13th week of 2016 patent applcation highlights part 63 |
Patent application number | Title | Published |
20160094995 | LICENSED SHARED ACCESS SPECTRUM ALLOCATION - A technology that is operable to release a licensed shared access (LSA) spectrum allocation in a communications network is disclosed. In one embodiment, an evolved node B (eNode B) is configured with circuitry configured to receive, from a spectrum release module located in an evolved packet core (EPC) of the communications network, a spectrum release message requesting the eNode B release one or more selected segments of an LSA spectrum. LSA spectrum release parameters are evaluated for releasing the one or more selected segments of the LSA spectrum. A LSA spectrum release schedule is determined based on the LSA spectrum release parameters. Selected secondary cells (SCells) are deactivated in the communications network based on the LSA spectrum release schedule to release the one or more selected segments of the LSA spectrum. | 2016-03-31 |
20160094996 | SYSTEM AND METHOD OF HANDLING UPLINK TRANSMISSION COLLISION FOR ENHANCED COVERAGE MODE UES - An eNodeB (eNB), user equipment (UE) and method for operating in enhanced coverage (EC) modes are generally described. The UE may determine whether or not a physical uplink control channel (PUCCH) signal and an uplink signal allocated to different resources in a particular subframe overlap. The uplink signal may comprise another PUCCH signal or a physical uplink shared channel (PUSCH) signal. The PUCCH signals may comprise a scheduling request or acknowledgement response/retransmission request. The UE may select one of the overlapping signals and transmit the selected signal on a resource allocated to the other signal instead of on a resource allocated to the one of the overlapping signals. The other signal may or may not be transmitted dependent on whether it is a PUCCH or PUSCH signal. | 2016-03-31 |
20160094997 | SHARED SPECTRUM OPERATION - Shared spectrum operation is disclosed for sharing spectrum among multiple wireless deployments. Coordination procedures between and among 2 | 2016-03-31 |
20160094998 | SHARED SPECTRUM OPERATION - Shared spectrum operation is disclosed for sharing spectrum among multiple wireless deployments. Coordination procedures between and among 2 | 2016-03-31 |
20160094999 | COMMUNICATION MECHANISM USING SPECTRUM SHARING - An apparatus including:
| 2016-03-31 |
20160095000 | DETERMINING COVERAGE HOLE OF COMMUNICATION NETWORK ALONG ROAD - Method and apparatus for determining a coverage hole of a communication network along a road. The method includes: retrieving typical speed information on the basis of connection history that at least one first mobile device moves along the road; in response to detecting a connection drop when at least one second mobile device moves along the road, estimating a drop position of the at least one second mobile device on the basis of attribute information of the at least one second mobile device and the typical speed information; and determining the coverage hole on the basis of the drop position of the at least one second mobile device. In one embodiment of the present invention, there is provided a corresponding apparatus. | 2016-03-31 |
20160095001 | MOBILE CELLULAR NETWORKS - Multiple mobile cellular network (MCN) communication systems can be networked together to form a network of MCN communication systems (NOM). Each MCN communication system within the NOM can operate as an independent cellular network to provide communications between user equipment within a covered area. The MCN can be managed by a network management control center (NMCC). The NMCC can be configured generate coverage maps of the NOM and NMC system coverage areas. | 2016-03-31 |
20160095002 | APPARATUS AND METHODS FOR RADIO FREQUENCY SIGNAL BOOSTERS FOR CELLULAR AND BROADCAST TELEVISION SIGNALS WITH WIFI SIGNALS TRANSMISSION FUNCTION - Provided herein are apparatus and methods for radio frequency signal boosters for cellular and broadcast television signals with Wi-Fi signals transmission function. Cell phone, Wi-Fi, and broadcast television signals are boosted and retransmitted over a shared antenna or over more than one antenna. In certain implementations, a multi-band signal booster is configured to provide signal path gain to at least three signal paths: a first signal path configured to receive a first time division duplexed Wi-Fi signal, a second signal path configured to receive a first frequency division duplexed mobile or cellular signal, and a second signal path configured to receive a broadcast television signal. | 2016-03-31 |
20160095003 | Incremental Scheduling for Wireless Communication System with Beamforming - An incremental scheduling scheme is proposed in a wireless communication system with beamforming. In an initial stage (stage- | 2016-03-31 |
20160095004 | RRC RE-ESTABLISHMENT ON SECONDARY ENODEB FOR DUAL CONNECTIVITY - An enhanced RRC re-establishment procedure on secondary base station (SeNB) is proposed. A UE with dual connectivity is connected to both a master base station (MeNB) and a secondary eNB (SeNB). The UE performs radio link monitoring (RLM) and radio link failure (RLF) procedures over PCELL served by the MeNB. Once RLF is detected, the UE performs RRC connection reestablishment with a selected cell. From SeNB perspective, the SeNB triggers proactive fetching of UE context from the MeNB to ensure a successful reestablishment. From MeNB perspective, the MeNB provides preference information to the UE for selecting a suitable cell for reestablishment. From UE perspective, the UE considers its mobility state during cell selection such that smallcells are skipped for reestablishment when the UE has high mobility. | 2016-03-31 |
20160095005 | REMEDIAL ACTION BASED ON INTER-PACKET RECEIVED POWER - In order to maintain performance during wireless communication, a transmitting electronic device may selectively perform a remedial action based on a received power in a channel during time intervals between received packets (e.g., due to interference) and/or a metric associated with the measured received power. In particular, when the received power is less than a threshold value (e.g., when the interference is insufficient to stop transmission by the transmitting electronic device), the transmitting electronic device performs the remedial action based on the measured received power and/or the metric. For example, the remedial action may include: selecting a modulation technique; selecting the receiving electronic device; selecting an antenna pattern for the one or more antennas; reducing a transmit power; selecting a data rate; determining a cumulative distribution function; and/or estimating a channel capacity. Next, the transmitting electronic device transmits a packet in the channel to a receiving electronic device. | 2016-03-31 |
20160095006 | Radio Traffic Detector, Network Node and Methods for Assisting Handover - It is presented a method arranged to assist a determination of mobile devices being candidates for handover. The method is performed in a radio traffic detector and comprises: measuring a received signal strength value on a predetermined frequency band; repeating the measuring during a time period; generating a message comprising a timestamp associated with the time period, and a plurality of message elements, wherein each message element is based on a respective received signal strength value for respectively different time instances within the time period; and transmitting the message to a network node to assist the determination of mobile devices being candidates for handover. By using measured received signal strength, uplink traffic can be detected without the need to decode the signals. Corresponding radio traffic device, network node and method are also presented. | 2016-03-31 |
20160095007 | CARRIER COORDINATION DEVICE AND SYSTEM, COMMUNICATIONS DEVICE AND METHOD, AND MEASUREMENT DEVICE AND METHOD - A carrier coordination device and system, a communications device and method, and a measurement device and method. The carrier coordination device includes: a receiving unit, used to receive interference information for describing interference suffered by a user equipment; and a coordination unit, used to determine an interfering source base station of the user equipment according to the interference information, and coordinate carrier use of the user equipment and/or the interfering source base station at least based on the interference information and carrier state information of the interfering source base station, to reduce the interference suffered by the user equipment. The technology can be applied in a wireless communications field. | 2016-03-31 |
20160095008 | WIRELESS COMMUNICATIONS METHOD, USER EQUIPMENT, AND NETWORK NODE - A wireless communications method, user equipment, and a network node are disclosed. The method includes: receiving, by user equipment, a message sent by a first network node, where the message includes measurement instruction information and connection indication information; measuring, by the user equipment in the RRC-IDLE mode, the neighboring cells according to the measurement instruction information, and obtaining measurement results; and selecting, by the user equipment, at least one to-be-connected cell from the neighboring cells according to the connection indication information and the measurement results, and keeping camping on the cell of the first network node when the user equipment is in the RRC-IDLE mode. Embodiments of the present invention can advance a time at which a new cell is found. | 2016-03-31 |
20160095009 | OCCUPANCY NOTIFICATIONS FOR UNLICENSED FREQUENCY BANDS - A node identifies at least one first channel of an unlicensed frequency band that is occupied by a first node that operates according to a first radio access technology (RAT). The node transmits a signal on a second channel of the unlicensed frequency band. The signal is formed according to a second RAT used for transmission on the second channel and the signal includes information identifying the at least one second channel of the unlicensed frequency band. | 2016-03-31 |
20160095010 | POWER MONITOR SCHEDULING IN DUAL DATA MODE - A method for scheduling monitor activity for a mobile communication device includes: receiving less than all of a plurality of bursts for a first subscription; decoding a packet header by decoding the received bursts; determining if a decoded temporary flow identity (TFI) matches a TFI for the mobile communication device; and in response to a mismatch between the decoded TFI and the TFI for the mobile communication device: inhibiting reception of a remaining plurality of bursts; and scheduling the monitor activity in timeslots reserved for the remaining plurality of bursts for the first subscription that do not conflict with transmissions on a second subscription. | 2016-03-31 |
20160095011 | LOGGING MULTICAST-BROADCAST SINGLE-FREQUENCY NETWORK MEASUREMENTS - Various communication systems may benefit from the appropriate logging of measurements. For example, communication systems employing multimedia broadcast multicast service may benefit from logging multicast-broadcast single-frequency network measurements. A method can include logging, by a user equipment, a multicast-broadcast single-frequency network measurement corresponding to a logging period. The method can also include storing, at the time the multicast-broadcast single-frequency network measurement is made, cell measurement results. | 2016-03-31 |
20160095012 | System and Method for Interference Detection - Solutions for interference detection are provided. A frequency band is scanned ( | 2016-03-31 |
20160095013 | MULTISENSORY CHANGE DETECTION FOR INTERNET OF THINGS DOMAIN - Examples of systems and methods for multisensory change detection are generally described herein. A method may include receiving a first set of signals from a first combination of sensors and a second set of signals from a second combination of sensors in a plurality of sensors, and determining a first distribution for the first set of signals and a second distribution for the second set of signals. The method may include estimating a divergence between the first and second distributions using the first and second combinations of sensors, a count of the plurality of sensors, and distances from a plurality of signals in the second set of signals to a first plurality of nearest neighbor signals in the first set of signals and a second plurality of nearest neighbor signals in the second set of signals. The method may include determining whether the divergence exceeds a threshold. | 2016-03-31 |
20160095014 | CAPACITY INCREASING DEVICES AND METHODS FOR WIRELESS COMMUNICATION - The present patent application improves DARP by allowing multiple users on one time slot (MUROS). It comprises means and instructions for sharing signals on a single channel, comprising setting up a new connection, allocating a new time slot if there is an unused time slot on a channel frequency, selecting an used time slot for the new connection to share with an existing connection if there is not an unused time slot on the channel frequency, and selecting a different training sequence code for the new connection if the used time slot on the channel frequency has been selected for the new connection to share with an existing connection. Other aspects, embodiments, and features are also claimed and described. | 2016-03-31 |
20160095015 | CONTROL CHANNEL COLLISION RESOLUTION - Devices and methods are configured for resolving control channel transmission collision in a mobile device having first and second subscriptions (SUBs) when the first SUB is in an active voice call and the second SUB is in a held voice call. The devices and methods involve determining whether a control channel transmission of the first SUB would collide with a control channel transmission of the second SUB. In response to determining that the first SUB control channel transmission would collide with the second SUB control channel transmission, the devices and methods alternate the first SUB control channel transmission and the second SUB control channel transmission to avoid collision. | 2016-03-31 |
20160095016 | REQUESTING EXTRA SPECTRUM - A device for use in a mobile communication user equipment includes processing circuitry to prepare a spectrum allocation request for requesting extra spectrum according to a predetermined protocol; send the spectrum allocation request to a cloud spectrum broker; and receive a response to the spectrum allocation from the cloud spectrum broker. A device for use in a cloud spectrum broker, the device comprising processing circuitry to receive from a user equipment an allocation request, the allocation request for requesting extra spectrum, the allocation request according to a predetermined protocol; determine a response to the allocation request; and send the response to the user equipment. | 2016-03-31 |
20160095017 | NETWORK BANDWIDTH SHARING FOR SMALL MOBILE DEVICES - Client devices with wireless functionality, but without wide area network or cellular network functionality, can obtain network access via a host device, where the host device has network access. Such network access can be obtained when a client device of a user is in local range of a host device, e.g., of a different user. The host device may enable network bandwidth sharing with settings that specify a threshold of resource usage (e.g., battery or bandwidth limit). An authentication process can confirm that either one or both of a client device and a host device are registered for the network bandwidth sharing. A server can monitor the amount of resources shared by the host device, and manage incentives to the user of the host device. | 2016-03-31 |
20160095018 | TECHNIQUES FOR ACCESSING A CELL USING AN UNLICENSED RADIO FREQUENCY SPECTRUM BAND - Techniques are described for wireless communication. One method includes winning a contention for access to an unlicensed radio frequency spectrum band, transmitting a request message upon winning the contention for access to the unlicensed radio frequency spectrum band, and receiving a response message over the unlicensed radio frequency spectrum band. The request message is transmitted by a user equipment (UE) on an enhanced physical random access channel (ePRACH), to access a cell that operates in the unlicensed radio frequency spectrum band. The response message is received in response to transmitting the request message. | 2016-03-31 |
20160095019 | FACILITATION OF MOBILITY MANAGEMENT ACROSS VARIOUS RADIO TECHNOLOGIES - A more efficient network can be achieved using software-defined networking to configure routing tables to route data traffic to and from proper cells. User equipment address data and network device internet protocol address data can be utilized to define locators specific to a user equipment device in relation to various network devices. For instance, broadcasted network address data representative of a mobile device identifier address can be received by a first network device from the mobile device, wherein the mobile device identifier address comprises network address data related to an internet protocol address of a second network device, the first network device can determine a third network device capable of a communication with the mobile device, and the communication with the mobile device can be routed by the first network device to the third network device. | 2016-03-31 |
20160095020 | Systems and Methods for Improved Network Scanning for Quality of Service Applications - A user equipment (“UE”) that performs methods to connect to multiple radio access networks (RAN) including a home network RANs and roaming RANs to perform communications. An exemplary method performed by a UE initially connected to a Long Term Evolution radio access network (LTE-RAN) of a home network and registered with a voice over LTE (VoLTE) service of the home network to perform voice communications via the LTE-RAN, includes detecting a service disrupting event preventing VoLTE communication with the LTE-RAN, deregistering from the VoLTE service of the home network, scanning for available bands in the LTE-RAN of the home network and while scanning for the available bands in the LTE-RAN of the home network, connecting to a further radio access network (RAN) of the home network that allows circuit-switched communications with the home network, wherein the UE performs voice communications as circuit-switched communications via the further RAN. | 2016-03-31 |
20160095021 | Device Management in a Mixed Wireless Communication System - A method, system, and apparatus are described for managing a device in a mixed wireless communication system. A device may decide to scan or not scan for a cell based on (or at least on) updating information. The updating information may be used together or individually. The updating information may be maintaining a time window in conjunction with a device's motion status, maintaining a list that tracks cell identity in areas of non-service, or utilizing network deployment information. | 2016-03-31 |
20160095022 | METHOD, APPARATUS, AND SYSTEM FOR CONNECTING TO NETWORK - The present disclosure discloses a method, an apparatus, and a system for connecting to a network. Embodiments of the present disclosure include: sending, by an MME, a first message to a server; and receiving, by the MME, a second message sent by the server, where the second message is used to instruct the MME to perform a relay process, where the relay process specifically includes: acquiring a list of candidate relay UEs that relay the UE, and sending a third message to candidate relay UE in the list of candidate relay UEs, where the third message is used to instruct the candidate relay UE in the list of candidate relay UEs to send a fourth message to the UE, and the fourth message is used by the UE to determine selected relay UE and connect to a network by using the selected relay UE. | 2016-03-31 |
20160095023 | REDUCING ATTACH DELAY FOR A MULTI-SIM UE - Methods, systems, and devices are described for wireless communication. A modem processor of a user equipment (UE) may receive a switch indication directing the modem to utilize a designated SIM and may access identification (ID) information from the SIM, including ID information for a network operator. The modem processor may then retrieve a stored access point name (APN) associated with the network operator and establish a connection to the data network identified by the stored APN. In some cases, the APN may be stored in the modem processor after a successful connection to the data network using the designated SIM. In some cases, the UE may also identify a network priority rule associated with the network operator of the SIM and establish the connection to the data network based on the priority rule. | 2016-03-31 |
20160095024 | METHOD AND APPARATUS FOR RECEIVING SIGNAL OF NEIGHBORING CELL SIGNAL BY D2D TERMINAL IN WIRELESS COMMUNICATION SYSTEM - Disclosed herein is a method for receiving a signal of a neighboring cell by a Device-to-Device (D2D) terminal in a wireless communication system. The method includes receiving an offset parameter and a periodicity parameter, determining a resource pool of the neighboring cell in consideration of relation between the periodicity parameter and a maximum possible number of subframes contained in a resource pool period set, and receiving the signal of the neighboring cell in the determined resource pool. | 2016-03-31 |
20160095025 | Enhanced Mobility Robustness Optimization - Methods, apparatus and computer program products are disclosed for enhancing mobility robustness optimization in self optimizing networks. Neighbor relation information indicating relations between a handover source cell and candidate handover target cell(s), each including a first counter indicating events of an unsuccessful handover of a user equipment from the handover source cell to one candidate handover target cell, and a second counter indicating events of connection re-establishment attempt of the user equipment to the candidate handover target cell after an unsuccessful handover to another cell. A first candidate handover target cell to which handover of the user equipment was unsuccessful and a second candidate handover target cell to which the user equipment has re-established a connection, out of the candidate handover target cells, are determined. The first counter and/or the second counter of the neighbor relation information concerning the determined first and second candidate handover target cells is updated. | 2016-03-31 |
20160095026 | HANDOVER IN HETEROGENEOUS RADIO COMMUNICATION NETWORKS BASED ON SYSTEMATIC IMBALANCE DIFFERENCES - Presented is an apparatus and methods for determining if a determined systematic imbalance difference between a serving base station and one or more candidate base stations exceeds a threshold value and, if so, then using uplink information as part of a handover mechanism. The selective usage of uplink information in the handover mechanism can improve handover performance without unduly adding to complexity and signaling overhead. | 2016-03-31 |
20160095027 | Method and Apparatus for Performing Handover in a Wireless Communication System - A method for performing handover by wireless User Equipment (UE) is provided. The UE includes a Long Term Evolution-Mobile Extreme Convergence (LTE-MXC) application processor, a LTE processor and a Digital Signal Processor (DSP). The UE buffers a set of IP packets when a Radio Access Technology (RAT) indicator is less than a pre-defined threshold and sends the set of IP packets to the LTE processor and the DSP. The LTE processor transmits the set of IP packets to the LTE network and sends acknowledgement signals to the LTE-MXC application processor and the DSP. When the handover is complete, the LTE processor sends the transmission status of the set of IP packets to the DSP. The UE also includes multimode Radio Resource Control (RRC) and. Non-Access Stratum (NAS) modules. | 2016-03-31 |
20160095028 | WIRELESS COMMUNICATION SYSTEM AND WIRELESS BASE STATION DEVICE - In a wireless communication system including a wireless terminal device wirelessly connectible to both a macro-cell base station and a small-cell base station, all the user-plane signals destined for the wireless terminal device are transmitted to the small-cell base station; a VoIP signal among the user-plane signals destined for the wireless terminal device is transmitted to the macro-cell base station; the VoIP signal is wirelessly transmitted from the macro-cell base station to the wireless terminal device; any user-plane signal, among the user-plane signals destined for the wireless terminal device, other than the VoIP signal is wirelessly transmitted from the small-cell base station to the wireless terminal device. | 2016-03-31 |
20160095029 | METHOD AND APPARATUS FOR FACILITATING IMPROVED ACCESS FOR EFFICIENT CELL CHANGE - Various methods are provided for facilitating optimized access for efficient offloading in small cell deployments. One example method may comprise causing receiving an indication enabling direct access of one or more cells, causing access to be performed according to the indication of one or more cells that may be accessed, determine an availability of a small cell that fulfills conditions for direct access, changing to small cell if small cell meets conditions, and performing access to small cell if cell is changed and perform access to a macro cell if cell is not changed. | 2016-03-31 |
20160095030 | CONNECTION SETUP FOR HETEROGENEOUS CELLULAR COMMUNICATION NETWORKS - A connection setup method of a wireless communication device adapted to be operated in a heterogeneous cellular communication network is disclosed. The heterogeneous cellular communication network comprises at least a first cell and a second cell, respectively associated with a first cell layer and a second cell layer of the heterogeneous cellular communication network. The wireless communication device is adapted to use a serving cell associated with the first cell layer or the second cell layer when the wireless communication device is in an active mode, and to use a camping cell associated with the first cell layer when the wireless communication device is in an idle mode. The method comprises detecting, when the wireless communication device is in the active mode and uses the second cell as the serving cell, that the serving cell is associated with the second cell layer. In response to detecting an upcoming transfer to the idle mode, the method comprises storing connection setup parameters of the second cell and transferring to the idle mode, wherein transferring comprises selecting the first cell as the camping cell. The method also comprises, when the wireless communication device is in the idle mode, detecting an upcoming transfer to the active mode and transferring to the active mode, wherein transferring comprises setting up a connection to a cell of the heterogeneous cellular communication network based on the stored connection setup parameters of the second cell. Corresponding computer program product, arrangement and wireless communication device are also disclosed. | 2016-03-31 |
20160095031 | Policy Engine In Mobile Unit For Enhanced Femtocell Handover - A mobile unit preselects candidate femtocells for handover. The mobile unit reports candidate femtocells and associated measurement data to the network. The network analyzes the preselected candidate femtocells and provides a list of handover femtocells for the mobile unit to use. This list can be the same or different than the preselected list. | 2016-03-31 |
20160095032 | PLACEMENT AND USE OF WIRELESS NETWORK FUNCTIONS IN A VIRTUALIZATION ENVIRONMENT - A capability for controlling placement and use of wireless network functions within a virtualization environment is presented. The capability for controlling placement and use of wireless network functions in a virtualized environment may include controlling placement of a set of wireless network functions of a wireless network within a virtualization environment to form a set of virtualized wireless network functions, where the set of virtualized wireless network functions includes at least a set of virtualized serving node functions and a set of virtualized gateway node functions. The capability for controlling placement and use of wireless network functions in a virtualized environment may include controlling selection of one of the virtualized gateway node functions responsive to a request for a bearer for a wireless device served by the wireless network. | 2016-03-31 |
20160095033 | METHOD TO OPTIMIZE LTE DATA PERFORMANCE FOR SINGLE RADIO HYBRID TUNE AWAY DEVICES THROUGH DISCARD TIMER - A method, an apparatus, and a computer program product for wireless communication are provided. The apparatus, e.g., UE, suspends a discarding process of data packets associated with a first RAT during tune away by the UE to a second RAT by stopping a discard timer. The UE restarts the discarding process in response to an occurrence of a triggering event. The triggering event may occur when the UE tunes back to the first RAT, or when a duration of the UE tune away to the second RAT exceeds a threshold. The discarding process may be restarted by resuming the discard timer at the point in time where it was stopped or by resetting the timer to zero. | 2016-03-31 |
20160095034 | SERVICE-SPECIFIC AIR-INTERFACE SELECTION - Methods, systems, and devices are described for wireless communication at a UE. A first radio configuration is received. The first radio configuration for a first service on a first air interface to a first base station. A second radio interface is received. The second radio configuration for a second service on a second air interface to a second base station. A first measurement report is transmitted to the first base station over the first air interface. The first measurement report includes information related to at least one of the first air interface and the second air interface. | 2016-03-31 |
20160095035 | ACCESS NETWORK TYPE IDENTIFICATION IN MOBILE INTERNET PROTOCOL (MIP) REGISTRATION (RRQ) - A wireless communication device exchanges wireless data with a first wireless node in a first wireless network and switches to a second wireless node in a second wireless network in response to a loss of wireless signal strength. The wireless device generates and transfers a Mobile Internet Protocol (MIP) Request (RQ) identifying the first wireless node, the first wireless network, the second wireless node, and the second wireless network in response to the wireless network switch. The wireless device receives a MIP Response (RP), and in response, exchanges IP data with the IP network over the second wireless node and the second wireless network. | 2016-03-31 |
20160095036 | SMOOTH UE TRANSFER WITHIN AN EVOLVED PACKET CORE - Techniques described herein may enable Evolved Packet Core (EPC) devices (e.g., Mobility Management Entities (MMEs), Serving Gateways (SGWs), or Packet Data Network Gateways (PGWs)) to transfer a connection with a User Equipment (UE) from one EPC device to another EPC device without a break in service for the UE. The transfer may occur in response to an EPC device being overloaded, an EPC device being added or removed from a logical group of EPC devices, or in response one EPC device becoming more appropriate for the UE than another EPC device (e.g., due to a change in the geographic location of the UE). EPC devices may be implemented as virtual network functions, and the transfer of the UE may occur while the UE is in an active mode or an idle mode. | 2016-03-31 |
20160095037 | COMMUNICATION CONTROL METHOD, USER TERMINAL, CELLULAR BASE STATION, AND ACCESS POINT - A communication control method according to a first aspect is a method for performing offloading to switch traffic to be transmitted and received between a user terminal and a cellular base station to a wireless LAN system. The communication control method comprises: a step A in which the user terminal transmits a wireless LAN terminal identifier being an identifier of the user terminal in the wireless LAN system, to the cellular base station; and a step B in which the cellular base station, before performing the offloading, transmits the wireless LAN terminal identifier received from the user terminal to an access point of the wireless LAN system. The wireless LAN terminal identifier is used for wireless authentication of the user terminal at the access point. | 2016-03-31 |
20160095038 | RADIO COMMUNICATION SYSTEM, LOAD SHARING METHOD, AND BASE STATION - When a frequency band which can be utilized by a radio communication system is divided into multiple partial frequency bands and one or more partial frequency bands are allocated to multiple base stations, each base station reports to a control station information for receiving a signal transmitted by a terminal and a number of connected terminals for every partial frequency band. The control station determines a load of each partial frequency band based on the information received from each base station. Regarding a terminal group that performs communication utilizing the partial frequency band on which the load is generated, the control station delivers information for receiving a signal transmitted by the terminal group to each base station and instructs interference measurement of the terminal group. The control station determines necessity of a handover, a handover destination base station, and a frequency and performs a base station-led handover. | 2016-03-31 |
20160095039 | TRANSMISSION PUNCTURING FOR CO-EXISTENCE ON A SHARED COMMUNICATION MEDIUM - Techniques for co-existence on a shared communication medium are disclosed. In one example, transmission in accordance with a first Radio Access Technology (RAT) may be punctured on one or more active periods of a Discontinuous Transmission (DTX) communication pattern based on monitoring of signaling associated with a second RAT. In addition or as an alternative, a transmission power level of an access point for transmission in accordance with a first RAT may be reduced based on one or more signal timing characteristics of signaling associated with a second RAT. | 2016-03-31 |
20160095040 | TRANSMISSION POWER REDUCTION FOR CO-EXISTENCE ON A SHARED COMMUNICATION MEDIUM - Techniques for co-existence on a shared communication medium are disclosed. In one example, transmission in accordance with a first Radio Access Technology (RAT) may be punctured on one or more active periods of a Discontinuous Transmission (DTX) communication pattern based on monitoring of signaling associated with a second RAT. In addition or as an alternative, a transmission power level of an access point for transmission in accordance with a first RAT may be reduced based on one or more signal timing characteristics of signaling associated with a second RAT. | 2016-03-31 |
20160095041 | STATE MIGRATION OF EDGE-OF-NETWORK APPLICATIONS - A system and computer program product to externalize mobile device state migration (i.e., checkpointing) without being dependent upon any particular Edge Application (EdgeApp) proxy server or cellular network base station. In this manner, the Edge Application (EdgeApp) proxy server does not have to be aware of a migration process, yet will enable state information to be provided to other EdgeApp proxy/server nodes at the edge of the network (cell tower). | 2016-03-31 |
20160095042 | SYSTEM AND METHOD OF NETWORK BASED IP FLOW MOBILITY WITHOUT UE BASED SIGNALING - Methods apparatus and systems providing a mechanism for policy-based steering of user flows/applications via paths traversing different access networks between multi-homing user equipment (UE) and a gateway device in a manner avoiding UE signaling, wherein the UE address is the same for each path, and wherein the same flow/application paths are selected by both the UE and the gateway device in accordance with-based criteria. | 2016-03-31 |
20160095043 | APPARATUS AND METHOD FOR ACCESSING A BACK-END SERVICE - Aspects of the subject disclosure may include, for example, a first software defined network element is created in local communication with a gateway of a core network portion of a mobility network. Establishment of first logical network connection facilitated between the first software defined network element and a second network element in local communication with a remotely accessible system, such as a back-end system of an enterprise data center or cloud service provider. A request from a mobile device serviced by the mobility network is received for access to a service of the remotely accessible system. The request and/or a translation of the request is forwarded to the second network element by way of the first logical network connection. The second network element forwards the translated request to the remotely accessible system. Other embodiments are disclosed. | 2016-03-31 |
20160095044 | ACCESS OF VIRTUAL RESOURCES BASED ON A CONTEXTUAL FRAME OF REFERENCE - Aspects of the subject disclosure may include, for example, a network device that performs operations include determining a context of a communication device operable within a mobility network, wherein the communication device interacts with a virtual resource manager to allow a user of the communication device to access a virtual resource by way of a user interface at the communication device. The virtual resource is hosted by another system remotely accessible to the communication device by way of the mobility network. An access parameter is determined based on the context of the communication device and forwarded to the communication device by way of the mobility network. The communication device is enabled to access the virtual resource based on the access parameter. Other embodiments are disclosed. | 2016-03-31 |
20160095045 | WIRELESS ACCESS FOR A MOBILE TERMINAL TO FUNCTIONAL DOMAINS - A system configured to be installed in an aircraft, the system comprising a first functional domain and a second functional domain. The first and second functional domains are configured to provide a first and service, respectively. The system further comprises a wireless access point configured to be externally managed by a controller and configured to communicate with a mobile terminal. The system comprises a controller configured to communicate with the wireless access point, the first and the second functional domains, configured to control the wireless access point and configured to control wireless access of the mobile terminal to the first and second functional domains. Further, the use of such a system in an aircraft, an aircraft comprising such a system and a method of controlling wireless access of a mobile terminal to a first functional domain and a second functional domain in an aircraft are disclosed. | 2016-03-31 |
20160095046 | Method and Apparatus for Use in Network Selection - A method includes causing a user equipment to use one or more wireless local area networks based on cellular network information for a wireless cellular network indicating that a user equipment has restricted access to said wireless cellular network. | 2016-03-31 |
20160095047 | BLUETOOTH LOW ENERGY BEACON DEVICE AND ADVERTISING METHOD - A Bluetooth low energy (BLE) beacon device and a BLE advertising method are provided. The BLE advertising method includes: enabling a broadcast action with different advertising packets simultaneously, wherein the advertising packets include connectable and unconnectable advertising packets; setting advertising time information of the advertising packets; setting advertising data and an advertising packet address code; and executing the broadcast action for the advertising packets in sequence according to the advertising time information and the type of each of the advertising packets. | 2016-03-31 |
20160095048 | METHODS AND APPARATUS FOR SYNCHRONIZATION TO AND MEASUREMENTS ON UNLICENSED FREQUENCY CARRIERS - Briefly, the present disclosure is directed to methods and apparatus that allow for the synchronization with, and measurement reporting of, unlicensed frequency carriers. A method and apparatus for synchronizing to an Scell operating on an unlicensed carrier determine, at a UE ( | 2016-03-31 |
20160095049 | METHOD FOR PRESENTING LIST OF ACCESS POINTS AND DEVICE THEREOF - The present disclosure discloses a method for presenting a list of access points and a device thereof. The method includes: acquiring at least one identifiers of at least one wireless access points; determining whether at least one predetermined identifier exists among the identifiers of the wireless access points, wherein the predetermined identifier is an identifier corresponding to an accessing record stored in the terminal, and the accessing record is for indicating historical information that the terminal has ever accessed the wireless access point corresponding to the predetermined identifier; and if a result of the determining is that the at least one predetermined identifier exists, presenting the at least one predetermined identifier in the list of access points according to the accessing record corresponding to the at least one predetermined identifier. | 2016-03-31 |
20160095050 | METHODS, SYSTEMS AND COMPUTER PROGRAM PRODUCTS FOR NETWORK-CONTROLLED SELECTION OF RADIO ACCESS NETWORKS - There is provided a method of operating a wireless communication device to facilitate selection among a set of two or more radio access networks, RANs, the wireless communication device being served by one of the RANs in the set, the method comprising receiving ( | 2016-03-31 |
20160095051 | ASSISTED DISCOVERY SCANS FOR INDOOR POSITION DETERMINATION - Techniques for determining a position of a mobile device are provided. An example of these techniques is a method that includes performing a passive scan for wireless transceivers proximate to the mobile device to generate passive scan results, generating a first wireless transceiver list, comprising a first set of wireless transceivers, transmitting a request to at least one wireless transceiver from the first wireless transceiver list requesting that the at least one wireless transceiver perform a scan, generating a second wireless transceiver list comprising identifying information for a second set of wireless transceivers, proximate to the at least one wireless transceiver, measuring signals received from wireless transceivers selected from at least one of the first wireless transceiver list and the second wireless transceiver list, and determining the position of the mobile device based at least in part on the signals measured. | 2016-03-31 |
20160095052 | APPARATUS FOR CAUSING PROCESSORS TO EXECUTE A PROCESS IN A PARALLEL MANNER - An apparatus includes a memory configured to store a first program for executing a cell search process on data transmitted from another wireless device, and a second program for executing a demodulation process and/or a decoding process after the cell search process. The apparatus includes a first processor configured to execute the first program, and a second processor configured to execute the second program. The apparatus loads the first program stored in the memory in the first processor. When the first processor is requested to perform the cell search process by executing the first program, the apparatus loads the first program in the second processor, and executes the cell search process on the data in a parallel manner by causing the first and second processors to execute the first program. | 2016-03-31 |
20160095053 | Security Feature Negotiation Between Network and User Terminal - A Mobile Station (MS), a Base Station System (BSS) and a Mobile Switching Centre (MSC) of a cellular network, such as GSM, are disclosed. According to one embodiment, the MS is arranged to carry out one or more security features in its communication with the network. For example, the MS may be arranged to:
| 2016-03-31 |
20160095054 | Delivering Media Data To Portable Computing Devices - Power consumption in a portable computing device's receive-transmit subsystem is reduced when this subsystem receives streaming media data. The portable computing device receives a first portion of the media data via a first communication channel and a second portion of the media data via a second channel. The portable computing device may obtain the first portion well in advance of receiving the second portion and may use a wireless connection to receive the second portion. The portable computing device may terminate the wireless connection once the second portion has been received, thus reducing overall power consumption in wireless device. A client application on the portable computing device reassembles the media file from the first and second portions. | 2016-03-31 |
20160095055 | DSP Assisted and On Demand RF and Analog Domain Processing for Low Power Wireless Transceivers - A wireless user equipment (UE) device may include a receiver and transmitter. The UE device may dynamically vary the fidelity requirements imposed on the analog signal processing performed by the receiver and/or the transmitter in response factors such as: amount of signal interference (e.g., out-of-band signal power); modulation and coding scheme; number of spatial streams; extent of transmitter leakage; and size and/or frequency location of resources allocated to the UE device. Thus, the UE device may consume less power on average than a UE device that is designed to satisfy fixed fidelity requirements associated with a worst case reception scenario and/or a worst case transmission scenario. | 2016-03-31 |
20160095056 | Methods and Systems for Regulating Communications at a Mobile Communications Device - The present disclosure provides methods and systems for regulating communications between a mobile communications device and a plurality of communication servers with improved power consumption at the mobile communications device. Such methods and systems may use a schedule that synchronizes transmission of the communications from the mobile communications device to at least a subset of the plurality of communications servers or (ii) retrieval of the communications from at least the subset of the plurality of communications servers to the mobile communications device over a period of time. | 2016-03-31 |
20160095057 | SYSTEMS AND METHODS FOR DISTRIBUTING OFFLOAD SERVICE PROCESSING - The present disclosure relates to computer-implemented systems and methods for transmitting and receiving audio and video data. A method may include receiving, by a device including one or more processors and a radio transceiver, an indication that the device is a short-range communication second device. The method may also include determining, by a computer including one or more processors, that processing of a job associated with a first service is to be offloaded from the one or more processors. Furthermore, the method may include identifying a first device including a first offload processing component and a second device including a second offload processing component. Additionally, the method may include determining, based at least in part on first offload capability information and second offload capability information, whether to process the job via the first offload processing component or via the second offload processing component. | 2016-03-31 |
20160095058 | METHOD FOR REDUCING CURRENT CONSUMPTION AND ELECTRONIC DEVICE THEREFOR - Various embodiments of the present disclosure relate to a device and method for reducing current consumption in an electronic device. The electronic device may include a communication interface that transmits and receives a signal; and a processor that configures a multi-hop network with at least one other electronic device, and changes the transmission period of a message for a path management of the multi-hop network based on whether the multi-hop network configuration has been changed. Other embodiments are also possible. | 2016-03-31 |
20160095059 | METHODS AND SYSTEMS FOR IMPROVING WIRELESS NETWORK CAPACITY - A core network entity includes a core network entity processing circuit. The core network entity processing circuit calculates a plurality of dormancy timer adjustment parameters in response to a received service request from a user equipment, and adjusts a dormancy timer for the user equipment based on (i) at least one load condition for the wireless network, and (ii) a comparison between each of the plurality of dormancy timer adjustment parameters and a corresponding one of a plurality of dormancy timer adjustment parameter threshold values. The core network entity then outputs the adjusted dormancy timer to a base station serving the user equipment. | 2016-03-31 |
20160095060 | METHOD AND APPARATUS FOR POWER OPTIMIZED IoT COMMUNICATION - The disclosure relates to a method, apparatus and system to provide an integrated HUB for communicating with wearable devices. The exemplary devices include an Offloading engine to communicate directly with the wearable devices at reduced power and with relaxed radio specification requirement. In one embodiment, the disclosure relates to a system having one or more antennas; a platform radio to communicate with the one or more antennas; a platform processor to communicate with the platform radio; and a first logic to combine incoming data from one or more wearable sensors, the first logic configured to fuse incoming data from the one or more wearable sensors and to determine whether to awaken the host platform. | 2016-03-31 |
20160095061 | REDUCED POWER CONSUMPTION USING COORDINATED BEACON SKIPPING - In order to reduce the power consumption associated with waking and receiving beacons, a current listening device in a group of electronic devices wakes and scans for a beacon from another electronic device (such as an access point) using a wireless-local-area-network (WLAN) communication protocol (such as Wi-Fi®). Then, the current listening device transmits information associated with the beacon to the group of electronic devices using a second communication protocol (such as Bluetooth® Low Energy), which is different than the WLAN communication protocol and has a lower power consumption. Moreover, the current listening device receives, using the second communication protocol, a sequence of responses from the group of electronic devices indicating that the information was received, wherein the responses from different electronic devices are received at different times. For example, the responses may be received in a predefined order and/or in round-robin fashion for the group of electronic devices. | 2016-03-31 |
20160095062 | POWER MANAGEMENT IN DEVICE TO DEVICE COMMUNICATIONS - Systems, methods and apparatus for remotely controlling the power management of a mobile device are provided. The system, method, and apparatus may include a mobile terminal wirelessly connected to a sensor platform. The sensor platform may send a constant awake message to the mobile terminal that prevents the mobile terminal from entering a sleep mode until the sensor platform sends a release signal to the mobile terminal. | 2016-03-31 |
20160095063 | Scoring Beacon Messages for Mobile Device Wake-Up - Techniques and systems for scoring beacon messages and selectively performing mobile device wake-up on a score are disclosed. Such a technique can include receiving, at a mobile device in a first operational state, a beacon message from a beacon device over a short-range communication link; determining a score based on the beacon message and one or more criteria for causing a transition from the first operational state to a second operational state, the second operational state consumes more energy from a battery of the mobile device than the first operational state; determining whether the score exceeds a threshold for causing the transition; if the score does not exceed the threshold, maintaining the mobile device in the first operational state; and if the score exceeds the threshold, transitioning the mobile device to the second operational state and presenting the beacon message through the mobile device in the second operational state. | 2016-03-31 |
20160095064 | WIRELESS COMMUNICATION METHOD AND DEVICE - A wireless communication method is provided. The method includes sending, by a wireless communication device, a broadcast message to a terminal device. The broadcast message may include device identification information of the wireless communication device. The method may further include receiving, by the wireless communication device, a scan request message sent by the terminal device. The method may further include sending, by the wireless communication device, a scan response message to the terminal device in response to receiving the scan request message. The scan response message may include attribute data associated with the wireless communication device, and the attribute data may include identification information of content associated with a physical location of the wireless communication device. | 2016-03-31 |
20160095065 | COMMUNICATIONS DEVICE AND METHODS - A communications device establishes a communications context for communicating data packets using a packet communications bearer from the communications device via the mobile communications network. A controller of the communications device is configured to identify that the communications device can enter a stasis state because no data packets are available for transmission for a predetermined time via the packet communications bearer or there are no data packets to receive via the packet communications bearer, to transmit a stasis state message to the mobile communications network, and to store information relating to the communications context associated with the packet communications bearer in a data store. The stored information can be used by the controller to re-establish the packet communications bearer to transmit and/or receive data packets using the packet communications bearer, the communications device thereby entering the stasis state. | 2016-03-31 |
20160095066 | METHOD FOR ESTABLISHING A STRATEGY FOR SAVING THE ENERGY OF MOBILE TERMINAL BATTERIES - A battery sharing method to increase the service life of the batteries of PMR terminals having important uses, such as the terminal of the head of a group such as the police, firefighters, or the like, is disclosed. The technique is based on the detection of neighboring networks and/or neighboring nodes. The detection is facilitated by reiterating a selection (or reselection) of cells and a handover (HO)/vertical handover (VHO) procedure, while relaying and coordinating transmission and reception. The aim of the techniques is to improve communications as well as the duration thereof, in order to enable improved management of the battery of each terminal and to broaden coverage in areas that are not served by a network. | 2016-03-31 |
20160095067 | METHOD AND APPARATUS FOR BASE STATION TRANSMIT POWER ADJUSTMENT TO REDUCE POWER CONSUMPTION - A process for adjusting base station transmit power to reduce power consumption in a wireless radio system, the method includes causing, by a radio controller, a message to be transmitted on a control channel in the wireless radio system proposing a transmit power reduction with respect to a traffic channel in the wireless radio system. Subsequently monitoring, by the radio controller, one or both of the control channel and the traffic channel for an indication from a mobile station affected by the proposed power reduction that the proposed power reduction is unacceptable. And modifying, by the radio controller, as a function of the presence or absence of the indication, the transmit power of the traffic channel. | 2016-03-31 |
20160095068 | SYSTEM-WIDE UPLINK BAND GAIN CONTROL IN A DISTRIBUTED ANTENNA SYSTEM (DAS), BASED ON PER-BAND GAIN CONTROL OF REMOTE UPLINK PATHS IN REMOTE UNITS - System-wide uplink band gain control in a distributed antenna system (DAS) based on per-band gain control of remote uplink paths in remote units is disclosed. In one embodiment, for each uplink band in the DAS, a gain control system receives remote uplink band power measurements for each remote uplink path for the uplink band. Based on these power measurements, the gain control system determines if the uplink gain of all of the remote uplink paths of the plurality of uplink paths of the uplink band should be adjusted. If the uplink gain of the remote uplink paths of the uplink band should be adjusted, the gain control system directs a remote uplink gain control circuit for each remote uplink path of the uplink band to adjust the uplink gain by a defined remote uplink band gain level. | 2016-03-31 |
20160095069 | METHOD OF CONTROLLING THE TRANSMISSION POWER OF UPLINK CHANNELS AND SIGNALS AND APPARATUSES THEREOF - Provided are a method and an apparatus for a User Equipment (UE) for multiplexing at least one uplink channel and an uplink signal and for controlling the transmission power for an uplink channel and an uplink signal. A method of a UE for controlling an uplink transmission power may include setting the uplink maximum transmission power for each of a plurality of cell groups including one or more serving cells; and allocating the transmission power for an uplink channel and an uplink signal based on at least one of: the uplink maximum transmission power, a total sum of the transmission power of one or more uplink channels and an uplink signal transmitted in each of the plurality of cell groups, and the total maximum transmission power of the UE, and the uplink channel includes a PUCCH or a PUSCH, and the uplink signal includes a SRS. | 2016-03-31 |
20160095070 | METHOD AND SYSTEM FOR NETWORK ASSISTED INTERFERENCE COORDINATION AND MITIGATION - Aspects of the subject disclosure may include, for example, a system that obtains uplink parameters associated with different sectors of a wireless network where the uplink parameters are associated with uplink transmissions of a first end user device. The system can determine a differential path loss for the first end user device based on the uplink parameters where the differential path loss is between the different sectors of the wireless network. The system, responsive to a determination that the differential path loss does not satisfy a differential path loss threshold, can determine a restriction for utilization of a particular frequency and power level over a particular time period, where the determination that the differential path loss does not satisfy the differential path loss threshold can be performed without utilizing channel quality data from the first end user device. Other embodiments are disclosed. | 2016-03-31 |
20160095071 | Triggering Client Device Probing Behavior for Location Applications - In one embodiment, a wireless access point that serves at least one client device in a wireless local area network transmits frames to the at least one client device so that the frames are received by the at least one client device with a receive signal strength so as to control the transmission of probe request messages by the at least one client device. | 2016-03-31 |
20160095072 | BODY PRESENCE SENSOR CALIBRATION - Technologies for the calibration of a body presence sensor include a mobile computing device configured to calibrate the body presence sensor based on a present physical configuration mode of the mobile computing device. The mobile computing device may be adjustable into multiple physical configuration modes based on the intended use of the mobile computing device. The mobile computing device controls a transmit power level of an associated communication circuit based on whether the body presence sensor detects a body presence within proximity to the mobile computing device. | 2016-03-31 |
20160095073 | INROUTE AUTOMATIC GAIN CONTROL DETECTION OF OUTROUTE INTERFERENCE - A method and a satellite gateway for minimizing an impact of a noise floor variation in a spot beam satellite system. A demodulator processes digitized signals from multiple channels. Digitized signals are automatically gain controlled by respective automatic gain control components associated with respective channels. Automatic gain controlled digitized signals are downconverted and provided to a burst processor. The burst processor processes each downconverted signal and provides, with respect to each downconverted signal, an automatic gain control estimate, a code rate, and an inroute number to a processor component. The processor component determines an average automatic gain control value for each inroute, provides automatic gain control references to the respective automatic gain control components, and periodically sends noise map information to satellite terminals served by the satellite gateway. In some embodiments, the automatic gain control values are biased according to corresponding code rates. | 2016-03-31 |
20160095074 | SYNCHRONIZATION PROCEDURE AND RESOURCE CONTROL METHOD AND APPARATUS FOR COMMUNICATION IN D2D SYSTEM - The present disclosure relates to a 5th generation (5G) or pre-5G communication system for supporting a higher data rate in comparison to the 4G communication system, such as long term evolution (LTE). A method for a terminal to establish synchronization with another terminal in a network supporting device-to-device (D2D) communication is provided. The method includes scanning, at the terminal, for synchronization signals from at least one base station, acquiring, when a synchronization signal is received from a base station, synchronization with the base station based on the synchronization signal, measuring power of the synchronization signal received from the base station, and transmitting, when data to be transmitted are generated in idle mode and the received signal power is less than a received signal power, a synchronization signal as a synchronization relaying terminal. | 2016-03-31 |
20160095075 | SYSTEM AND METHOD FOR CLOCK SYNCHRONIZATION IN A WIRELESS BACKHAUL NETWORK USING IEEE 1588 PRECISION TIME PROTOCOL - A method and system is disclosed for clock synchronization in a wireless backhaul network, based on the IEEE1588 Precision Time Protocol (PTP). The network comprises a plurality of hubs, each hub serving one or more remote backhaul modules. Each hub comprises a slave clock, which communicates with a master clock through forward and reverse links. The method comprises, for each hub, estimating the frequency drift {circumflex over (α)} and offset {circumflex over (β)} from the forward and reverse links between the master and slave clock, estimating the accuracy of {circumflex over (α)} and {circumflex over (β)}, determining the least congested link, and adjusting the frequency of the slave clock based on {circumflex over (α)} and {circumflex over (β)} from the least congested link. A fixed or variable time window size is selected to achieve a desired accuracy of {circumflex over (α)} and {circumflex over (β)}. The method may comprise estimating a maximum holdover time for maintaining synchronization with a desired confidence level. | 2016-03-31 |
20160095076 | SYSTEM AND METHOD OF MTC DEVICE OPERATIONS - An eNodeB (eNB), user equipment (UE) and method for operating in enhanced coverage (EC) modes are generally described. The UE may receive one or more physical broadcast channel (PBCH) signals, dependent on whether the UE is in a normal coverage mode or in one of the EC modes. The PBCH signal may be combined to form a combined PBCH signal, when the UE is in an EC mode, and decoded to determine one of a plurality of sets of resource regions associated different EC modes for communication with the eNB. The signal may be scrambled using a Radio Network Temporary Identifier (RNTI) dependent on at least one of a signal type of the control signal and the EC mode. Paging and the system information block (SIB) signals in a Physical Downlink Shared Channel (PDSCH) may be decoded without decoding a physical downlink control channel (PDCCH) signal associated with the PDSCH. | 2016-03-31 |
20160095077 | NEW TDD FRAME STRUCTURE FOR UPLINK CENTRALIZED TRANSMISSION - The present disclosure relates to a wireless communication system, and more particularly to a method for transmitting synchronization channel and cell search signal in wireless communication system. Synchronization channel and cell search signal allow a terminal in a multi-layer cell supporting multiple carriers to effectively search and distinguish cells at different frequencies. To minimize terminal power consumption, new cell search signal transmission method proposes that base station connected at a frequency be used for transmitting information by other base stations at different frequencies, thereby allowing the terminal to readily recognizing neighbor cells and to determine about performing additional cell search. For the multi-layer cell to clearly distinguish cell identifications including inter-frequency measurement information, a cell ID pair between macro/small cells is proposed, achieving enhanced small cell efficiency. An uplink centralized transmission frame supports a multi-layer cell based on TDD, proposing a method for configuring synchronization signal in corresponding frame. | 2016-03-31 |
20160095078 | RING-SHAPED SYNCHRONOUS NETWORK SYSTEM AND TIME SLAVE STATION - A time slave station includes a synchronization error detecting unit that includes: a CW synchronization error detecting counter that counts a synchronization correction cycle of a transmission path in which a frame is transmitted in a first direction; a CCW synchronization error detecting counter that counts a synchronization correction cycle of a transmission path in which a frame is transmitted in a second direction; a CW synchronization-enabled time period timer that counts a CW synchronization frame reception-enabled time period; a CCW synchronization-enabled time period timer that counts a CCW synchronization frame reception-enabled time period; a CW-based synchronization error determining unit that determines whether the CW synchronization frame is received in the CW synchronization frame reception-enabled time period; and a CCW-based synchronization error determining unit that determines whether the CCW synchronization frame is received during the CCW synchronization frame reception-enabled time period. | 2016-03-31 |
20160095079 | Removing Client Devices from Association with a Wireless Access Point - A wireless access point that serves one or more wireless client devices in a wireless network determines that at least one particular client device that is associated to the wireless access point should not be associated to the wireless access point. The wireless access point transmits frames so that they are received at the particular client device with reduced strength so as to provoke the particular client device to transition from the wireless access point. | 2016-03-31 |
20160095080 | DEVICE-TO-DEVICE ASSISTED POSITIONING IN WIRELESS CELLULAR TECHNOLOGIES - The position of User Equipment (UE) may be determined based on information communicated through direct UE-to-UE communications to obtain additional measurements of position metrics that can be used to determine relative or absolute positions of the UE. In one implementation, a UE may receive, via a direct connection with a second UE, a positioning reference signal from which timing information, relating to distance between the UE and second UE, is derivable; determine, based on the positioning reference signal, a first position metric that relates to a position of the UE with respect to the second UE; and determine, based at least on position metric, a location of the UE. | 2016-03-31 |
20160095081 | Generation And Management Of Network Connectivity Information - Aspects of the disclosure relate to generation of network topology information for a network of assets, and management of such information. The management can comprise analysis and/or diagnostics of topology condition of a plurality of assets. In addition or in the alternative, the management can comprise consolidation of at least a portion of the network topology information in a data layer of the network of assets, or a network functionally coupled thereto. Integration of at least some of the network topology information with higher network layers also is disclosed. | 2016-03-31 |
20160095082 | POSITION AUTHENTICATION - A method performed under control of an electronic device may include receiving at least one signal from at least one anchor point; calculating a location of the electronic device based at least in part on the at least one received signal; generating a position proof based at least in part on the at least one received signal; and in response to receiving a position proof request from a server, transmitting the position proof to the server, when the position proof corresponds to the position proof request. | 2016-03-31 |
20160095083 | ELECTRONIC DEVICE AND METHOD FOR CONTROLLING NOTIFICATION IN ELECTRONIC DEVICE - An electronic device and a method controlling a notification are provided. The method includes determining an execution state of an application that is currently executed when an interruption occurs while the application is executed, and controlling whether to output a notification associated with the interruption based on the execution state of the application. | 2016-03-31 |
20160095084 | Incoming Call - A user apparatus in an idle mode and prioritizing a radio resource ( | 2016-03-31 |
20160095085 | SELECTING AN OPERATING MODE BASED ON USER PROXIMITY - One embodiment provides a method, comprising: detecting, using a processor, a notification at an information handling device; detecting, using a processor, availability of an input associated with an user at the information handling device; and selecting, using a processor, an operating mode of the information handling device, wherein the selected operating mode of the information handling device comprises a mode that modulates a noise. Other aspects are described and claimed. | 2016-03-31 |
20160095086 | Carrier Aggregation Secondary Component Carrier Management - This disclosure relates to management of a secondary component carrier by a wireless device when using carrier aggregation. According to one embodiment, a primary component carrier for communication between a base station and a wireless device may be configured according to a first wireless communication technology. A secondary component carrier may also be configured. The wireless device may detect a trigger condition to deactivate the secondary component carrier. In response, the wireless device may modify its feedback to the base station with respect to channel conditions for the secondary component carrier to cause the base station to deactivate the secondary component carrier. | 2016-03-31 |
20160095087 | System and Methods for Cancelling Uplink Traffic Channel Bursts to Improve Performance in a Multi-SIM Wireless Communication Device - Methods and devices are disclosed for enabling improved performance on a single-transmit multi-SIM wireless communication device. The wireless communication device may detect a voice communication on a modem stack associated with the first SIM and a data communication on a modem stack associated with the second SIM. The wireless communication device may identify a data rate used by the voice codec to encode uplink traffic channel (TCH) bursts in the voice communication, and determine whether the identified data rate used by the voice codec permits TCH burst cancellation. If it is determined that the identified data rate used by the voice codec permits TCH burst cancellation, the wireless communication device may downgrade a portion of the uplink TCH bursts scheduled on the modem stack associated with the first SIM. | 2016-03-31 |
20160095088 | METHODS AND SYSTEMS FOR MAINTAINING DOWNLINK OVERHEAD FOR DECODING - At least one example embodiment discloses a system including a network element configured to transmit a signal identifying a set of network identifiers to a victim user equipment (UE), the set including at least a first identifier and at least a second identifier, the first identifier corresponding to a descrambling of a downlink signal for the victim UE and the second identifier corresponding to a descrambling of a first interfering signal | 2016-03-31 |
20160095089 | METHODS AND SYSTEMS FOR SIGNALING DYNAMIC NETWORK ASSISTED INFORMATION TO A USER EQUIPMENT - At least one example embodiment discloses a system including a network element configured to transmit at least first downlink control information and second downlink control information to a first user equipment (UE) being served by a serving cell, the first downlink control information associated with a first identification and the second downlink control information associated with a second identification, and the second downlink control information corresponding to at least one interfering source. | 2016-03-31 |
20160095090 | STRUCTURED SUPER-POSITIONING CODING TO ENHANCE CONTROL CHANNEL CAPACITY - Systems and methods to encode and/or decode structured super-position coding to enhance control channel capacity are disclosed herein. User equipment (UE) may be configured to communicatively couple to an Evolved Universal Terrestrial Radio Access Network (E-UTRAN) Node B (eNB). A first UE and a second UE may be coupled to the eNB. Basic PDCCH may be sent to the second UE, and extra PDCCH may be sent to the first UE on the same time-frequency resource. The second UE may be able to decode the basic PDCCH as it normally does. The first UE may be able to decode the basic PDCCH for the second UE, cancel the basic PDCCH from the signal, and decode the extra PDCCH. The extra PDCCH may be restricted to certain positions relative to the basic PDCCH to simplify searching by the first UE. | 2016-03-31 |
20160095091 | ADJUSTING FREQUENCY FOR PERFORMING WIRELESS LOCAL AREA NETWORK (WLAN) MEASUREMENTS BASED ON UE MOBILITY - A method and apparatus of wireless communication in a device supporting cellular and wireless local area network (WLAN) access technologies includes adjusting a frequency for performing WLAN search and measurements based at least in part on a received timing adjustment command. | 2016-03-31 |
20160095092 | RESOURCE ALLOCATION AND USE FOR DEVICE-TO-DEVICE ASSISTED POSITIONING IN WIRELESS CELLULAR TECHNOLOGIES - Techniques described herein may provide for the determination of the position of mobile devices based on information obtained through device-to-device (D2D) discovery or communications. Resource allocation schemes are described that allow efficient communication of signal location parameters, via D2D discovery, communications or newly defined physical channels, that may be used to estimate the position (or improve position estimation) of the mobile device. | 2016-03-31 |
20160095093 | METHOD AND APPARATUS FOR CONTROLLING DATA IN WIRELESS COMMINICATION SYSTEM - A method for and apparatus for controlling data transmission in a wireless communication system is provided. A wireless device acquires information including a monitoring subframe configuration, which is a subset of subframes including that control information are transmitted; determines monitoring subframes of a cell based on the information; detects control information for the data transmission according to the monitoring subframes; and rate matches data in a corresponding subframe with the detected control information. | 2016-03-31 |
20160095094 | DOWNLINK CHANNEL DESIGN FOR LTE WITH LOW LATENCY - An example data structure for managing user equipment communications in a wireless communications system is presented, as well as methods and apparatuses configured to implement the data structure. For instance, the data structure may include a downlink subframe comprising two slots and including one or more quick downlink channels having a single-slot transmission time interval. In addition, the example data structure may include one or more resource element blocks each comprising one or more resource elements into which a frequency bandwidth is divided within one or both of the two slots, wherein each of the one or more resource element blocks comprises a control channel region or a data channel region. Furthermore, the example data structure may include one or more resource grants, located within one or more control channel regions, for one or more user equipment served by the one or more quick downlink channels. | 2016-03-31 |