage in its cell, and based on performance of sessions in the cell. The flag may be a one bit, or a small number of bits, indicating whether the base station is congested. The flag can be sent to neighbouring radio base stations, for use in determining whether to perform handovers to that radio base station. The flag generated in a radio base station, and the flags generated in neighbouring radio base stations, can also be sent to user equipment in a cell. | 08-13-2009 |
20090296864 | Synchronization Detection Using Bandwidth and Antenna Configuration - User Equipment in a wireless communication network considers the downlink channel bandwidth in setting out of synchronization (OoS) and in synchronization (IS) thresholds and filter durations. Additionally, the UE may consider transmitter antenna configuration—that is, the number of transmitting antennas in a MIMO system—in setting the OoS and IS thresholds. The UE determines it is OoS when a monitored, filtered, downlink channel quality metric, such as reference symbol SINR, is below the OoS threshold. | 12-03-2009 |
20090310492 | Method and Apparatus for Testing Mobile Terminals in an OFDM System - The present invention relates to a method and apparatus for testing mobile terminals in an OFDMA system, in which all or part of available downlink radio resources in a cell are transmitted. A processing unit in a test apparatus splits the resources used for transmission into contiguous unities in the frequency domain such that one or more of said unities comprise resources allocated to one or more mobile terminals under test, and at least one of said unities comprise resources allocated to virtual users. | 12-17-2009 |
20090312008 | Detection of Time Division Duplex Downlink/Uplink Configuration - A user equipment (UE) in a cellular telecommunications system is able to detect the uplink/downlink configuration of a detected neighboring cell by receiving a signal from the neighboring cell. A characteristic of the received signal is detected and used as an indicator in a blind detection process to identify one or more downlink slots in the received signal. Known pilot signals in the identified one or more downlink slots can then be used to obtain a signal power measurement of the received signal. The blind detection process is also capable of detecting whether a slot of a neighboring cell's signal is a downlink unicast slot or a Multicast-Broadcast Single Frequency Network slot. | 12-17-2009 |
20090312023 | Handling of Idle Gap Commands in a Telecommunication System - The invention relates to methods and arrangements for the reliability handling of idle gap commands received in a unit of a mobile telecommunication system. A user equipment located in a cell of a mobile telecommunication network receives signalling gap commands used to activate or deactivate idle gaps for downlink measurements in the neighbour cells. It is determined whether the received gap command is reliable or not. Downlink measurements are then performed in accordance with a predefined rule in case the received gap command is determined as unreliable. | 12-17-2009 |
20090325580 | Method and Arrangement in a Telecommunication System - A method is described of assigning to a user equipment one or more idle gap patterns in uplink and/or downlink communications between the user equipment and a radio base station, to allow the user equipment to perform downlink measurements on neighbour cells during the idle gaps. The method comprises defining a pre-assigned idle gap pattern; and modifying the pre-assigned idle gap pattern on the basis of one or more short commands sent between the user equipment and the radio base station. | 12-31-2009 |
20100093385 | Method and Arrangement for Selecting an Antenna Mode in a Mobile Telecommunication Network - The present invention relates to a method and an arrangement for a mobile telecommunication network for selecting an antenna mode to be used for communication between a radio network and a mobile terminal operating in discontinuous reception mode. The arrangement comprises a determiner configured to determine a mode list comprising antenna modes both supported by the radio network and the mobile terminal, associating means configured to associate each antenna mode in the mode list with a degree of a pre-defined performance measure, retrieving means configured to retrieve information indicating the pre-defined performance measure for the mobile terminal, and a selector configured to select an antenna mode from the mode list at least based on the retrieved information. | 04-15-2010 |
20100135175 | Method and Arrangement in Communication Networks - The present invention relates to a user equipment ( | 06-03-2010 |
20100216455 | Method and Arrangement for Event Triggered Adaptive Cell Detection Activity Level in Discontinuous Reception - In a cellular communication network, a user equipment can adapt the intensity (or measurement activity) with which it attempts to identify a new neighbour cell, based on a comparison of the quality of the already identified neighbour cells with the quality of a reference cell. This intensity is lower provided that the downlink received signal level (e.g. in terms of CPICH Ec/No or/and SCH Ec/No) from an appropriate selection of neighbour cells (cells belonging to active or candidate set) is not weaker than the reference (e.g. serving) cell by a certain threshold. On the other hand the UE shall identify a new cell with higher intensity provided the downlink received signal level (e.g. in terms of CPICH Ec/No or/and SCH Ec/No) from said selection of neighbour cells is weaker than the reference cell by a certain threshold. | 08-26-2010 |
20100265968 | Synchronization Time Difference measurements in OFDM Systems - Disclosed herein are methods and devices for determining a received time difference between a first OFDM signal received from a first base station and a second OFDM signal received from a second base station. The methods and apparatus disclosed herein may be applied to 3GPP LTE systems as well as other OFDM-based wireless communication systems. An exemplary method comprises determining a decoding synchronization time for each of the first and second OFDM signals and calculating a time difference between the respective decoding synchronization times. The calculated time difference is transmitted by the mobile terminal to the first base station, the second base station, or both. Methods and apparatus for processing, at a base station, time difference information calculated according to the methods herein and transmitted to the base station by a mobile terminal are also presented. | 10-21-2010 |
20100311411 | Method and Arrangement in a Telecommunication System - A user equipment, in a cellular telecommunication system having a plurality of downlink physical channels, detects radio link problems using a subset of said physical channels, where said subset is dynamically adjustable depending upon which channels are available at a particular instant. | 12-09-2010 |
20110007707 | Time-Alignment at Handover - Time-aligned handover for a mobile device is described herein. The time-aligned handover is achieved by determining a time difference between serving and target cells and determining a target propagation delay based on the time difference. In some cases, the target propagation delay may further be determined based on a serving propagation delay between the serving cell and the mobile device. A target transmission time is calculated based on the target propagation delay. The mobile device uses the target transmission time to time align transmissions to the target cell during handover. | 01-13-2011 |
20110065450 | Method and Apparatus for Location Fingerprinting - Methods and apparatus taught herein facilitate accurate estimation of a mobile terminal's location via location fingerprinting. Specifically, the methods and apparatus obtain a radio fingerprint of the mobile terminal's location based on signal measurements (e.g., signal strength, signal quality, or path loss) performed at a radio frequency distinct from that used to obtain the reference radio fingerprints. The methods and apparatus transform the radio fingerprint, or the reference radio fingerprints, or both, based on that distinction, such as by offsetting signal measurements of the radio fingerprint by an amount determined based on theoretical or experimental models of the dependency of the signal measurements on the radio frequency at which they are performed. The radio fingerprint of the mobile terminal's location may then be compared to the reference radio fingerprints, to accurately estimate the mobile terminal's location despite the radio fingerprint and the reference radio fingerprints having been obtained using different frequencies. | 03-17-2011 |
20110096680 | Method and Apparatus for Channel Quality Derivation - In one aspect, a method and apparatus derive channel quality estimates for given subcarriers in an OFDM signal, based on reference signal (RS) or other known-signal measurements made for another set of subcarriers. In at least one embodiment, a wireless communication apparatus implements a method whereby it is configured for receiving reference information on the first set of subcarriers; generating the first channel quality estimates in the frequency domain, based on the received reference information; computing a power delay profile for the first set of subcarriers; and determining the second channel quality estimates either by extrapolating from the first channel quality estimates or as an average of the first channel quality estimates, depending on a delay spread of the power delay profile. | 04-28-2011 |
20110105170 | Grouping User Terminals into Different Coordination Scheme Groups - In a radio network in which multiple base stations can communicate with multiple user terminals in a coordinated way, user terminals may be grouped into groups, each group representing a coordination scheme to be used for user terminals in the group. The groups may be chosen, for example, according to path loss or QoS requirements Preferably there are three groups requiring no coordination, multiuser coherent coordination and single user coherent coordination respectively. Grouping may be done dynamically according to one or more of the following factors: —the terminal's signalling overhead —the affordable processing complexity —the traffic load —the radio conditions. The grouping unit may be placed in one or more base stations or in any other suitable unit in the network. | 05-05-2011 |
20110201332 | Method and Arrangement for Processing of Neighbor Cell Information - Methods and arrangements for improving the selection of neighbor cells, on which to perform measurements in different situations. The method in a first node involves obtaining information identifying a first and a second set of neighboring cells for a respective first and second measurement category. A third set of neighboring cells is then determined based on at least parts of the obtained information related to the first and second set. Measurements are then performed in a third measurement category on at least part of the cells in the third set of neighboring cells. The methods and arrangements enable combination of information on neighbor cells, obtained in different ways for different measurement categories into a combined set of neighbor cells, which is more suitable for measurements in a certain measurement category than a set of cells previously obtained for performing measurements in said measurement category. | 08-18-2011 |
20110205106 | Power Control for Home Base Station with GNSS Receiver - Embodiments herein include a method and a network node in a wireless communications network for controlling a maximum output power of the network node. The network node comprises a Global Navigation Satellite System (GNSS) receiver. The GNSS receiver receives signals from the GNSS. The method comprises determining whether a GNSS signal transmitted from the GNSS is considered detectable. If the GNSS signal is considered detectable, the method includes determining whether the GNSS signal is received directly from the GNSS or via a GNSS repeater. The method further includes selecting a power control method for controlling the maximum output power of the network node, based on at least one of the determination of whether the GNSS signal is considered detectable, and the determination of whether the GNSS signal is received directly from the GNSS or via the GNSS repeater. | 08-25-2011 |
20110230144 | Method and Apparatus for Muting Signaling in a Wireless Communication Network - In one aspect, the present invention provides a simple method of signaling reference signal muting information to receiving radio equipment, such as items of user equipment (UEs). The reference signals may be positioning reference signals and/or cell-specific reference signals, for example. In one or more embodiments, the present invention proposes a general solution whereby the receiving radio equipment is informed not only on whether muting is used in general in a cell, but also the particular timing and formatting of such muting. Further, the contemplated method provides for the use of dynamic muting patterns, and thus avoids the need for statically defined muting patterns, and provides for coordinated muting control, across two or more network cells. In at least one embodiment, static or less dynamic aspects of the muting configuration is signaled via higher-layer signaling, while lower-layer signaling is used to signal more dynamic aspects of the muting configuration. | 09-22-2011 |
20120083278 | POSITIONING MEASUREMENTS AND CARRIER SWITCHING IN MULTI-CARRIER WIRELESS COMMUNICATION NETWORKS - In a multi-carrier wireless communication network, positioning-aware switching of a primary carrier from a first carrier to a second carrier for a UE is constrained to enable one or more positioning measurements to be performed. Either the selection of the second carrier, the timing of switching from the first to the second carrier, or both, are constrained to enable and enhance the positioning performance. The constraints may be operative at a serving node of the network, at a UE, or both. Further constraints may be applied to the network to enhance positioning performance. Carrier switching may be across Radio Access Technology (RAT), and the positioning constraints may include configuring or re-configuring a device to perform positioning measurements in measurement gaps (e.g., on a secondary carrier in LTE systems when Positioning Reference Signals are not transmitted on the primary carrier). | 04-05-2012 |
20120184290 | Enhanced Measurement Gap Configuration Support for Positioning Related Applications - A base station is configured to serve a wireless device in a serving cell on a serving frequency. The base station obtains information that indicates one or more non-serving frequencies on which the device is to perform one or more positioning measurements. These positioning measurements are to be used for determining the device's geographic position. For at least one non-serving frequency indicated by the information, the base station configures a measurement gap during which the device is to perform a corresponding positioning measurement. Specifically, the base station configures such measurement gap to occur during a period of time in which a neighboring cell transmits a positioning reference signal over that non-serving frequency. A positioning reference signal is specifically designed to be a signal on which a device performs positioning measurements. Thus, by aligning the measurement gap with a positioning reference signal, the positioning measurements will prove more reliable and accurate. | 07-19-2012 |
20120196528 | COMPOSITE REPORTING OF WIRELESS RELAY POWER CAPABILITY - A relay node ( | 08-02-2012 |
20120294149 | Method For Generating A Congestion Flag Based On Measured System Load - A radio base station generates a congestion status flag, based on measured resource usage in its cell, and based on performance of sessions in the cell. The flag may be a one bit, or a small number of bits, indicating whether the base station is congested. The flag can be sent to neighbouring radio base stations, for use in determining whether to perform handovers to that radio base station. The flag generated in a radio base station, and the flags generated in neighbouring radio base stations, can also be sent to user equipment in a cell. | 11-22-2012 |
20130034008 | Handling of Idle Gap Commands in a Telecommunication System - The invention relates to methods and arrangements for the reliability handling of idle gap commands received in a unit of a mobile telecommunication system. A user equipment located in a cell of a mobile telecommunication network receives signaling gap commands used to activate or deactivate idle gaps for downlink measurements in the neighbor cells. It is determined whether the received gap command is reliable or not. Downlink measurements are then performed in accordance with a predefined rule in case the received gap command is determined as unreliable. | 02-07-2013 |
20130034035 | METHODS AND ARRANGEMENTS FOR AD-HOC WIRELESS NETWORKS - A method, User Equipment (UE), and network node in an ad-hoc network. The UE determines a node in the ad-hoc network that is able to provide a reference signal comprising a pattern that can be used for synchronization purposes when the UE is in DRX mode in the ad-hoc network. The node is determined by requesting the node to indicate whether the node is able to provide the reference signal, and receiving an accept signal or message from the node. The UE then receives the reference signal from the determined node, enters DRX mode, and uses the received reference signal to maintain synchronization while in the DRX mode. | 02-07-2013 |
20130039342 | User Equipment, Network Node, Second Network Node and Methods Therein - Embodiments herein relate to a method in a user equipment ( | 02-14-2013 |
20130040558 | Method and Device for Distinguish Between Relay Types - The embodiments herein relate to a method in a target node ( | 02-14-2013 |
20130150054 | Methods and Nodes Supporting Cell Change - The invention relates to a method for supporting cell change between frequency layers. The method is performed in a UE and/or a RN node of a wireless communication network deploying two frequency layers. The RN node serves a UE in a cell of a first of the two frequency layers. The UE is configured to perform measurements on the first frequency layer, and to exclude measurements on a second of the two frequency layers. The method comprises receiving ( | 06-13-2013 |
20130201911 | Network Node, User Equipment and Methods Therein for Adjusting the Transmit Timing of Uplink Transmissions - A method in a user equipment ( | 08-08-2013 |
20130288663 | Network-Controlled E-UTRAN Neighbour Cell Measurements - The present disclosure relates to methods and arrangements in a telecommunication system for network-controlled bandwidth for neighbor cell measurements. An appropriate network unit in the serving cell signals measurement bandwidth values to the UE which uses the signal values to perform one or more downlink measurements on the serving as well as the neighbor cells. | 10-31-2013 |
20140064247 | Cell Size and Shape Estimation in Heterogeneous Networks - A telecommunications node ( | 03-06-2014 |
20140078973 | Methods and Arrangements in a Wireless Communication System - Some embodiments provide a method executed in a network node comprised in a wireless communications network. According to the method, the network node obtains ( | 03-20-2014 |
20140094188 | Enhanced Measurement Gap Configuration Support for Positioning - A base station is configured to serve a wireless device in a serving cell on a serving frequency. The base station obtains information that indicates one or more non-serving frequencies on which the device is to perform one or more positioning measurements. These positioning measurements are to be used for determining the device's geographic position. For at least one non-serving frequency indicated by the information, the base station configures a measurement gap during which the device is to perform a corresponding positioning measurement. Specifically, the base station configures such measurement gap to occur during a period of time in which a neighboring cell transmits a positioning reference signal over that non-serving frequency. A positioning reference signal is specifically designed to be a signal on which a device performs positioning measurements. Thus, by aligning the measurement gap with a positioning reference signal, the positioning measurements will prove more reliable and accurate. | 04-03-2014 |
20140233493 | METHOD AND APPARATUS FOR MUTING SIGNALING IN A WIRELESS COMMUNICATION NETWORK - In one aspect, the present invention provides a simple method of signaling reference signal muting information to receiving radio equipment, such as items of user equipment (UEs). The reference signals may be positioning reference signals and/or cell-specific reference signals, for example. In one or more embodiments, the present invention proposes a general solution whereby the receiving radio equipment is informed not only on whether muting is used in general in a cell, but also the particular timing and formatting of such muting. Further, the contemplated method provides for the use of dynamic muting patterns, and thus avoids the need for statically defined muting patterns, and provides for coordinated muting control, across two or more network cells. In at least one embodiment, static or less dynamic aspects of the muting configuration is signaled via higher-layer signaling, while lower-layer signaling is used to signal more dynamic aspects of the muting configuration. | 08-21-2014 |
20140308916 | Method For Generating A Congestion Flag Based On Measured System Load - A radio base station generates a congestion status flag, based on measured resource usage in its cell, and based on performance of sessions in the cell. The flag may be a one bit, or a small number of bits, indicating whether the base station is congested. The flag can be sent to neighbouring radio base stations, for use in determining whether to perform handovers to that radio base station. The flag generated in a radio base station, and the flags generated in neighbouring radio base stations, can also be sent to user equipment in a cell. | 10-16-2014 |
20150024754 | Methods and Nodes Supporting Cell Change - The invention relates to a method for supporting cell change between frequency layers. The method is performed in a Radio Network node of a wireless communication network deploying two frequency layers. The Radio Network node serves a User Equipment in a cell of a first of the two frequency layers. The User Equipment is configured to perform measurements on the first frequency layer, and to exclude measurements on a second of the two frequency layers. The method comprises receiving information from the User Equipment related to a coverage of a target cell of the second frequency layer, and determining whether to change to the target cell based on the received information. | 01-22-2015 |