Patent application number | Description | Published |
20080259876 | DORMANT SESSION MANAGEMENT ASSOCIATED WITH HANDOVER - Systems and methods according to these exemplary embodiments provide for selectively transmitting a pre-registration, re-registration or de-registration initiation message associated with handing off user equipment between different access systems, e.g., a long term evolution (LTE) system and a high rate packet data (HRPD) system, to reduce dormant sessions. The decision to selectively transmit initiation messages is typically performed by a dormant session management function (DSMF). | 10-23-2008 |
20080259961 | Data Unit Relay Device and Method of Controlling the Same - A method of controlling a data unit relay device is described, applied to a relay ARQ protocol in accordance with which a source peer sends data units to a destination peer via at least one relay peer. The relay ARQ protocol provides for a first type and second type of receipt information, where the first type is indicative of a correct receipt at a relay peer, and the second type is indicative of a correct receipt at the destination peer. In a data unit relay device that is arranged for deliberately dropping data units of the relay ARQ protocol under one or more predetermined conditions, a procedure is provided for indicating to the source peer and the destination peer that a data unit has been deliberately dropped and for identifying the deliberately dropped data unit, such that the source and destination peer may perform retransmission control for the dropped data unit as if it had been successfully received at the destination peer | 10-23-2008 |
20090201947 | Method And Arrangement For Reducing The Amount Of Messages Sent In A Communication Network - The invention relates to a method and an arrangement for reducing the amount of messages sent in a communication network comprising a first communication network entity ( | 08-13-2009 |
20100040022 | Random Access Aligned Handover - A method and apparatus for reducing handover interruptions when a mobile device executes handover including a random access procedure is described herein. When handover is desirable, a time offset associated with a random access opportunity is determined. The time offset relates the timing of the next random access opportunity to the frame timing of a target access point. Based on the time offset, a network element, e.g., the mobile device, a serving access point, or a mobility management entity, determines a handover start time. Handover is executed at the determined start time to generally align the beginning of the handover execution with the beginning of the next random access opportunity, and therefore, to reduce handover interruption. | 02-18-2010 |
20100110958 | METHOD FOR CONTENT SYNCHRONIZATION WHEN BROADCASTING DATA IN A WIRELESS NETWORK - The present invention relates to an arrangement and method for content synchronization when broadcasting data from an infrastructure node in a communication network. The arrangement comprises a receiver receiving data sequences and a transmitter for transmitting data sequences. Each data sequence has a data size and comprises a sequence number (SN). The arrangement further comprises a processing arrangement configured to add byte numbered sequence numbers to said data sequences passed between layers in a protocol stack for transmission to a transceiver station. | 05-06-2010 |
20100142486 | METHOD AND ARRANGEMENT FOR PROCESSING MOBILE STATION HISTORY INFORMATION IN A WIRELESS COMMUNICATION SYSTEM - Methods and apparatus for processing mobile station transaction information at a serving control node in a wireless communication system are disclosed. The serving control node may be a base station, such as an eNodeB in an LTE/SAE wireless communication system. The transaction information, which may include, for example, mobility-related transaction information and traffic-related transaction information for a given mobile station, may be passed between controlling control nodes as the corresponding mobile station is handed over, so that a controlling control node has access to information characterizing the past activities of the mobile station. This information may be used in some embodiments for selecting a target control node for handover or for allocating link resources. | 06-10-2010 |
20100177897 | TELECOMMUNICATION SYSTEMS AND ENCRYPTION OF CONTROL MESSAGES IN SUCH SYSTEMS - The present invention relates to a solution for handling encryption of control messages in a wireless telecommunications network. Key generation is based on sequence numbers and the present invention reduces access to core network devices for updating sequence numbers relating to network events by separating sequence number generation to different parts of the network and different types of network events. This is done by providing a solution where sequence number rollover events and handover events are separated from each other in providing input to radio resource control message encryption. Three different counters may be used for different types of events and all three may be used as input to an encryption algorithm. | 07-15-2010 |
20100195622 | Method of Maintaining Broadcast Service Continuity - An access node in the boundary area of a single frequency network service area transmits a boundary indication to the mobile terminals in the boundary area to notify the mobile terminals that they are approaching the boundaries of the single frequency network. The mobile terminals receiving the boundary indications may then take steps to maintain continuity of broadcast services when the mobile terminals leave the service area of the single frequency network. | 08-05-2010 |
20100197308 | Handover Using Dedicated Resources Reserved For A Limited Time Interval - A method and arrangement for handover wherein the handover resource (the dedicated random access preamble) is reserved by the target radio base station (RBS) for a limited period of time, thus increasing the handover efficiency and thereby allowing random access preambles to be used for initial access to a larger extent. The information about the reserved time interval is sent to the UE in the handover command message by means of a frame number offset between the source RBS and the target RBS. The UE uses the information to calculate when to send its synchronisation message to the target RBS. The frame number offset is calculated either by source RBS or by target RBS. | 08-05-2010 |
20100248750 | Paging in a Radio Access Network, Such As An E-UTLRAN - The present invention relates to methods and arrangements of a network node and a UE of a radio access network supporting discontinuous reception, offering a solution that is based on the idea to use more than one sub frame for transmitting paging messages when needed. An indicator in a sub frame with paging messages indicates to the receiving UE if the subsequent sub frame should be read as well. | 09-30-2010 |
20100265884 | CIRCUIT-SWITCHED SERVICES OVER SAE/LTE NETWORKS - A method and apparatus for providing both Mobile Terminated, MT, and Mobile Originated, MO, circuit switched (CS) services such as Short Message Service, SMS, services in networks utilizing CS Fallback and CSoLTE-I architectures. An extended SGs interface referred to as SGs+ is implemented between a Mobility Management Entity, MME, in an SAE core network and a Mobile Switching Center Server, MSC-S. The SGs+ interface supports transmission of upper layer CS packet data units while utilizing either connectionless or connection-oriented Signaling Connection Control Part, SCCP, operation. The non access stratum, NAS, signaling support between the User Equipment, UE, and the MME is extended to provide support for both MT SMS and MO SMS service. | 10-21-2010 |
20100265912 | Method and Apparatus for Secure Handover in a Communication Network - In at least one embodiment taught herein, the point in a packet transmission sequence space at which hyper frame numbers are incremented is changed at least temporarily as part of handover processing, where a mobile station ( | 10-21-2010 |
20100316223 | Method and Arrangement in a Telecommunication System - A security key, K_eNB, for protecting RRC/UP traffic between a User Equipment, UE, and a serving eNodeB is established by a method and an arrangement in a Mobility Management Entity, MME, and in said UE, of an Evolved Packet System, EPS. The MME and the UE derives the security key, K_eNB, from at least an NAS uplink sequence number, NAS_U_SEQ, sent from the UE to the MME, and from an Access Security Management Entity-key, K_ASME, shared between the MME and the UE. | 12-16-2010 |
20100330959 | Method for Updating UE Capability Information in a Mobile Telecommunications Network - The present invention relates to methods and arrangements for handling UE capability information a mobile telecommunications network wherein an eNodeB ( | 12-30-2010 |
20110032858 | Technique for controlling content distributions in point-to-multipoint enabled network environments - The invention relates to a technique for controlling a content distribution in a point-to-multipoint (“PTM”)-enabled network environment ( | 02-10-2011 |
20110044279 | Self-Backhauling in LTE - A method implemented in an anchor base station configured performing a proxy operation at an anchor base station in which the anchor base station acts as a proxy between a second S-GW or an MME node and a self-backhauled base station. The method includes receiving a data packet destined for the user equipment and mapping the received data packet from an incoming General Packet Radio Service (GPRS) Tunneling Protocol (GTP) tunnel to an outgoing GTP tunnel. The method also includes receiving a control message and modifying elements of the control message while copying other elements in the control message and forwarding the control message between the self-backhauled base station and the second S-GW or MME node. | 02-24-2011 |
20110080825 | Method and Apparatus for Radio Link Failure Recovery in a Telecommunication System - The teachings presented herein enable a user terminal to perform a fast recovery from a radio link failure. In one aspect, the improvement in recovery time is achieved by commanding or otherwise causing the user terminal to perform radio link failure (RLF) recovery at a cell that is known to possess the user context, while considering that this cell should yield good radio conditions (if not the best) to the user terminal. A cell may be predefined for use by the user terminal in recovering its radio connection. Based on providing signal strength thresholds to the user terminal, for use in determining whether to use a predefined cell for reconnecting to the network, the user terminal attempts RLF recovery first in the predefined cell. By providing user context to the predefined cell in advance of a recovery attempt by the user terminal, the time for recovery is lessened. Note that the user terminal also may infer which cells are preferred. | 04-07-2011 |
20110080867 | Method and an Arrangement for Legacy Fallback Between Communication Network Systems - A mechanism is provided by a method and an arrangement for performing Circuit Switched fallback from a packet switched domain to a circuit switched domain, in order to speed up the time it takes for a User Equipment to access an 1×RTT system before initiating services. Thus, the teachings herein provide a method of Circuit Switched fallback (i.e. for handling Circuit Switched Services) for a User Equipment residing in a Packet Switched domain, comprising of the eNB, located within the packet switched domain, transmitting an indication that Circuit Switched Services are supported to a User Equipment and registering to a Circuit Switched domain by signalling Circuit Switched Registration information, via the eNB, enabling the User Equipment to register to a Circuit | 04-07-2011 |
20110081856 | Methods and Arrangements for Frequency Selective Repetition - Methods and apparatuses for enabling frequency selective repetition of signals in a telecommunication system in which aggregation of component carriers is applied. Information signals are received ( | 04-07-2011 |
20110105153 | AVOIDING EXCESSIVE SIGNALING DURING WIRELESS TERMINAL TOGGLING - A core network node ( | 05-05-2011 |
20110110228 | Method and Apparatus for Congestion Control for Inter-Working Communication Networks - A method for allowing distribution of congestion-related information between a cellular communication system supporting circuit-switched services and a cellular communication system supporting packet-switched services. A message destined for the packet-switched communication system is identified at the circuit-switched communication system, and congestion-related information, indicating the present congestion status of the circuit-switched communication network is included into the message. The message is then forwarded to a network node of the packet-switched communication system, where either a user equipment or the network node of the first cellular communication system can control Circuit-switched Fallback (CSFB) attempts towards the second communication system on the basis of the congestion-related information prior to having to initiate any access signaling associated with the CSFB attempts. | 05-12-2011 |
20110158181 | Mechanism To Uniquely Identify And Unify A User's Set Of Packet Bearer Contexts In A Mobile Telecommunications - A traffic plane entity (e.g., user plane entity (UPE), serving gateway (S-GW)) and method are described herein for allocating a unique identifier (e.g., UPE/S-GW UE-Context-Id) which identifies and unifies a set of bearers within a UE context that is associated with a given UE. In operation, the traffic plane entity can then send the allocated unique identifier to another entity (e.g., mobility management entity (MME)) which at a subsequent time re-sends the unique identifier back to the traffic plane entity along with a request to have the traffic plane entity perform a specific operation or procedure on the bearers associated with the UE context of the given UE. Upon receiving the request, the traffic plane entity uses the unique identifier to perform the requested operation or procedure simultaneously on all of the bearers associated with the UE context of the given UE. | 06-30-2011 |
20110194535 | QoS Management for Self-Backhauling in LTE - A method manages bearers over a first wireless link between a self-backhauled base station and a base station, where the self-backhauled base station serves one or more user equipments (UEs) via one or more second wireless links in a network. The method is implemented at the self-backhauled base station and includes identifying changes in numbers and/or characteristics of UE bearers multiplexed onto a backhaul bearer associated with the first wireless link. The method further includes dynamically reconfiguring resources allocated to the backhaul beare | 08-11-2011 |
20110195708 | Optimized Handover Configuration - A method for power measurements in a cellular communication system comprises receiving measurement configuration orders. Operation of a power meter is controlled in dependence on the measurement configuration orders. Reference signal received powers are measured. A measurement report is compiled and transmitted. The measurement configuration orders comprise cell status information associated with neighbouring cells and measurement instructions that are dependent of the cell status of respective cell. The cell status information comprises information about whether the neighbouring cell is of a different type than the serving cell. Controlling of the operation of the power meter and/or compiling of the measurement report is performed in dependence on the cell status of the neighbouring cell. A method for handover based on such measurement reports is also disclosed as well as Node Bs and user equipments configured to perform such methods. | 08-11-2011 |
20110208842 | Identification of Relay Nodes in a Communication Network - A relay node identified by a unique relay node identifier relays communications between a donor base station and one or more user terminals. The donor base station acquires the relay node identifier during a relay node attach procedure from where the relay node or another node in the core network (e.g., mobile management entity). The donor base station may use the relay node identifier to retrieve configuration information for the relay node. The configuration information may be used to configure the relay node, to perform radio resource management functions, and/or to monitor the performance of the relay node. | 08-25-2011 |
20110228700 | Subframe Allocation for In-Band Relay Nodes - A coordinating node avoids or reduces interference between relay nodes by coordinating subframe allocation for the interfering relay nodes. The coordinating node identifies the interfering relay nodes that require the same subframe allocation and provides the necessary signaling so that the involved nodes get information concerning the subframe allocations. The system may be implemented using a centralized node (e.g., OAM) or distributed coordinating nodes. | 09-22-2011 |
20110243060 | SYSTEM AND METHOD FOR SCHEDULING WIRELESS TRANSMISSIONS - In accordance with one embodiment of the present disclosure, a method of operating a relay node includes receiving information, at the relay node, information identifying a plurality of subframes. The subframes represent time periods during which a base station may grant the relay node permission to transmit to the base station on a first frequency. The method also involves selecting one of the identified subframes to be used for a transmission between the relay node and a wireless terminal on the first frequency and transmits to the wireless terminal a scheduling grant granting the wireless terminal permission to transmit information on the first frequency during the selected subframe. | 10-06-2011 |
20110244851 | CONFIGURING RELAY CELL IDENTITIES IN CELLULAR NETWORKS - The technology in this application identifies a relay cell serviced by a relay radio node in a radio access network (RAN) of a cellular communications system in which there is a radio connection between the relay radio node and a donor radio base station. The donor radio base station is identified by a RAN donor radio base station cell identifier. A RAN relay cell identifier is determined that uniquely identifies the relay cell within the RAN, the RAN relay cell identifier including a relay cell identifier and a donor base station identifier. The RAN relay cell identifier is then provided or used as needed so that the relay radio node can transmit the RAN relay cell identifier to uniquely identify the relay cell to one or more radio terminals in the RAN. | 10-06-2011 |
20110268014 | Propagating System Information Changes to Relays - Teachings herein include a base station for propagating system information changes from the base station to the relay node. Upon transmitting system information changes to the relay node, the base station defers data transmission between the base station and the relay node until a set time period. In many embodiments, the base station is configured to actually apply the system information changes during this time period, while the relay node applies the changes before then, e.g., by applying them immediately upon reception. The base station's deferral of data transmission until the set time period thus ensures that data transmission does not occur until both the base station and the relay node have applied the pending changes. This in turn prevents radio link failure from occurring due to use of different system parameters by the base station and relay node. | 11-03-2011 |
20110269394 | Application of System Information Changes by Relays - Teachings herein include a base station and a relay node for propagating system information changes from the base station to the relay node. Upon receiving changes from the base station, the relay node advantageously determines whether to apply the changes immediately or to defer application until a set time period. The relay node then applies the changes at a time in accordance with that determination. In some embodiments, the relay node employs deferred application for fundamental changes (those changes that would fatally disrupt ongoing communications if applied before the set time period), but employs immediate application for non-fundamental changes in order to minimize relay node complexity. Regardless, the relay node may make the determination based on preconfigured rules, or on control indicators received from the base station. Correspondingly, the base station may generate the control indicators to explicitly direct the relay node to employ immediate application or deferred application. | 11-03-2011 |
20110275381 | Methods and Arrangements in a Radio Communication System - An Uplink control channel resource Management Module ( | 11-10-2011 |
20110305220 | Methods and Devices for Managing Radio Access in a Communication System - A method for managing radio access comprises sending of a radio access technology (RAT) resource aggregation request from a first radio access network (RAN) to a second RAN concerning communication with a user equipment connected to a source RAN, and returning a response to the first RAN. The source RAN is the first or second RAN. The first and second RANs use different radio access technologies. Radio resources of a base station in a target RAN, the RAN to which the user equipment is not connected, are reserved. A report of the reserved radio resources is sent to the source RAN. A RAT resource aggregation command is transmitted to the user equipment. The RAT resource aggregation command comprises that a RAT resource aggregation shall be used and the reserved radio resources. The base stations have at least partly overlapping coverage areas. | 12-15-2011 |
20110305339 | Key Establishment for Relay Node in a Wireless Communication System - Techniques for providing additional security for the wireless interface between a relay node and a donor base station are based on a security association established between the relay node and the donor base station. In an example method implemented in a relay node, communications with a donor base station are established and a first cryptographic key is generated according to a radio access protocol. A security association between the relay node and the donor base station is then established, using a credential stored at the relay node, and a second cryptographic key is derived from the first cryptographic key, using the stored credential, or one or more parameters relating to the security association, or information exchanged within the security association. The second key is used to protect user plane data relayed from one or more mobile terminals to the donor base station. | 12-15-2011 |
20120020278 | Radio Bearer Identification for Self Backhauling and Relaying in LTE Advanced - The present invention relates to a method and apparatus for user terminal and bearer identification that reduces the overhead for LTE relaying (layer 2 and layer 3), which will save radio resources on the backhaul link. Reduction in overhead is achieved by providing a more efficient mechanism for user terminal and bearer identification as compared to using GTP-u and associated UDP/IP headers. | 01-26-2012 |
20120044907 | METHOD AND ARRANGEMENT FOR MANAGING USER EQUIPMENT ACCESS IN A WIRELESS COMMUNICATION SYSTEM - Methods and arrangements in a node in a wireless communication system for managing user equipment access to the target node. The wireless communication system comprises the target node, a source node, a core network node and a user equipment. The user equipment is configured for wireless communication over a bearer with the source node and for performing a handover from the source node to the target node. The method comprises receiving a bearer request associated with the user equipment, obtaining a time information parameter associated with the queuing time of the bearer request in at least the source node, checking if communication resources are available for establishing a bearer with the user equipment. If communication resources are not available, the bearer request is placed in a priority queue, based on the received time information parameter. | 02-23-2012 |
20120100845 | Power Saving in a Radio Base Station by Determining Number of Active and Idle Users Camping on Cell - Methods of operating a radio base station of a first cell in a wireless cellular network are disclosed. Each of one or more user equipment devices of the wireless cellular network has an idle mode in which the radio base station is not aware of whether the user equipment device is currently camping on the first cell, and an active mode in which the radio base station is aware of whether the user equipment device is currently camping on the first cell. By setting the radio base station in a disabled state based on various criteria, energy may be saved in the radio base station. | 04-26-2012 |
20120127915 | METHOD AND ARRANGEMENT IN A RELAY NODE AND A CONTROLLING NODE - According to various embodiments, a method is provided at a relay node for enabling subframe allocation between a backhaul link and an access link of the relay node. The relay node is connected to a controlling entity via the backhaul link, and is connectable to at least one user equipment via the access link. The relay node receives a trigger or configuration information from the controlling entity from the controlling entity. Based on the received trigger or configuration information, the relay node sends information to the controlling entity, indicating a resource utilization of the access link and/or indicating a quality of the access link. | 05-24-2012 |
20120157095 | CLOSED SUBSCRIBER GROUP (CSG) HANDLING FOR SUPPORTING NETWORK SHARING OF HOME BASE STATIONS - A system and method for enhanced support for handling of Closed Subscriber Groups (CSGs) and sharing of Radio Access Network (RAN) for home base stations and other small cells. An enhanced System Information (SI) structure indicates multiple CSG IDs and CSG Indications, thereby making it possible to support different CSG IDs and CSG Indications for every Public Land Mobile Network Identity (PLMN-ID) and also to support a PLMN-ID with multiple associated CSG IDs and CSG Indications. The enhanced SI makes it possible to have different CSG IDs for different operators, to have multiple CSG IDs for one operator (i.e., a single PLMN), and to selectively use the CSG concept for some PLMNs (as given by their respective CSG Indications), but not for all. A network of base stations (e.g., a RAN) thus can be effectively shared by multiple operators, leading to better cellular coverage, peak rates, and capacity. | 06-21-2012 |
20120163293 | MULTIPLE GATEWAY HANDLING FOR SUPPORTING NETWORK SHARING OF HOME BASE STATIONS - A home base station receives from a wireless user equipment an identification of a selected Public Land Mobile Network, PLMN, among multiple available PLMNs to which the wireless user equipment is to be connected. The home base station identifies a communication path to a home base station gateway is associated with the selected PLMN and communicates with the selected PLMN that was identified over the communication path that was identified. The home base station may thereby be shared among multiple PLMNs. Related networks, methods and home base stations are described. | 06-28-2012 |
20120238261 | METHOD AND ARRANGEMENT FOR PROCESSING MOBILE STATION HISTORY INFORMATION IN A WIRELESS COMMUNICATION SYSTEM - Methods and apparatus for processing mobile station transaction information at a serving control node in a wireless communication system are disclosed. The serving control node may be a base station, such as an eNodeB in an LTE/SAE wireless communication system. The transaction information, which may include, for example, mobility-related transaction information and traffic-related transaction information for a given mobile station, may be passed between controlling control nodes as the corresponding mobile station is handed over, so that a controlling control node has access to information characterizing the past activities of the mobile station. This information may be used in some embodiments for selecting a target control node for handover or for allocating link resources. | 09-20-2012 |
20120258740 | Access Control According to a Policy Defined for a Group of Associated Electronic Devices Comprising a Cellular Modem - Access control according to a policy defined for a plurality of electronic devices comprising a cellular modem and associated with the same user If an end user has two electronic devices, such as a fire alarm or an electricity meter, which both have a cellular modem and are allowed to operate in parallel under the same subscription, the end user can abuse this subscription by lending or selling one of the devices to another person. This abuse can be prevented by the present invention in that the network access is controlled according to a policy defined for the plurality of electronic devices operating under the same subscription. In particular, the policy defines a threshold distance between a primary electronic device and each additional electronic device belonging to said plurality of electronic devices operating under the same subscription which specifies the maximum distance from the primary electronic device which still allows to gain access to the network. | 10-11-2012 |
20120263096 | METHODS AND NODES FOR PROBING TYPES OF INTERFACES - Embodiments herein relate to a method in a relay node ( | 10-18-2012 |
20120275394 | GENERATING UPLINK SIGNALS FROM USER EQUIPMENT NODES TO IDENTIFY INTERFERERS TO A NETWORK NODE - A method is disclosed that can be performed in at least one network node which provides wireless communications service for user equipment nodes (UEs). The method includes detecting uplink interference at an interfered network node. Responsive to the uplink interference, an uplink transmission having a defined configuration is initiated from a UE, which is served by a serving network node. The uplink signal is detected using the defined configuration at the interfered network node. The UE is identified responsive to the detected uplink signal as being a contributor to the uplink interference. An uplink transmission by the UE and/or by another UE served by the serving network node is controlled to reduce uplink interference. | 11-01-2012 |
20120307668 | Methods and Devices Which Enable Considering a Number of Active User Stations Linked Via Relays When Allocating Radio Resources - In a radio communication system, a relay node that relays data received from an anchor node to user stations, determines and transmits information about a number of active user stations linked to the relay node, to the anchor node. The anchor node allocates radio resources according to the received information about the number of active user stations. | 12-06-2012 |
20120307709 | ENABLING AND DISABLING INTEGRITY PROTECTION FOR DATA RADIO BEARERS - The present invention relates to a method in a receiving node and a sending node of a wireless communications system for enabling and disabling integrity protection of at least one data radio bearer between the sending node and the receiving node. The method in the receiving node comprises, following a successful connection re-establishment between the sending node and the receiving node, receiving a connection reconfiguration message from the sending node, the connection reconfiguration message comprising an indicator indicating which ones of the at least one data radio bearers that shall have enabled integrity protection. It also comprises enabling integrity protection of packets on the at least one data radio bearer indicated by the indicator, and disabling integrity protection of packets on the rest of the at least one data radio bearers. | 12-06-2012 |
20120309395 | Carrier Aggregation Support for Home Base Stations - Home base station nodes ( | 12-06-2012 |
20120329461 | HANDOVER AND NEIGHBOR MANAGEMENT FOR MOBILE RELAY NODES - Some embodiments provide a mobile relay node, RN, ( | 12-27-2012 |
20130010696 | METHOD AND AN ARRANGEMENT FOR LEGACY FALLBACK BETWEEN COMMUNICATION NETWORK SYSTEMS - A method for handling Circuit Switched Fallback from a Packet Switched domain includes receiving an indication that Circuit Switched Fallback is supported from an eNodeB located within the Packet Switched domain. The method also includes registering to a Circuit Switched domain associated with Circuit Switched Fallback by tunneling Circuit Switched Registration information, via the eNodeB, to the Circuit Switched domain, thereby enabling the User Equipment to setup a Circuit Switched call or receive a Circuit Switched page. The method also includes receiving a Circuit Switched specific parameter setting from the eNodeB. The Circuit Switched specific parameter setting includes decoding information to facilitate decoding of transmissions in the Circuit Switched domain. Additionally, the method includes, after receiving the Circuit Switched specific parameter setting, switching from the Packet Switched domain to the Circuit Switched domain and using the decoding information to access the Circuit Switched domain. | 01-10-2013 |
20130012249 | METHODS AND APPARATUS FOR DYNAMIC CARRIER SELECTION FOR CELL BASE STATIONS - Apparatus and methods are disclosed for mitigating interference to radio base stations. A first base station provides a served cell that at least partially overlaps a served cell of a second base station. The first and second base stations are part of a telecommunications system. The method includes identifying at least one carrier that is preferable for the second base station to utilize for communications with at least one UE to avoid interference. The method further includes communicating an instruction message from the first base station to the second base station that instructs the second base station to use the at least one carrier for communications. | 01-10-2013 |
20130044705 | Smart RAN - A smart RAN for wireless distributed cloud computing with a UE, the RAN in communication with a Wi-Fi network, an LTE network and a 3G network. The RAN includes a network interface unit that communicates with the LTE in 3G networks. The RAN includes a processing unit which chooses which of the Wi-Fi, LTE and 3G networks to use to send and receive data at a given time based on loading condition of each radio access network technology, user's application/service requirements and user's policy. A method for sending and receiving data of a smart RAN for wireless distributed cloud computing with an UE and the RAN that is simultaneously in communication with a Wi-Fi network, an LTE network and a 3G network. | 02-21-2013 |
20130059590 | NEIGHBOR MANAGEMENT FOR MOBILE RELAY NODES - A donor base station ( | 03-07-2013 |
20130070663 | Method and Arrangement in a Telecommunication System - The present invention relates to a method in a serving base station ( | 03-21-2013 |
20130084854 | Methods and Arrangements for Direct Mode Communication - A method in a first user equipment (UE | 04-04-2013 |
20130084884 | Cell Selection Mechanism in Mobile Relay Operation - The present invention relates to a method in a radio network node of a cellular network, for controlling admission of a UE in a cell covering a region. The method comprises obtaining ( | 04-04-2013 |
20130089022 | Method and Apparatus for Mobile Relay Handover - The present invention comprises an apparatus and method supporting handover of mobile relay nodes, “RNs” ( | 04-11-2013 |
20130090123 | Method and Device for a Relay Node - A relay node ( | 04-11-2013 |
20130103502 | Method and Apparatus for Ad Insertion in Cellular Networks - In one aspect, the present invention comprises a method or methods for introducing ad insertion and ad management into operator networks (Core Network or Radio Access Network), thereby improving ad management capabilities and avoiding the need for the operator to share internal network or UE information with third parties. In one or more embodiments, the contemplated method(s) and supporting apparatuses are applicable to scenarios where the network operator and a third-party ad provider have an agreement and where they do not. | 04-25-2013 |
20130109380 | METHODS OF SELECTING TARGET CELLS USING NEIGHBOR CELL INFORMATION AND RELATED NETWORK CONTROLLERS | 05-02-2013 |
20130231116 | METHOD AND ARRANGEMENT FOR PROCESSING MOBILE STATION HISTORY INFORMATION IN A WIRELESS COMMUNICATION SYSTEM - Methods and apparatus for processing mobile station transaction information at a serving control node in a wireless communication system are disclosed. The serving control node may be a base station, such as an eNodeB in an LTE/SAE wireless communication system. The transaction information, which may include, for example, mobility-related transaction information and traffic-related transaction information for a given mobile station, may be passed between controlling control nodes as the corresponding mobile station is handed over, so that a controlling control node has access to information characterizing the past activities of the mobile station. This information may be used in some embodiments for selecting a target control node for handover or for allocating link resources. | 09-05-2013 |
20130236017 | TELECOMMUNICATION SYSTEMS AND ENCRYPTION OF CONTROL MESSAGES IN SUCH SYSTEMS - A method for encrypting radio resource control (RRC) messages exchanged between a wireless communication device and a node in a wireless communication system includes separating sequence number rollover events from mobility events while encrypting radio resource control (RRC) messages for exchange within a wireless communication system. According to the method, the sequence number rollover events and mobility events are separated by utilizing a state transition counter, a handover counter, and an overflow counter such that, when the state counter is incremented due to occurrences of a first group of events, the handover counter and the overflow counter are re-set to zero and, when the handover counter is incremented due to occurrences of a second group of events the overflow counter is re-set to zero. The method further includes providing one or more outputs from the state transition counter, the handover counter, and the third overflow counter as one or more inputs to a crypto algorithm for encrypting RRC messages. | 09-12-2013 |
20130272294 | Methods and User Equipments for Providing Information About a Connection State - A method in a first user equipment ( | 10-17-2013 |
20130273907 | Methods and User Equipments for Device to Device Communication - A method in a first user equipment for communicating with a second user equipment over a D2D radio link in a D2D radio network is provided. The first user equipment and the second user equipment are comprised in the D2D radio network. The first user equipment is further comprised in a cellular communications network. The first user equipment obtains ( | 10-17-2013 |
20130281064 | Methods and User Equipments for Granting a First User Equipment Access to a Service - Methods, a radio base station, and a second user equipment are provided. The second user equipment is served by the radio base station and sends a first request for granting a first user equipment access to at least one service. A transfer of a first access code between the second user equipment-and the radio base station-takes place. The radio base station-receives, from the first user equipment, a second request for access to said at least one service and the code information based on the first access code. Then, the radio base station-sends, to the first user equipment, an access grant for granting the first user equipment-access to the at least one service in response to the second request and the code information, when the code information matches the first access code. | 10-24-2013 |
20130343292 | WIRELESS ACCESS POINT CONNECTED TO TWO COMMUNICATION NETWORKS - The disclosure concerns a method for providing communication with a mobile station ( | 12-26-2013 |
20140003328 | RELAY NODE, DONOR RADIO BASE STATION AND METHODS THEREIN | 01-02-2014 |
20140023016 | Method and Apparatus for Sharing Radio Network Infrastructure Using Carrier Aggregation - This disclosure relates a method and a base station for network sharing using carrier aggregation. The base station of a multi-carrier system comprises a multiple of cells, where each cell corresponds to a carrier that is associated with a PLMN. The base station receives ( | 01-23-2014 |
20140038653 | RADIO BASE STATIONS AND METHODS THEREIN FOR HANDLING INTERFERENCE AND SCHEDULING RADIO RESOURCES ACCORDINGLY - Embodiments herein relate to a first radio base station ( | 02-06-2014 |
20140051393 | RADIO COMMUNICATION SYSTEM, METHOD AND ARRANGEMENT FOR USE IN A RADIO COMMUNICATION SYSTEM - A system includes a first access network arranged to operate according to a first Radio Access Technology, a second access network arranged to operate according to a second Radio Access Technology, and a user device which is connectable to the first access network and to the second access network. The system also includes an authentication node arranged to identify the user device, when seeking access to the second access network, through a user device identifier for the user device, wherein the user device identifier is associated with the first access network. A query node provides information about a context of the user device in the first access network based on the user device identifier. An access selection node generates an access selection decision for the access sought by the user device to the second access network based on the provided context, and the access selection decision is then executed. | 02-20-2014 |
20140064247 | Cell Size and Shape Estimation in Heterogeneous Networks - A telecommunications node ( | 03-06-2014 |
20140099950 | METHOD AND USER EQUIPMENT FOR PEER-TO-PEER COMMUNICATION - The exemplary embodiments relate to a method for use in a user equipment (UE), and a cellular infrastructure, for achieving synchronization between UEs for a peer-to-peer or device-to-device (D2D) communication. The method comprising: receiving at a UE a synchronization message from a cell or a RAT or a source of the cellular infrastructure; assembling a message including a list comprising information on the source or cell or RAT, sending the assembled message to a another UE and initiate synchronization between involved UEs based on the information in the assembled message. | 04-10-2014 |
20140106743 | DISTRIBUTED ACCESS NETWORK DISCOVERY AND SELECTION FUNCTION AND METHOD OF OPERATING THE SAME - A system and method is provided for performing an access network discovery and selection function in a communication system. An access network discovery and selection function (“ANDSF”) server is operable with a Third Generation Partnership Project (“3GPP”) radio access network and a Wireless Fidelity (“Wi-Fi”) radio access network coupled to a core network. The ANDSF server is configured to communicate with a user equipment over an enhanced S14 interface. The enhanced S14 interface comprises Wi-Fi radio access technology data including a basis service set (“BSS”) load indication, security information, quality of experience information, backhaul network bandwidth and average throughput. The ANDSF server is also configured to provide policy information to the user equipment based on conditions in the Wi-Fi radio access network and the 3GPP radio access network. | 04-17-2014 |
20140112310 | Inter-Frequency and Inter-RAT Small Cell Detection in Heterogeneous Networks - Methods and apparatus for adapting thresholds for measurement triggering and measurement report triggering are disclosed. An example method, suitable for implementation in a base station, begins with monitoring ( | 04-24-2014 |
20140120871 | Access Control According to a Policy Defined for a Group of Associated Electronic Devices Comprising a Cellular Modem - Access to a telecommunications network can be controlled according to a policy defined for a plurality of user equipment devices associated with the same user. When two user equipment devices are allowed to operate in parallel under the same subscription, the policy may define a distance between the user equipment devices. When the actual distance between the user equipment devices conforms with the distance defined in the policy, one or more network nodes serving one of the user equipment devices can be assigned to replace a network node serving the other user equipment device to prevent abuse of the end user's subscription or to optimize performance, so as to consolidate service. | 05-01-2014 |
20140126523 | GENERATING UPLINK SIGNALS FROM USER EQUIPMENT NODES TO IDENTIFY INTERFERERS TO A NETWORK NODE - A method is disclosed that can be performed in at least one network node which provides wireless communications service for user equipment nodes (UEs). The method includes detecting uplink interference at an interfered network node. Responsive to the uplink interference, an uplink transmission having a defined configuration is initiated from a UE, which is served by a serving network node. The uplink signal is detected using the defined configuration at the interfered network node. The UE is identified responsive to the detected uplink signal as being a contributor to the uplink interference. An uplink transmission by the UE and/or by another UE served by the serving network node is controlled to reduce uplink interference. | 05-08-2014 |
20140146780 | Multiple Gateway Handling for Supporting Network Sharing of Home Base Stations - A home base station receives from a wireless user equipment an identification of a selected cellular core network among multiple available cellular core networks to which the wireless user equipment is to be connected. The home base station identifies a communication path to a home base station gateway is associated with the selected cellular core network and communicates with the selected cellular core network that was identified over the communication path that was identified. The home base station may thereby be shared among multiple cellular core networks. Related networks, methods and home base stations are described. | 05-29-2014 |
20140153541 | METHOD AND SYSTEM FOR BASE STATION CHANGE OF PACKET SWITCHED COMMUNICATIONS IN A MOBILE COMMUNICATIONS SYSTEM - A mobile station (MS) and method for base station handover from a source cell of a source base station to a target cell of a target base station in a packet-switched cellular radio network. While the MS is still in the source cell, the MS receives from the network, a handover command message and information regarding a next expected uplink packet for a packet flow subject to lossless packet-switched handover. Upon arrival of the MS in the target cell, the MS transmits an uplink sequence number status message to the target base station providing a downlink sequence number status for the packet flow, and starts uplink data transmission to the target base station beginning with the next expected uplink packet. | 06-05-2014 |
20140169277 | Method and Arrangement in a Telecommunication System - Handling of UE capability information in a mobile telecommunications network wherein an eNodeB receives information regarding the UE capability information from the UE and stores the information. The eNodeB sends the UE capability information to the EPC, i.e., to an MME, which receives and stores the UE capability information. When the UE transits from idle to active state, does an initial attach, or when a part of the UE capabilities have changed, it sends a message to the eNodeB regarding the update. The eNodeB forwards the message to the MME, which sends a response associated with the previously stored UE capability information to the eNodeB. The eNodeB decides whether the UE capabilities stored in the MME is up-to-date based on the message from the UE and the response from the MME. If the UE holds updated UE capabilities the eNodeB can request updated UE capability information from the UE. | 06-19-2014 |
20140185809 | METHOD AND ARRANGEMENT IN A TELECOMMUNICATION SYSTEM - A method in a User Equipment (UE) of an Evolved Packet System (EPS) establishes a security key (K_eNB) for protecting Radio Resource Control/User Plane (RRC/UP) traffic exchanged with a serving eNodeB. The method comprises sending a Non-Access Stratum (NAS) Service Request to a Mobility Management Entity (MME), the request indicating a NAS uplink sequence number (NAS_U_SEQ). The method further comprises receiving an indication of the NAS_U_SEQ of the NAS Service Request sent to the MME, back from the MME via the eNodeB. The method further comprises deriving the K_eNB from at least the received indication of the NAS_U_SEQ and from a stored Access Security Management Entity-key (K_ASME) shared with said MME. | 07-03-2014 |
20140187244 | Relay Node, a Donor Radio Base Station and Methods Therein - Embodiments herein relate to a method in a relay node for acquiring information about a type of a radio network connection between a donor radio base station and a radio base station. The relay node and the donor radio base station are comprised in a radio communications network and the donor radio base station is serving the relay node. The relay node receives a message from the donor radio base station, which message is indicating a type of radio network application protocol, which type is related to a type of the radio network connection between the donor radio base station and the radio base station. The relay node determines the type of the radio network connection based on the type of radio network application protocol indicated in the message. The relay node also stores the type of radio network connection in relation to the radio base station for selecting the type of radio network connection when later communicating with the radio base station. | 07-03-2014 |
20140192657 | Configuring Relay Cell Identities in Cellular Networks - The technology in this application identifies a relay cell serviced by a relay radio node in a radio access network (RAN) of a cellular communications system in which there is a radio connection between the relay radio node and a donor radio base station. The donor radio base station is identified by a RAN donor radio base station cell identifier. A RAN relay cell identifier is determined that uniquely identifies the relay cell within the RAN, the RAN relay cell identifier including a relay cell identifier and a donor base station identifier. The RAN relay cell identifier is then provided or used as needed so that the relay radio node can transmit the RAN relay cell identifier to uniquely identify the relay cell to one or more radio terminals in the RAN. | 07-10-2014 |
20140192781 | Mobility State Aware Mobile Relay Operation - A mobility state of a mobile relay node is determined as one of three or more different mobility states. The mobile relay node may determine the mobility state itself or based on received information from another network node. Control information is determined based on the determined mobility state of the mobile relay node and an action is then performed or initiated based on the determined control information. The tree different mobility states may include moving, standing, and at least one additional mobility state. Example additional mobility states of the mobile radio node include: departing, arriving, or temporarily stopped. | 07-10-2014 |
20140247807 | Moving Access Point Indication - A user equipment, UE, ( | 09-04-2014 |
20140355568 | Method and Arrangement for Relaying in Case of Extension Areas Having Uplink/Downlink Imbalance - Underlay network node and macro base station and methods therein for enabling avoidance of interference in a cell extension area associated with an uplink/downlink imbalance. The underlay network node is assumed to be associated with a cell area A, and a cell extension area B, where the cell extension area B has an uplink/downlink imbalance in relation to a neighboring base station and the network node. The method in the underlay network node involves serving a UE in both uplink and downlink when the UE is located in cell area A. The method further involves serving a UE only in the uplink when the UE is located in cell extension area B, thus enabling avoidance of interference related to communication of a UE located in said cell extension area B. | 12-04-2014 |
20140364124 | Method and Device for a Relay Node - A relay node for a radio access network, arranged to be a relay node between one or more User Equipments in a cell of the radio access network and a base station serving the cell. The relay node is arranged to identify itself as a relay node in the cell in the radio access network, and is also arranged to receive a non-support indication indicating that the base station serving the cell is unable to support a relay node. The relay node is arranged to, upon receiving said non-support indication, attempt to establish itself as a relay node in another cell. | 12-11-2014 |
20150016306 | Autonomous Transport Layer Connection Setup by a Transport Layer Concentrator - The present disclosure concerns wireless communication. More particularly, a method and an apparatus (e.g. a SCTP concentrator) for setting up transport layer connections (e.g. SCTP associations) between a eNB and a (H)eNB are disclosed. | 01-15-2015 |
20150031361 | FULL AND PARTIAL RESOURCE ACCESS IN RAN SHARING - The disclosure relates to a method and radio base station for sharing resources in a wireless communication system. The radio base station stores an identity of a first entity to which a first plurality of UEs is associated. The first plurality of UEs has full access to resources provided by the radio base station. The radio base station also stores an identity of a second entity to which a second plurality of UEs is associated. The second plurality of UEs has partial access to the resources provided by the radio base station. When the radio base station receives a request for accessing resources from a UE, it determines whether the UE is associated with the second entity, i.e. if the UE is to be handled in support mode. If the UE is associated with the second entity it means that the UE only should have partial access to the resources. | 01-29-2015 |