22nd week of 2015 patent applcation highlights part 31 |
Patent application number | Title | Published |
20150146602 | METHODS AND APPARATUS FOR PROVIDING NETWORK BROADCAST INFORMATION TO WLAN ENABLED WIRELESS COMMUNICATION DEVICES - One illustrative method of providing network broadcast information to a wireless device from a wireless local area network (WLAN) includes the steps of receiving, from one or more available cellular networks or a network database, cellular network broadcast information associated with the one or more available cellular networks; providing the cellular network broadcast information in a generic container message which varies in content and format according to one or more cellular standards associated with the one or more available cellular networks; and causing the generic container message to be regularly broadcasted for receipt and use by a wireless device. In an alternative approach, the steps include regularly broadcasting a network interworking indicator which is indicative of whether cellular network broadcast information is available for receipt from the WLAN; receiving a probe request from a wireless device; and causing the cellular network broadcast information to be sent to the wireless device in the generic container message in response to the probe request from the wireless device. The generic container message may alternatively or additionally include wireless network broadcast information from different types of wireless networks (e.g. Wi-MAX) which are available to the WLAN. | 2015-05-28 |
20150146603 | ADAPTIVE MULTICAST NETWORK COMMUNICATIONS - This disclosure is directed to techniques for communicating in an adaptive multicast network. In general, the disclosure is directed to communicating in an adaptive multicast network. This may be done by archiving, at a rendezvous point, multicast subscription information for terminal nodes in the adaptive multicast network, wherein the multicast subscription information comprises a dynamic list of receiver terminal nodes located within the adaptive multicast network that subscribe to particular multicast streams from one or more terminal nodes in the adaptive multicast network. A router receives a multicast stream from a sender terminal node. The router receives the multicast subscription information for the multicast stream sent by the sender terminal node from the rendezvous point. The router forwards the multicast stream to all receiver terminal nodes in the dynamic list of receiver terminal nodes indicated as subscribing to the multicast stream sent by the sender terminal node. | 2015-05-28 |
20150146604 | METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING MBSFN SUBFRAME - Disclosed is a method for transmitting a multicast broadcast single frequency network (MBSFN) subframe, including: configuring, by a base station (BS), at least one subframe, among a plurality of subframes included in a downlink radio frame, to an MBSFN subframe; determining, by the BS, resource allocation with respect to a tracking reference signal in the at least one configured MBSFN subframe based on whether a physical multicast channel is transmitted in the at least one configured MBSFN subframe; and transmitting, by the BS, the tracking reference signal through an MBSFN subframe in which the PMCH is not transmitted among the at least one configured MBSFN subframe. | 2015-05-28 |
20150146605 | V2V SAFETY SYSTEM USING CONSENSUS - A vehicle-to-vehicle (V2V) communication system, method and transponder for use in V2V communication, safety and anti-collision systems is described, using a continual, iterative consensus algorithm involving a consensus subset of vehicles within a communication range. The consensus set of vehicles participating in the consensus algorithm may not be the same. The algorithm comprises determining a parameter value used by the vehicles in the consensus set, then averaging, with modifications and rate of change limitations, the values from the consensus set for next use by each transponder. Parameters include two axis of location, elevation, transmit power and time base. Transmit power may be response to demand and range. Methods of obtaining the as-used values are described, as are equations and ranges. Embodiments include a hybrid protocol using both TDMA and CSMA. No central authority or road-side equipment (RSU) is required. | 2015-05-28 |
20150146606 | Infrastructure Service Information Communication Device and Method - The present invention provides an infrastructure service information communication device and an infrastructure service information communication method. The infrastructure service information communication device comprises: a service processing module, configured to generate a broadcast message, wherein a physical frame header and/or a media access control frame header of the broadcast message comprise an identification information bit, the value of the identification information bit is a first value when the broadcast message is an infrastructure service information discovery message, and the infrastructure service information discovery message comprises specific information of infrastructure service information; and a wireless transceiving module, configured to exchange data with the outside of the infrastructure service information communication device, wherein the service processing module transmits the broadcast message via the wireless transceiving module. The present invention allows an STA to save a large amount of power in a process of carrying out infrastructure network service information discovery, which is also favorable for power saving of those STAs that are not engaged in the infrastructure network service information discovery. | 2015-05-28 |
20150146607 | SYSTEM AND METHOD FOR MULTICAST COMMUNICATIONS IN WI-FI NETWORKS - A system and method for reliable multicast communications is disclosed herein. In one aspect, a first station may receive a first multicast frame having a first modulation and coding scheme and a first sequence number. The station may then receive a subsequent negative acknowledgement request having a second modulation and coding scheme and a indicating a second sequence number for previously transmitted multicast frame, with the second modulation and coding scheme having a lower data rate than the first modulation and coding scheme. The station may then selectively acknowledge the negative acknowledgement request based on a comparison of first sequence number and the second sequence number. In another aspect, the station transmits a negative acknowledgement if the second sequence number does not match the first sequence number and may further receive acknowledgement frame from an access point. | 2015-05-28 |
20150146608 | APPARATUS FOR TRANSMITTING BROADCAST SIGNALS, APPARATUS FOR RECEIVING BROADCAST SIGNALS, METHOD FOR TRANSMITTING BROADCAST SIGNALS AND METHOD FOR RECEIVING BROADCAST SIGNALS - The present invention provides a method of transmitting broadcast signals. The method includes, demultiplexing input streams into plural PLPs (Physical Layer Pipes); encoding data of the each PLPs according to each physical layer profiles, wherein the physical layer profiles are configurations based on reception condition, wherein the each physical layer profiles include: LDPC (Low Density Parity Check) encoding the data of the PLP, bit interleaving the LDPC encoded data of the PLP; building plural signal frames by mapping the encoded data of the each PLPs, wherein each signal frame belongs to one of the physical layer profiles, wherein a super frame includes at least two built signal frames; and modulating data in the built plural signal frames by OFDM (Orthogonal Frequency Division Multiplexing) method and transmitting the broadcast signals having the modulated data, | 2015-05-28 |
20150146609 | REPEATER FOR RECEIVING SIGNALS FROM A BASE STATION IN A WIRELESS COMMUNICATION SYSTEM, AND SIGNAL RECEIVING METHOD - Disclosed are a repeater for receiving signals from a base station in a wireless communication system, and a signal receiving method. The base station reports, to each repeater, information on the aggregation level of a relay-control channel element (R-CCE) of a relay-physical downlink control channel (R-PDCCH) via an explicit signaling method or implicit signaling method. In the event the base station reports via an explicit signaling method, the repeater receives, from the base station, information on the aggregation level of R-CCE which is a transmission unit of R-PDCCH, wherein the information contains control information for the repeater. Then, the repeater decodes an R-PDCCH region on an R-CCE aggregation level basis in accordance with the received R-CCE aggregation level information. | 2015-05-28 |
20150146610 | SATELLITE-BASED EMISSION AND RECEPTION DEVICE WITH HIGH MULTI-PATH ATTENUATION RATE, REPEATER AND SATELLITE WHICH ARE EQUIPPED WITH SUCH A DEVICE - A satellite-based emission and reception device, intended to receive and to process radiofrequency signals originating from an uplink and then to emit the processed signals on a downlink towards terrestrial users, comprises a power divider, two independent frequency converters and two input demultiplexers connected respectively at the output of the two corresponding frequency converters, each frequency converter being controlled by a dedicated local oscillator, the two local oscillators operating at one and the same frequency, the two input demultiplexers comprising channel filters operating in different, disjoint frequency sub-bands spaced apart in frequency, two adjacent frequency sub-bands being filtered by two channel filters belonging to different input demultiplexers. | 2015-05-28 |
20150146611 | COLLABORATIVE SCHEDULING OF LAST HOP CELLULAR TRAFFIC - An eNodeB or other cell access point device can receive demand data from mobile devices served by the cell. The demand data can represent an estimate of demand over a future period for network resources (e.g., bandwidth). The cell can aggregate this demand data and determine price data for the time period or for various intervals of the time period, then transmit the price data to the mobile devices. The price data can operate as a collaborative approach to scheduling traffic. For example, data (e.g., delay tolerant data) can be shifted (e.g., delayed for a few seconds) based on an examination of the price data in conjunction a determined priority of the data. Such can be applicable to data traffic not traditionally thought of as delay tolerant such as streaming video or web browsing, and can be accomplished without negatively impacting the quality of service or experience of the client. | 2015-05-28 |
20150146612 | METHOD AND SYSTEM FOR PROCESSING DATA FLOWS - The method and system supports multiple bandwidth traffic over a single CPRI (common public radio interface) link ( | 2015-05-28 |
20150146613 | METHOD AND APPARATUS FOR RESETTING AT LEAST ONE NODE WITHIN A CPRI RADIO BASE STATION SYSTEM - A method of resetting at least one node within a Common Public Radio Interface (CPRI) radio base station system is described. The method comprises, at an end-point Radio Equipment Controller (REC) node within the CPRI radio base station system, receiving on a slave port a reset notification, and in response thereto transmitting on the slave port a reset notification comprising a reset bit being set within at least ten hyperframes. | 2015-05-28 |
20150146614 | TCP TRAFFIC ADAPTATION IN WIRELESS SYSTEMS - Embodiments described herein relate generally to efficient transmission of data over a radio network between a user equipment (“UE”) and a network node. The UE may adapt packets from TCP to a private protocol and transmit those data packets to the network node. The UE may use ARQ data from link layer circuitry to locally generate TCP ACK data for TCP layer circuitry. At the network node, the private-protocol data packets may be adapted to TCP and transmitted to a remote host over the Internet so that the TCP semantic may be maintained between the UE and the remote host. Other embodiments may be described and/or claimed. | 2015-05-28 |
20150146615 | SYSTEMS, METHODS, AND DEVICES FOR CONTROLLING TRANSPORT OF RATELESSLY CODED MESSAGES - Systems, methods, and devices for controlling transport of ratelessly coded messages are disclosed herein. User equipment (UE) may be configured to receive a data object using a plurality of radios having distinct radio protocols. The data object may divided into a plurality of segments, and the segments may be encoded with a random linear network code before transmission. The random linear network code may permit the UE to reassemble each segment from any large enough set of encoded packets. The UE may use delivery control messages with very low overhead to control the flow of packets for each radio. The UE may control the number of packets received for each segment without specifying which particular packets should be sent. The transmitters may transmit the packets with very little overhead, and encoding information for the packets may be included in the packets in a compact form. | 2015-05-28 |
20150146616 | Radio Access Bearer Monitoring - A technique for RAB monitoring is disclosed. In one method aspect for generating reports for at least one RAB of a radio access network, the following items are pre-identified: i) at least one UeRc ii) a state of the UeRc, and iii) at least one transition to or from the state, and the method is performed in an RAB analyzer and comprises the steps of receiving at least one event provided by a network node of the radio access network, determining whether the event coincides with at least one of the pre-identified items, and generating, based on the result of the determination, a report indicating occurrence or non-occurrence of the event. In another method aspect for comparing the report to at least one KPI on the at least one RAB, the method is performed in a PM functionality and comprises the steps of transmitting the at least one event, receiving, responsive to the transmitting, the report, and comparing the report to the at least one KPI. | 2015-05-28 |
20150146617 | METHOD FOR TRANSFERRING A STATUS REPORT AND A COMMUNICATION DEVICE THEREOF IN A WIRELESS COMMUNICATION SYSTEM - There is provided a method for transferring a status report in a wireless communication system, the method comprising: configuring a Packet Data Convergence Protocol (PDCP) status report used by a PDCP layer located above a Radio Link Control (RLC) layer, the PDCP status report including an indicator indicating a count value of a first non-received service data unit (SDU); and transferring the configured PDCP status report to a lower layer. The indicator may be first missing sequence number count (FMS COUNT) value which contains the count value of the first non-received PDCP SDU. | 2015-05-28 |
20150146618 | METHOD AND APPARATUS FOR REPORTING CHANNEL STATE INFORMATION IN WIRELESS COMMUNICATION SYSTEM - The present invention relates to a wireless communication system, and more specifically, disclosed are a method and an apparatus for reporting channel status information. A method for reporting the channel status information (CSI) from a user equipment in the wireless communication system, according to one embodiment of the present invention, comprises the steps of: receiving from a base station a channel status information-reference signal (CSI-RS) on the basis of CSI-RS configuration information, which is provided from the base station; and reporting to the base station the CSI that is generated by using the CSI-RS, wherein the CSI-RS configuration information can include a plurality of CSI-RS configurations with respect to a first domain antenna group having a 2-dimensional antenna structure of the base station. | 2015-05-28 |
20150146619 | METHOD AND APPARATUS FOR SETTING UP SCTP CONNECTION AND X2 INTERFACE IN WIRELESS COMMUNICATION SYSTEM - A method and apparatus for transmitting target cell information in a wireless communication system is provided. An eNodeB (eNB) transmits target cell information to an X2-gateway (GW) via an X2 setup request message or an eNB configuration update message. The target cell information may include at least one of target eNB identifier (ID), target cell ID or target radio network layer (RNL) ID. | 2015-05-28 |
20150146620 | D2D CLUSTER COMMUNICATION AND CONFIGURATIONS - Systems, methods, apparatuses, and computer program products for D2D cluster communication and configurations are provided. One method comprises receiving, at a first cluster head, information of a second cluster head; determining, based on the received information, a possible establishment of inter-cluster relationship with the second cluster; selecting a user equipment of at least one user equipment associated with the first cluster head, based on the received information, to relay information between the first cluster head and the second cluster head; indicating to the selected user equipment of at least one user equipment associated with the first cluster head to relay information between the first cluster head and the second cluster head; and negotiating, via the selected user equipment, an inter-cluster relationship with the second cluster head, wherein the second cluster head is associated with another user equipment for a device-to-device communication. | 2015-05-28 |
20150146621 | TERMINAL SELECTION METHOD AND SYSTEM BASED ON SELF-ORGANIZING NETWORK, AND NETWORK ENTITY - Embodiments of the present invention disclose a SON-based terminal selection method related to the field of communications technologies, where a target terminal is selected pertinently to participate in implementation of a SON algorithm. The method provided by the embodiments of the present invention includes: determining a terminal selection criterion under a requirement of implementing different SON algorithms; and performing target terminal selection from managed terminals according to the terminal selection criterion. A system and a network entity corresponding to the method are also provided. By applying the technical solutions provided by the embodiments of the present invention, a target terminal can be selected pertinently to participate in implementation of the SON algorithm, which avoids waste of resources of terminals that do not need to participate in implementation of the SON algorithm, and improves user experience of these terminals. | 2015-05-28 |
20150146622 | METHOD, TERMINAL, AND BASE STATION FOR TRANSMITTING INFORMATION - Embodiments of the present application provide a method, a terminal, and a base station for transmitting information. In the embodiments of the present application, subframe configuration information of a first carrier is obtained, where the subframe configuration information is used to indicate a type-1 subframe of the first carrier and a type-2 subframe of the first carrier, the type-1 subframe is used for the base station to transmit, in system bandwidth, first information including a first CRS, the first CRS is used for demodulation, and the type-2 subframe is not used for the base station to transmit a CRS used for demodulation, so that the terminal can receive, according to the subframe configuration information and on the first carrier, information sent by the base station. | 2015-05-28 |
20150146623 | System and Method for Multiple Point Transmission in a Communications System - A system and method for multiple point transmission in a communications system are provided. A method for multiple point transmission operation comprises modifying a configuration of a radio bearer for use in a multiple point transmission to a user equipment according to operating condition information of the user equipment, reconfiguring the radio bearer according to the modified configuration, and initiating a multiple point transmission to the user equipment using the reconfigured radio bearer. | 2015-05-28 |
20150146624 | MULTIPOINT INTERFACE SHORTEST PULSE WIDTH PRIORITY RESOLUTION - System, methods and apparatus are described that facilitate transmission of data, particularly between two devices within an electronic apparatus. Each device can contend for control of a communications link by driving a data signal to a first voltage level. If the data signal or a clock signal changes before an arbitration time period has elapsed, one or more devices yield control of the communications link to another contender. The arbitration time period for each contender is different and indicates a priority of the message to be transmitted. A shorter arbitration time period indicates higher priority. Arbitration may commence after clock and data signals of the communications link remain in an idle or other predefined state for a minimum idle time. The minimum idle time may be different for different nodes and may be shorter for high priority messages or nodes. | 2015-05-28 |
20150146625 | MITIGATING WIRELESS INTERFERENCE - A system includes a server configured to monitor wireless interference between at least two media content delivery devices. The server coordinates communication with the media content delivery devices to reduce wireless interference, and the communication is coordinated according to requirements of media content requests received from the media content delivery devices. A method includes monitoring wireless interference between at least two media content delivery devices and coordinating communication with the media content delivery devices to reduce wireless interference. | 2015-05-28 |
20150146626 | METHOD FOR ADDING LEAF NODE TO MULTI-NODE BASE STATION - Adding a new subsystem node to a multi-node base station topology (e.g., a chain or tree topology) in a telecommunications network can disrupt the effective operation of the existing multi-node base station. By accurately measuring the timing difference between uplink and downlink signaling across a current terminating node during the configuration of the new terminating node, the new node can be added with reduced impact upon the operation of the existing base station nodes. | 2015-05-28 |
20150146627 | METHODS AND APPARATUS TO IMPROVE PLMN SEARCH TIME - The disclosure provides methods and apparatus to improve public land mobile network search time. A user equipment (UE) may determine a subset of channels within a frequency band based on a stored identifier of a channel used by a previously acquired cell, each channel in the subset being spaced from the channel used by the previously acquired cell by a different multiple of a set spacing, the set spacing being greater than a spacing between adjacent channels. The subset of channels may be scanned to determine a signal strength of each channel in the subset. The UE may rank each channel in the subset according to the determined signal strength of the channel and attempt to acquire a cell using a channel in the subset based on the ranking. | 2015-05-28 |
20150146628 | TECHNIQUES FOR HANDLING RECONFIGURATION MESSAGES AND UPLINK DATA INDICATIONS - Apparatus and methods of wireless communication with a network entity by a user equipment includes identifying, by the user equipment, a change in availability of an enhanced uplink channel. Further, these aspects include waiting for an uplink data indication to trigger a cell update procedure, in response to the identified change in availability of an enhanced uplink channel. Also, these aspects include receiving a reconfiguration message before triggering of the cell update procedure, and receiving the uplink data indication, wherein the uplink data indication corresponds to a Layer 2 Acknowledgement or uplink data. Additionally, these aspects include handling the race condition between the reconfiguration message and the uplink data indication. | 2015-05-28 |
20150146629 | CONFIGURING A COMMUNICATION WITH USER EQUIPMENTS OPERATING WITH A DIFFERENT SYSTEM BANDWIDTH - A method configures a communication between a base station, a first user equipment adapted to operate with a first system bandwidth and a second user equipment adapted to operate with a second system bandwidth. The first system bandwidth is broader than the second system bandwidth. The base station, the first user equipment and the second user equipment are located within a cellular network system. The method includes providing first common channels or signals within the first system bandwidth and providing second common channels or signals within the second system bandwidth, wherein a part of the first common channels or signals and a part of the second common channels or signals are superpositioned. The method further includes configuring at least one of the common channels or signals of the part of the first common channels or signals to be used by the first user equipment and the second user equipment. | 2015-05-28 |
20150146630 | Multi-Cell Transmissions - A technique including selecting as a coordinating entity one entity from a plurality of radio access network entities each capable of both coordinating a multi-cell transmission and following the coordination by another entity of a multi-cell transmission; deciding at said selected radio access network entity on physical parameters for a multi-cell transmission; and distributing physical parameter information about said multi-cell transmission from said coordinating entity to others of said plurality of radio access network entities. | 2015-05-28 |
20150146631 | RANDOM ACCESS METHOD AND RANDOM ACCESS CHANNEL STRUCTURE IN MOBILE COMMUNICATION SYSTEM HAVING LARGE CELL RADIUS - A random access method in a mobile communication system, the random access method for supporting random access with a cell size of about 100 kilometers (km) or more and a power limited terminal and a preamble structure thereof are provided. While a conventional long term evolution (LTE) random access preamble sequence is reused, a difference in a round-trip delay time between terminals in a large cell area may be compensated. Additionally, since higher power transmission is achieved per bandwidth, a higher link margin may be secured. Also, compatibility with resource scheduling of the conventional LTE may be maintained. Random access may be supported in a large cell, and a preamble structure of a satellite mobile communication may be implemented based on terrestrial LTE. | 2015-05-28 |
20150146632 | PRIORITIZATION FOR UPLINK TRANSMISSIONS IN CASE OF HYBRID AUTOMATIC REPEAT REQUEST FEEDEBACK REPETITION - Communication systems, such as long term evolution, can benefit from enhancements to hybrid automatic repeat request (HARQ) handling. For example, certain LTE systems can benefit from prioritization of uplink (UL) transmissions in case of HARQ feedback repetition, A method can include, when a random access channel preamble collides with ACK/NACK, prioritizing the preamble over ACK/NACK, The method can be performed regardless of repetition being configured or not. Another method can include, when a dedicated scheduling request or a msg3 collides with an ACK/NACK repetition, conditionally prioritizing the dedicated scheduling request or the msg3 transmission. | 2015-05-28 |
20150146633 | MANAGEMENT OF DEVICE-TO-DEVICE COMMUNICATION RESOURCES USING CHANNEL SYMMETRY - A first wireless communication device measures a signal characteristic of a reference signal transmitted by a second wireless communication device. The first wireless communication device transmits information to a base station where the information is based of the measured signal characteristic. A scheduler evaluates the information to identify device to device (D2D) communication resources. The base station transmits, to the first wireless communication device, D2D resource allocation information indicating the D2D communication resources. The first wireless communication device transmits a D2D signal to the second wireless communication device using the assigned D2D communication resources. | 2015-05-28 |
20150146634 | METHOD AND DEVICE FOR REPORTING CHANNEL STATE INFORMATION - A method and device for reporting channel state information (CSI) is provided. A wireless device codes uplink control information (UCI) including CSI to create encoded UCI and transmits the encoded UCI. When the CSI includes a rank indicator (RI), the payload size of the CSI is determined according to the RI, and if the CSI does not include the RI, the payload size of the CSI is fixed. | 2015-05-28 |
20150146635 | Timing Advance Management in the Presence of Repeaters and Remote Radio Heads - A method for performing time advance (TA) management is described. An assignment of a first TA group is transmitted to a mobile device. The mobile device measures a strength of a signal from a first access point (AP). The mobile device determines whether to send a random access preamble based at least in part on the strength of the signal from the first AP and a strength of a signal from a second AP. A current downlink (DL) path includes the second AP. The method includes, in response to determining to send a random access preamble, transmitting the random access preamble, the random access preamble is received from the mobile device. In response to the random access preamble, the method includes determining a second TA group for the mobile device. The method also includes transmitting an assignment of the second TA group. Apparatus and computer readable media are also described. | 2015-05-28 |
20150146636 | COMMUNICATION APPARATUS AND COMMUNICATION METHOD - A communication apparatus includes: a transmission unit including a narrow interval data transmission unit which transmits a predetermined plurality of sets of data at an interval narrower than a predetermined interval, upon receipt of a narrow interval data transmission instruction; and a reception unit including: a transmission data reception unit which receives data of an application of a communication partner, and issuing a notification each time the data is received; a data transmission interval reception unit which receives a time interval of data transmission from the communication partner; a data non-arrival detection unit which considers data not to be arrived, in the case where the notification has not been issued from the transmission data reception unit for a predetermined time period longer than the time interval received by the data transmission interval reception unit; and a narrow interval data transmission instruction unit which transmits a narrow interval data transmission instruction to the communication partner, when the data non-arrival detection unit considers data not to be arrived. | 2015-05-28 |
20150146637 | COMMUNICATION CONTROL METHOD, USER TERMINAL, PROCESSOR, STORAGE MEDIUM, AND BASE STATION - A communication control method used in a mobile communication system supporting D2D communication that is direct inter-terminal communication performed by using a radio resource assigned from a base station, comprises a step A of securing, by a user terminal, a logical channel group for the D2D communication; a step B of notifying, by the user terminal, the base station of the logical channel group secured in the step A; and a step C of assigning, by the base station, a radio network temporary identifier for the D2D communication to the logical channel group notified in the step B. | 2015-05-28 |
20150146638 | RADIO COMMUNICATION SYSTEM AND RADIO BASE STATION - In a radio communication system in which a high-power base station and a low-power base station collaborate for inter-cell interference control, the downlink transmission power at the high-power base station is suitably controlled. The high-power base station executes wireless transmission to the user terminals using resources that are the same as resources used by the low-power radio base station. A transmission power controller of the radio base station uses a first downlink transmission power at first resources and uses a lower second downlink transmission power at second resources. The transmission power controller adjusts the second downlink transmission power in accordance with the number of user terminals capable of executing interference rejection combining, the downlink traffic amount for user terminals capable of executing interference rejection combining, or the number of downlink resource blocks allocated to user terminals capable of executing interference rejection combining. | 2015-05-28 |
20150146639 | METHOD AND APPARATUS FOR RECEIVING CONTROL INFORMATION THROUGH EPDCCH IN WIRELESS COMMUNICATION SYSTEM - One embodiment of the present invention relates to a method for a terminal receiving control information through an enhanced physical downlink control channel (EPDCCH) in a wireless communication system, comprising the steps of: indexing resource elements (RE), which are included in a physical resource block (PRB) set of a received subframe, in units of enhanced resource element groups (EREG); indexing the EREGs that are indexed in units of enhanced control channel elements (ECCE); and determining EPDCCH candidates which comprise a terminal-specific search space on the basis of the ECCEs which are indexed, and then blind decoding same, wherein the terminal determines whether a predetermined resource unit for a common search space and the terminal-specific search space overlap. | 2015-05-28 |
20150146640 | User Equipment Supporting Communication in a Multicarrier Radio Communication System and a Method Therein for Receiving Information - A User Equipment, UE, supporting communication in a multicarrier radio communication system and a method therein for receiving information from a Radio Base Station, RBS, are provided. The method comprises determining | 2015-05-28 |
20150146641 | METHOD FOR FEEDING BACK CHANNEL STATE INFORMATION IN WIRELESS COMMUNICATION SYSTEM AND APPARATUS FOR SAME - The present invention relates to a method for a terminal feeding back channel state information in a wireless communication system. More specifically, the method comprises the steps of receiving from a base station setting information on a plurality of pieces of channel state information (CSI); and generating at least one piece of channel state information by applying channel state information of a common subband in accordance with the setting information. | 2015-05-28 |
20150146642 | METHOD AND DEVICE FOR RETRANSMITTING UPLINK DATA IN WIRELESS COMMUNICATION SYSTEM - The present invention relates to a wireless communication system. Particularly, the present invention provides a method for enabling a user equipment (UE) to retransmit uplink data on the basis of a signal received through a physical hybrid ARQ indicator channel (PHICH) in a wireless communication system and a device for the same, and the method for retransmitting uplink data comprises the steps of: receiving, from a base station, an indication on whether or not to detect the PHICH; retransmitting the uplink data on the basis of a PHICH detection result if the received indication is to detect the PHICH; and retransmitting the uplink data on the basis of an uplink grant received from the base station if the received indication is not to detect the PHICH. | 2015-05-28 |
20150146643 | METHOD AND APPARATUS FOR SENDING AND RECEIVING HARQ-ACK FEEDBACK INFORMATION - A method and an apparatus for sending Hybrid Automatic Repeat Request acknowledgement (HARQ-ACK) feedback information are provided. The User Equipment (UE) receives a Physical Downlink Control Channel (PDCCH) and a Physical Downlink Shared Channel (PDSCH) sent by a base station, determines a number of downlink subframes corresponding to the HARQ-ACK feedback information sent in the PUSCH of each CC in the current uplink subframe, the Uplink (UL) Downlink Assignment Index (UL DAI) obtained from the UL Grant of the PDCCH, a sum of the number of PDSCH subframes received from a HARQ-ACK bundling window and a number of PDCCHs indicating the downlink SPS releasing, and a size of the HARQ-ACK bundling window, and sends HARQ-ACK feedback information of each CC via the PUSCH in the current uplink subframe. A number of bits of the HARQ-ACK feedback information of each CC is determined according to the number of the downlink subframes. | 2015-05-28 |
20150146644 | METHOD AND DEVICE FOR RECEIVING DOWNLINK SIGNAL IN WIRELESS COMMUNICATION SYSTEM - A method for a terminal for receiving a downlink signal according to an embodiment of the present invention comprises a step of receiving a channel state information-reference signal (CSI-RS) on the basis of CSI-RS configuration information elements containing quasi co-location cell-specific reference signal (QCL CRS), wherein the terminal receives the CSI-RS by means of a QCL assumption on the basis of the QCL CRS information, and if the information contained in the QCL CRS information and the information known to the terminal corresponding to the information contained in the QCL CRS are not in agreement, then the information known to the terminal is applied preferentially. | 2015-05-28 |
20150146645 | EVOLVED NODE-B AND METHODS FOR SUPPORTING CO-EXISTENCE WITH WI-FI NETWORKS IN AN UNLICENSED FREQUENCY BAND - Embodiments of an eNB and method for supporting communication with UEs on an LTE network in an unlicensed frequency band are generally described herein. The eNB may be configured to transmit a first LTE signal that includes a first reference signal during an active transmission period of a Wi-Fi network in the unlicensed frequency band, and to restrict frequency spectra used for the transmission of the first LTE signal from frequency spectra used by the Wi-Fi network during the active transmission period. The first reference signal may enable maintenance of synchronization between the eNB and the UEs at least during the active transmission period. The eNB may be further configured to transmit a second LTE signal during a silence period of the Wi-Fi network in frequency spectra used by the Wi-Fi network during the active transmission period. | 2015-05-28 |
20150146646 | MAXIMIZING EFFICIENCY OF MULTI-USER COMMUNICATIONS NETWORKS - Systems and methods are described for jointly optimizing communications in a multi-user network to maximize the weighted sum-rate of its data links. For example, embodiments seek to maximize overall link transmit rates, while minimizing link interference and/or noise in general multi-in multi-out (MIMO) interference networks having multiple interfering data links, each with one or more antennas at the transmitter and receiver. Novel algorithmic approaches, including an “iterative minimax” approach and a “dual link” approach, are described for solving the weighted sum-rate maximization in a manner that converges quickly and reliably on an optimal point. Some embodiments implement these approaches in a centralized transmission controller, while others implement these approaches in a distributed fashion. | 2015-05-28 |
20150146647 | SIGNAL DESIGNS FOR D2D SUBFRAMES - Embodiments of the present disclosure describe apparatuses and methods for signal designs for device-to-device (D2D) subframes. Various embodiments may include a UE with a radio transceiver to communicate with another UE via D2D communications. The UE may further include processing circuitry to generate a cyclic prefix (CP) for a first or second symbol of a D2D subframe at an orthogonal frequency division multiplexing (OFDM) resource block or a single-carrier frequency-division multiple access (SC-FDMA) resource block. Other embodiments may be described and/or claimed. | 2015-05-28 |
20150146648 | METHOD AND DEVICE FOR DATA COMMUNICATION IN A COMMUNICATION NETWORK - The present invention relates generally to communication networks and more specifically to methods and devices for data communication over a communication network. A method according to the invention comprises, at a transmitting node: obtaining a plurality of frames including first-type frames associated with an acknowledgment policy requiring acknowledgment and second-type frames associated with an acknowledgment policy requiring no acknowledgment; aggregating the frames of the obtained plurality of frames into an aggregated frame including at least one leading frame of second type and frames subsequent thereto, in an order depending on their associated acknowledgment policies; sending the aggregated frame to a receiving node; and sending an acknowledgment request frame to the receiving node to request it to acknowledge receipt of only subsequent frames of the aggregated frame. Such data communication scheme is liable to reduce bandwidth waste and head-of-line blocking and thus latency, compared to known scheme. | 2015-05-28 |
20150146649 | COMMUNICATION APPARATUS, COMMUNICATION METHOD, AND RECORDING MEDIUM - A communication apparatus includes: a table set group comprising a plurality of table sets each containing a plurality of 1RD/1WR-configuration tables; a latest access holding table for specifying, for each flow, one of the table sets as the latest access destination of the each flow; and an updating unit for selecting, when a reference made to the latest access destination holding table with respect to a plurality of simultaneously received write requests shows that access destinations of flows indicated by the respective write requests are the same table set, a different table set for each of the flows indicated by the respective write requests, executing write processing in each table of the selected table set, and updating the latest access holding table so that the access destinations after the write processing are registered as access destinations of the flows indicated by the respective write requests. | 2015-05-28 |
20150146650 | OPERATION FOR 3D BEAM FORMING IN A WIRELESS COMMUNICATION SYSTEM - Here, operation for 3D beam forming is disclosed. UE, receiving reference signals from one or more base stations (eNBs), may report feedback information comprising precoding matrix information to the one or more eNBs. The precoding matrix information indicates a first type precoding matrix for a horizontal direction and a second type precoding matrix for a vertical direction. eNBs may transmit signals, which are precoded based on a third type precoding matrix for beam forming both on the horizontal direction and the vertical direction. | 2015-05-28 |
20150146651 | METHOD FOR ALLOCATING RESOURCES IN PACKET MODE IN A MOBILE RADIO SYSTEM - A mobile station in a mobile radio system can send different types of packet mode resource requests to a network, corresponding to different transfer modes that can be supported by the mobile station, a mobile station being able to use one or the other of request types corresponding to transfer modes that it supports, in accordance with its requirements. In a method of allocating packet mode resources in the mobile radio system, for signaling data transfer in the uplink direction, the signaling being liable to generate an allocation of packet mode resources in the uplink direction for user data transfer, a mobile station uses a type of packet mode resource request corresponding to a transfer mode best suited to the requirements of the user data transfer. | 2015-05-28 |
20150146652 | System and Method for a Scale-Invariant Symbol Demodulator - It is possible to improve the spectral efficiency of multi-layer multiple input multiple output (MIMO) transmissions by estimating the magnitude parameter at the receiver side, rather signaling the magnitude parameter from the transmitter to the receiver. In long term evolution (LTE) networks, the user equipment (UE) may estimate the power allocation (Pa) parameter by executing a series of steps. For example, the UE may define a single unknown variable from a received downlink MIMO signal, extend the single unknown scalar variable to a multivariate signal model for multiple channels (N), convert the multivariate signal model to a MIMO configured signal model, and then obtain the Pa parameter from the MIMO configured multivariate signal model. | 2015-05-28 |
20150146653 | ORTHOGONAL FREQUENCY DIVISION MULTIPLE ACCESS FOR WIRELESS LOCAL AREA NETWORK - A method for generating an orthogonal frequency division multiple access (OFDMA) data unit is described. A plurality of different orthogonal frequency division multiplex (OFDM) tone blocks for a wireless local area network (WLAN) communication channel are assigned to a plurality of devices including a first device and second device. The plurality of different OFDM tone blocks includes at least a first OFDM tone block assigned to the first device and a second OFDM tone block assigned to the second device. The first OFDM tone block and the second OFDM tone block together span a bandwidth equal to a smallest channel bandwidth of a legacy WLAN communication protocol. An OFDMA data unit is generated for the WLAN communication channel. The OFDMA unit includes a preamble portion and a data portion. The preamble portion has i) at least a legacy portion that spans the entire WLAN communication channel, ii) a first non-legacy portion that spans the first OFDM tone block, and iii) a second non-legacy portion that spans the second OFDM tone block. | 2015-05-28 |
20150146654 | UPLINK MULTI-USER MULTIPLE INPUT MULTIPLE OUTPUT FOR WIRELESS LOCAL AREA NETWORK - A method for selecting members of a client uplink group is described. An uplink traffic characteristic information signal is received from each of a plurality of communication devices. Multiple communication devices of the plurality of communication devices are selected as members of a client uplink group based at least on traffic information indicated by the respective uplink traffic characteristic information signals. An uplink group definition frame is transmitted to each member of the client uplink group. The uplink group definition frame indicates an uplink multi-user multiple input multiple output (MU-MIMO) transmission schedule for the client uplink group for members of the client uplink group to simultaneously transmit to an access point. The members of the client uplink group are triggered to transmit uplink data frames simultaneously. | 2015-05-28 |
20150146655 | DISTRIBUTED ROUTING IN WIRELESS NETWORKS - Systems and methods related to distributed route determination through a multi-hop wireless network based on multiple route metrics or properties are disclosed. In some embodiments, a method of operation of a network node comprises identifying a subset of neighbors of the network node in a wireless network based on: (a) link weight(s) for links from the network node to at least some of the neighbors of the network node with respect to route metric(s) and (b) defined limit(s) for the route metric(s). The method further comprises obtaining second link weights for the links from the network node to at least the subset of the neighbors with respect to a second route metric, and identifying from the subset of the neighbors, an optimal next hop neighbor for the network node. In this manner, multiple route metrics are taken into consideration in manner that is computationally efficient. | 2015-05-28 |
20150146656 | COEXISTENCE TECHNIQUES FOR WIDE AREA NETWORK DEVICES OPERATING IN UNLICENSED BANDS - A communication device is configured to operate in a first wireless communication network that utilizes a communication protocol developed for use in frequency bands that are licensed by a government entity for wireless communication applications. The communication device determines whether one or more communication channels in an unlicensed frequency band are not being utilized by any second wireless communication networks, wherein the government entity does not require licenses to use the unlicensed frequency band. In response to determining that one or more communication channels in the unlicensed frequency band are not being utilized by any second wireless communication networks, the communication device selects a set of one or more communication channels in the one or more communication channels for use by the first wireless communication network, and utilizes the set of one or more communication channels for communications in the first wireless communication network. | 2015-05-28 |
20150146657 | Methods for Codeword Level Interference Cancellation with Network Assistance - A method for a receiver to cancel or suppress co-channel interference with network assistance is provided. The method comprises deriving a first set of parameters related to interfering signals in a mobile communication network; receiving a second set of parameters related to the interfering signals from the network; and cancelling the contribution of interfering signals from the received signal based on the combination of the first set and second set of parameters. In one embodiment, scrambling rules and resource block allocation information are signaled to the victim UE to facilitate Codeword-Level Interference Cancellation (CWIC). While the scrambling rule for control channel is based on UE-specific identity, the scrambling rule for data channel is based on cell-specific identity or other network-configurable identity to facilitate CWIC. In addition, RA-allocation information are signaled to the victim UE in an efficient way. | 2015-05-28 |
20150146658 | METHOD AND SYSTEM FOR ENABLING RESOURCE BLOCK BUNDLING IN LTE-A SYSTEMS - A base station is provided. The base station includes a transmit path circuitry to transmit an indication of whether a subscriber station is configured with precoding matrix indicator/rank indicator (PMI/RI) reporting. The transmit path circuitry sets a pre-coding granularity to multiple physical resource blocks in the frequency domain to perform a same pre-coding over a bundled resource block if the subscriber station is configured with PMI/RI reporting. The bundled resource block includes multiple consecutive physical resource blocks in the frequency domain. The base station also includes a receive path circuitry to receive feedback from the subscriber station. | 2015-05-28 |
20150146659 | Almost Blank Subframe Allocation in Heterogeneous Network - A first base station provides overlapping coverage area with second base stations and third base stations. Second base stations allow regular access to wireless devices and configure a second plurality of almost blank subframes. Second base stations configure the same set of subframes as the second plurality of almost blank subframes. Third base stations allow regular access to a restricted subset of wireless devices and configure a third plurality of almost blank subframes. At least two base stations in the third base stations configure different set of subframes as the second plurality of almost blank subframes. | 2015-05-28 |
20150146660 | Sounding Signal in a Multicarrier Wireless Device - A wireless device receives message(s) configuring cell groups and transmissions of sounding reference signals. Sounding reference signals are configured to be transmitted in a subframe. The wireless device transmits at least one packet on at least one first cell in the subframe. The wireless device transmits a first subset of the sounding reference signals and drops a second subset of the sounding reference signals. | 2015-05-28 |
20150146661 | METHOD AND APPARATUS FOR SUPPORTING HARQ - A method of supporting Hybrid Automatic Repeat Request (HARQ) includes receiving an initial uplink grant on a downlink channel, transmitting uplink data on an uplink channel using the initial uplink grant, receiving a request for retransmission of the uplink data, determining at least one transmission parameter of a channel quality indicator (CQI) from the initial uplink grant, multiplexing retransmission data of the uplink data with the CQI, and transmitting the multiplexed data on the uplink channel. Amount of resources for transmission of the CQI is determined based on the at least one transmission parameter. | 2015-05-28 |
20150146662 | System and Method for Multiple Point Transmission in a Communications System - A system and method for multiple point transmission in a communications system are provided. A method for multiple point transmission operation comprises modifying a configuration of a radio bearer for use in a multiple point transmission to a user equipment according to operating condition information of the user equipment, reconfiguring the radio bearer according to the modified configuration, and initiating a multiple point transmission to the user equipment using the reconfigured radio bearer. | 2015-05-28 |
20150146663 | METHOD AND DEVICE FOR CONTROLLING TRANSMISSION POWER IN UPLINK TRANSMISSION - A user equipment in wireless communication system is provided. The user equipment includes an antenna unit including a plurality of antennas, a control unit for grouping the plurality of antennas into a predetermined number of antenna groups and controlling separately transmission power of each of the predetermined number of antenna groups, and a transmitting unit, connected to the control unit, for transmitting at least one of data and control information to a base station via at least one of the predetermined number of antenna groups. | 2015-05-28 |
20150146664 | WIRELESS COMMUNICATION SYSTEM, COMMUNICATION CONTROL METHOD, CONTROL DEVICE, CONTROL METHOD, CONTROL PROGRAM, AND WIRELESS TERMINAL - Connection destinations of a plurality of wireless terminals are selected from a plurality of connection destination candidates to maximize an evaluation value based on each of data rates in cases where each of the wireless terminals is connected to each of the connection destination candidates and each of resource allocation rates for each of the wireless terminals at each of the connection destination candidates. | 2015-05-28 |
20150146665 | METHOD, APPARATUS, DEVICE AND NETWORK SYSTEM FOR ADDING SECONDARY SERVING CELL - The present invention provides a method for adding a secondary serving cell, an apparatus, a device, and a network system. The method includes: communicating, with each other to acquire a unified serial number of a random access preamble code, a unified serial number of a PRACH mask code, and a unified cell radio network temporary identifier of a terminal; scrambling the serial number of the random access preamble code and the serial number of the PRACH mask code, and then sending the serial number of the random access preamble code and the serial number of the PRACH mask code to the terminal; and determining, a time advance command TAC according to a random access request message that carries the random access preamble code, and sending the TAC to the terminal. | 2015-05-28 |
20150146666 | METHOD FOR TRANSMITTING AND RECEIVING CONTROL CHANNEL, BASE STATION, AND USER EQUIPMENT - The present invention provides a method for transmitting and receiving a control channel, a base station, and a user equipment. The method for transmitting a control channel includes: determining m PRB pairs used for transmitting a control channel to be transmitted; when a distributed transmission mode is used for transmission, determining an aggregation level L of the control channel to be transmitted; determining, according to the aggregation level L, a first control channel candidate at the aggregation level L; and placing control information of the control channel to be transmitted, on physical resources to which the first control channel candidate is mapped, and transmitting the control information. The present invention improves multiplexing efficiency of control channels of different modes. | 2015-05-28 |
20150146667 | FREQUENCY BAND ADAPTIVE WIRELESS COMMUNICATION - A system, apparatus and method is disclosed for multiband wireless communication. Frequency bands and/or transmission formats are identified as available within a range for wireless communication. The system evaluates signal quality metrics for each frequency band and selects a communication method based on the evaluation. Multiple frequency bands and communication methods can be utilized by the system such that a combination of licensed, unlicensed, semilicensed, and overlapped frequency bands can be simultaneously used for communication. The system monitors communications and can report link performance for adaptive control of the selected communication methods. | 2015-05-28 |
20150146668 | METHOD AND APPARATUS FOR CONFIGURING AND TRANSMITTING PILOT - Disclosed a method and an apparatus for configuring and transmitting a pilot, the method includes: a UE determines, according to a partitioned resource set, a parameter for generating an initial value of a demodulation pilot sequence; generates an initial value of the demodulation pilot sequence on the first resource set according to the first parameter, and generates an initial value on the second resource set according to the second parameter; and obtains the demodulation pilot sequence according to the initial value. In embodiments of the present invention, since parameters for calculating the initial value of the demodulation pilot sequence are respectively configured according to a pre-partitioned resource set, the initial value can be calculated according to the resource set to which the E-PDCCH belongs and the set parameter, thus obtaining the demodulation pilot sequence for demodulating the E-PDCCH, so as to improve demodulation performance of the E-PDCCH. | 2015-05-28 |
20150146669 | METHOD, APPARATUS, AND SYSTEM FOR TRANSMITTING CONTROL INFORMATION - Embodiments of the present invention disclose a method, an apparatus, and a system for transmitting control information. The method includes: determining enhanced resource element group numbers in resource blocks, and determining, according to the resource element group numbers, positions of resource elements corresponding to enhanced resource element groups; interleaving the enhanced resource element group numbers, and determining an enhanced control channel element; determining, according to the enhanced control channel element and the positions of the resource elements corresponding to the enhanced resource element groups, positions of resource elements corresponding to the enhanced control channel element; and transmitting corresponding control information on the positions of the resource elements corresponding to the control channel element. The present invention alleviates a problem that channel frequency diversity is poor, and lowers the probability of loss of information of a terminal device. | 2015-05-28 |
20150146670 | ENHANCED PHYSICAL DOWNLINK CONTROL CHANNEL TRANSMISSION METHOD AND APPARATUS - This application provides an enhanced physical downlink control channel transmission method and apparatus. The method includes: in a physical resource block set, separately arranging first resource groups in each physical resource block pair PRB pair, where the first resource groups are resource element groups eREGs or REGs, and the physical resource block set includes at least one of the physical resource block pairs; numbering second resource groups according to a correspondence between the first resource groups and the second resource groups in the physical resource block set, where the second resource groups are control channel element eCCE groups or control channel candidates; determining numbers of the second resource groups for transmitting an E-PDCCH; and mapping, according to the determined numbers, the E-PDCCH to the corresponding first resource groups for transmission. The technical solution of this application resolves an E-PDCCH transmission problem. | 2015-05-28 |
20150146671 | METHOD AND SYSTEM FOR CREATING A MOBILE INTERNET PROTOCOL VERSION 4 CONNECTION - A method for creating a unique and secure mobile internet protocol version 4 connection for a packet data network is provided. The method includes generating an extended master session key to create a mobile interne protocol root key. The method also includes creating a mobile internet protocol security parameter index based on the mobile interne protocol root key and an access point name. The method further includes deriving a mobile node home agent key based on the access point name. Furthermore the method includes associating the derived mobile node home agent key to the created security parameter index. Moreover the method includes providing the unique and secure mobile internet protocol version 4 connection to transfer data for the packet data network connectivity. | 2015-05-28 |
20150146672 | METHODS FOR TRANSMITTING AND RECEIVING CONTROL CHANNEL, BASE STATION, AND USER EQUIPMENT - The present invention provides methods for transmitting and receiving a control channel, a base station, and a user equipment. The method for transmitting a control channel includes: determining m PRB pairs used for transmitting a control channel to be transmitted; when a distributed transmission mode is used for transmission, determining an aggregation level L of the control channel to be transmitted; determining, according to the aggregation level L, a first control channel candidate at the aggregation level L; and placing, on physical resources to which the first control channel candidate is mapped, control information of the control channel to be transmitted, and transmitting the control information. The present invention improves multiplexing efficiency of control channels of different modes. | 2015-05-28 |
20150146673 | METHOD AND APPARATUS FOR ENABLING CHANNEL AND INTERFERENCE ESTIMATIONS IN MACRO/RRH SYSTEM - Aspects disclosed herein relate to channel and interference estimations in a coordinated multi-point (CoMP) environment. In the disclosed aspects, an eNB may be equipped to signal an identifier indicating a plurality of resource patterns, each associated with a resource pattern group, and each including a first resource element pattern for channel estimation and a second resource element pattern for interference estimation. The UE may be equipped to receive the signaling and perform channel estimation based at least in part on the first resource element pattern, and interference estimation based at least in part on the second resource pattern generate at least one channel state report based on the channel and interference estimations, and transmit at least one channel state report to an eNB. The eNB may determine one or more resources for use by the UE based on the at least one received channel state report. | 2015-05-28 |
20150146674 | RADIO LINK MONITORING IN A WIRELESS COMMUNICATION DEVICE - Methods and apparatus' of determining radio link quality are disclosed. According to various implementations, a user equipment detects an out-of-synchronization condition corresponding to a first control channel, and monitors a second control channel in response to the detecting the out-of synchronization condition. | 2015-05-28 |
20150146675 | Performance-Based Optimization of QoS Factors - Described herein are one or more self-organizing network (SON) components configured to determine QoS factors associated with QoS classes for a node of a telecommunication network based at least in part on performance metrics, network configuration, or network fault information. The one or more SON components may receive the performance metrics, network configuration, or network fault information from the node, and the performance metrics, network configuration, or network fault information may be associated with communication of traffic of the QoS classes by the node. Upon determining the QoS factors, the one or more SON components may transmit indications of the QoS factors to the node. | 2015-05-28 |
20150146676 | DOWNLINK MULTIPLE INPUT MULTIPLE OUTPUT ENHANCEMENTS FOR SINGLE-CELL WITH REMOTE RADIO HEADS - A base station selects a subset of at least one geographically separated antennas for each of the plurality of user equipments. The base station forms at least layer of data stream including modulated symbols, precedes the data stream via multiplication with the NT by preceding matrix where N is the number of said layers and NT is the number of transmit antenna elements and transmits the precoded layers of data stream to the user equipment via the selected geographically separated antennas. The base station signals the subset of the plurality of geographically separated antennas via higher layer Radio Resource Control or via, a down link grant mechanism. The base station optionally does not signal the subset of the plurality of geographically separated antennas to the corresponding mobile user equipment. | 2015-05-28 |
20150146677 | RADIO COMMUNICATION METHOD, RADIO COMMUNICATION SYSTEM, RADIO BASE STATION, AND RADIO TERMINAL - A radio communication method including: allocating, by a radio base station, a second radio resource that is to be used in communication among a plurality of radio terminals including a first radio terminal and a second radio terminal, from a first radio resource that is prepared for communication between the radio base station and a radio terminal, and when the second radio terminal has data for the first radio terminal, transmitting, by the second radio terminal, a preparation signal for preparing to transmit the data, using the second radio resource. | 2015-05-28 |
20150146678 | FULL BANDWIDTH PROTECTION MECHANISM FOR CO-EXISTENCE OF SINGLE/MULTI-CHANNEL WIDE-BANDWIDTH WIRELESS SYSTEMS - A technique to provide a protection mechanism, when operating over a plurality of channels in one's own BSS, to help avoid components in other BSSs from interfering or generating contention conflicts to those channels during its own communication. | 2015-05-28 |
20150146679 | INTERFERENCE CANCELLATION IN WIRELESS NETWORKS - The present application relates to a method of a wireless device for interference cancellation (IC) in a cellular radio network system comprising a serving network node serving said wireless device. The method comprises using a first IC method for at least partly removing a time aligned symbol of an interfering radio signal from at least a first symbol of a time slot received from the serving network node. The method also comprises using a second IC method, different from the first IC method, for at least partly removing a non-time aligned symbol of an interfering radio signal from at least a second symbol of said time slot received from the serving network node. | 2015-05-28 |
20150146680 | TECHNIQUES FOR DOWNLINK COORDINATED MULTI-POINT (CoMP) COMMUNICATIONS USING UNLICENSED RADIO FREQUENCY SPECTRUM BAND - Techniques are described for downlink coordinated multi-point (CoMP) procedures for access to a contention-based radio frequency spectrum band. A base station performs a contention procedure, such as a clear channel assessment (CCA) procedure, for access to the radio frequency spectrum band. The base station determines whether contention has been won for a time period, and communicates whether or not contention has been won to other base stations in a CoMP cooperating set. Based on the information exchanged between base stations in the CoMP cooperating set, coordinated communications is initiated to a UE with two or more of the base stations in the CoMP cooperating set. | 2015-05-28 |
20150146681 | SYSTEMS AND METHODS FOR BUNDLING RESOURCE BLOCKS IN A WIRELESS COMMUNICATION NETWORK - A base station for use in a wireless network is operable to communicate with a plurality of mobile stations. The base station transmits a downlink frame to a first mobile station. The downlink frame comprises time-frequency resource elements allocated in a plurality of physical resource blocks. The base station transmits the plurality of physical resource blocks in bundles having a bundle size that is a function of the system bandwidth configuration and the base station uses the same precoder for all physical resource blocks in the same bundle. The bundle size is from one physical resource block to three physical resource blocks. | 2015-05-28 |
20150146682 | CELL DEVICE FOR MULTI-NETWORK COMMUNICATION - A device is configured to receive a request to provide data traffic associated with a user device. The device is configured to determine network information associated with a set of networks. The device may be associated with a small cell long term evolution (“LTE”) network, which may connect to the set of networks. The set of networks may include a macro cell LTE network and a fiber optic network. The network information may include information that identifies a condition of the set of networks. The device is configured to identify a particular network, of the set of networks, based on the network information, and provide the data traffic, via the small cell LTE network and the particular network, based on identifying the particular network. | 2015-05-28 |
20150146683 | CALL CONTINUITY USING SHORT-RANGE COMMUNICATIONS HANDOFF - A call is made from a user equipment (UE) device to a first other UE device that is is paired to a short range communications device. The first other UE device monitors the respective connections between short range communications device and the first other UE device and a second other UE device and automatically hands over the telephone call from the first other UE device to the second other UE device when the connection between the short range communications device and the second other UE device is stronger than the connection between the short-range communications device and the other first UE device. The cordless headset 172 is concurrently handed off from the first other UE device to the second other UE device. | 2015-05-28 |
20150146684 | UPLINK TRANSMISSION POWER AND TIMING ADJUSTMENT IN TD-SCDMA BATON HANDOVER - A user equipment (UE) may adjust its uplink transmission power and timing for communications with a target cell while awaiting completion of a baton handover procedure. The amount of adjustments for the uplink transmission power/timing may be based on an amount of time remaining before baton handover failure is declared. The steps size of the adjustments may increase as the time remaining before handover failure becomes smaller. | 2015-05-28 |
20150146685 | PACKET-SWITCHED NETWORK RETURN - Systems and methods for generating a Long Term Evolution network return procedure. A mobile terminal may generate, in absence of redirection instruction from a circuit-switched network, a Long Term Evolution network return procedure that, when instantiated by the mobile terminal, implements connection of the mobile terminal to a Long Term Evolution network based on measured signal strength of at least one Long Term Evolution network access point. | 2015-05-28 |
20150146686 | Method and Apparatus for Interference Control - Methods and apparatuses for interference control have been disclosed. A method for a source cell in a handover procedure is provided. The method comprises: determining restricted subframes in which signal transfer from the source cell to its served user equipments is restricted; and notifying information about the determined restricted subframes to a target cell, wherein the determined restricted subframes are used for scheduling user equipments which are taking handover from the source cell to the target cell. Thus, an improved approach has been provided to decrease the dropping rate in cell soft lock for PCI collision. | 2015-05-28 |
20150146687 | METHOD AND DEVICE FOR PERFORMING DEVICE-TO-DEVICE COMMUNICATION IN WIRELESS COMMUNICATION SYSTEM - A method for performing device-to-device (D2D) communication in a wireless communication system is provided. A master user equipment sets a D2D link with a slave user equipment. The master user equipment performs D2D communication with the slave user equipment through the D2D link. The master user equipment receives handover information of the slave user equipment from the slave user equipment. The master user equipment transmits the handover information of the slave user equipment to an evolved NodeB of a handover source cell. | 2015-05-28 |
20150146688 | RADIO COMMUNICATION SYSTEM - A radio communication system includes a user device, a first base station, a second base station, a switching center, and a gateway device. In a handover operation performed in a situation in which a user-plane path has been established through the first base station, the first base station transmits, to the user device, a radio connection reconfiguration message commanding that a radio bearer be established between the second base station and the user device and receives a radio connection reconfiguration complete message transmitted from the user device. The first base station transmits, to the switching center, a path switching request message requesting that the established user-plane path be changed so as to pass through the second base station. | 2015-05-28 |
20150146689 | HANDOVER PREDICTION USING HISTORICAL DATA - A method in an apparatus | 2015-05-28 |
20150146690 | METHOD FOR DETERMINING ACCESS CONTROL - Examples of the present disclosure provide a method for determining access control, applied in a handoff procedure of a UE. The method includes: if a current service is a LIPA@LN service, and if the UE is in a same local network before and after the handoff, keeping, by a node performing access control determination, service continuity of the LIPA@LN service; if the UE moves out of the local network after the handoff, deactivating, by the node performing the access control determination, the LIPA@LN service; if the current service is a SIPTO@LN only service or a SIPTO@CN@LN service, if the UE is in the same local network before and after the handoff, keeping, by the node performing the access control determination, the service continuity of the SIPTO@LN only service or the SIPTO@CN@LN service; if the UE moves out of the local network after the handoff, determining, by the node performing the access control determination, whether to keep the service continuity of the SIPTO@LN only service or the SIPTO@CN@LN service according to a network policy. According to the technical solution provided by the present disclosure, service continuity of the LIPA service or the SIPTO service can be maintained correctly. | 2015-05-28 |
20150146691 | Scrambling Code Resolution - A code division multiple access wireless network ( | 2015-05-28 |
20150146692 | METHOD AND APPARATUS FOR CELL SWITCHING - Disclosed are a method and an apparatus for transmitting data. A cell switching method can comprise the steps of: allowing a primary (P)-cell base station to enable a first secondary(S)-cell; allowing the P-cell base station to receive channel state information from a second S-cell; allowing the P-cell base station to determine the second S-cell as a switching S-cell on the basis of the channel state information; allowing the P-cell base station to disable the first S-cell and enable the second S-cell. | 2015-05-28 |
20150146693 | METHOD AND APPARATUS FOR INTERFERENCE MANAGEMENT - In some aspects, restricted access nodes are assigned to a designated common channel while access terminals that are in active communication with a macro access node may selectively be assigned to the designated channel. In some aspects, an access terminal associated with macro access node may perform a handoff to a different carrier when the access terminal is in the vicinity of a coverage area of a restricted access node. In some aspects, an access terminal associated with a macro access node may perform a handoff to a different carrier based on location information. In some aspects, access to a restricted access node is controlled based on policy and/or based on operation of an access terminal associated with the restricted access node. | 2015-05-28 |
20150146694 | PRUNING A CANDIDATE CELL LIST FOR AN IDLE MODE UE AND A CONNECTED MODE UE - A method for determining candidate radio access technology (RAT) layers includes selecting one or more initial candidate RAT layer, for each configured RAT type of a UE, for a target RAT candidate list. The target can be for redirection or handover, for example. Each initial candidate RAT layer is selected regardless of network indicated RAT priorities and measurement object IDs. The method also includes selecting additional candidate RAT layers, for the list, based on the network indicated RAT priorities or the measurement object IDs. The method may be specified for when a UE is in a connected mode or an idle mode. | 2015-05-28 |
20150146695 | METHOD AND SYSTEM FOR MANAGING HANDOVER IN RADIO ACCESS NETWORKS - A method and apparatus are provided for a handover (HO) in an evolved Node B (eNodeB). The method includes receiving a measurement report from a user equipment (UE); transmitting, to a mobility management entity (MME), a handover required message including information indicating whether the HO is for a circuit switched (CS) network or both a CS network and a packet switched (PS) network; and receiving, from the MME, a handover command message. The information is used, by the MME, to split a voice bearer from another bearer. | 2015-05-28 |
20150146696 | CHANNEL QUALITY INFORMATION REPORTING IN PROTECTED SUBFRAMES - The present invention relates to reporting the channel state information in a communication system. The channel state information is reported from the user terminal to a base station. Accordingly, the user terminal determines a first channel state information value from a first set of values (levels) and a second channel state information value from another set of values, preferably a larger set of values. Then a difference or other relative measure is calculated between the first and the second channel state information value and transmitted to the base station. | 2015-05-28 |
20150146697 | CLIENT-SIDE SCHEDULING FOR MEDIA TRANSMISSIONS ACCORDING TO CLIENT DEVICE STATES - A mobile device that incorporates the subject disclosure may perform, for example, obtaining performance characteristics for network segments of a network where the network segments are selected from a group of network segments of the network based on a trajectory of the mobile device. The mobile device can monitor power state transitions of the mobile device, and can predict a future power state of the mobile device based on the monitoring of the power state transitions. The mobile device can determine a target time for sending a request for transmission of a data packet over the network where the target time is determined based on the performance characteristics for the network segments and based on the future power state of the mobile device. The mobile device can schedule a time for sending the request for transmission according to the target time. Other embodiments are disclosed. | 2015-05-28 |
20150146698 | MOBILE STATION - An objective is to appropriately select a “timing reference cell” and a “Pathloss reference cell” for an Scell in an sTAG. A mobile station UE according to the present invention includes a second management unit | 2015-05-28 |
20150146699 | EXTENDED BLOCK ACKNOWLEDGEMENT PROTOCOL - A method for selecting a size of a block acknowledgment bitmap for a block acknowledgment (BA) frame to be sent from a first wireless device to a second wireless device includes determining a transmission rate of a number of data frames received from the second wireless device, selecting the size of the block acknowledgment bitmap based at least in part on the determined transmission rate, and transmitting the BA frame, embedded with the block acknowledgment bitmap of the selected size, to the second wireless device. | 2015-05-28 |
20150146700 | CHANNEL ACCESS DEFERRAL MECHANISM - A method for confirming receipt of an aggregated data frame containing one or more decoding errors is disclosed. A wireless device receives the aggregated data frame from another device over a wireless channel, determines a transmit duration of the aggregated data frame, and defers access to the channel for a time period selected as either an EIFS duration or a DIFS duration based, at least in part, on the transmit duration, and then transmits a block acknowledgement frame to the other device after the time period. | 2015-05-28 |
20150146701 | RADIO STATION, RADIO TERMINAL, AND SYNCHRONIZATION TIMER CONTROL METHOD IN RADIO COMMUNICATION SYSTEM - A radio station, a radio terminal, and a method for synchronization timer control are provided that can reduce a delay as much as possible until uplink signal resynchronization is done in a case where a plurality of cell groups exist. In a radio communication system having a function of using a plurality of radio resources corresponding to a plurality of cells, respectively, for communication between a radio station ( | 2015-05-28 |