Abstract: The present disclosure relates generally to a portable terminal, and more particularly, to a portable terminal and method for controlling multilateral conversation in a portable terminal. The method includes detecting an event for a one-to-one conversation with a particular person during a multilateral conversation. The method also includes activating a one-to-one conversation function in response to the detection of the event. The method further includes sending data entered to an input window to the particular person using the activated one-to-one conversation function.

Abstract: A mobile device includes a motion sensor configured to acquire motion data, a light sensor configured to detect an ambient light level and generate light data, and a processing circuit. The processing circuit is configured to receive the motion data from the motion sensor, receive the light data from the light sensor, analyze the motion data to determine displacement data corresponding to a displacement of the mobile device, analyze the light data to detect a light transition, and analyze the displacement data and the light transition to determine whether to initiate an action.

Abstract: Disclosed herein are example embodiments for local cooperation between or among portable wireless nodes. For certain example embodiments, at least one device, such as a portable wireless node: (i) may identify at least one cooperative portable wireless node to participate in an antenna assembly configuration parameter architecture; or (ii) may communicate with at least one cooperative portable wireless node to share one or more antenna assembly configuration parameters that are associated with at least one orientation position of at least one portable wireless node. However, claimed subject matter is not limited to any particular described embodiments, implementations, examples, or so forth.

Abstract: A mobile device includes a motion sensor configured to acquire motion data, a light sensor configured to detect an ambient light level and generate light data, and a processing circuit. The processing circuit is configured to receive the motion data from the motion sensor, receive the light data from the light sensor, analyze the motion data to determine displacement data corresponding to a displacement of the mobile device, analyze the light data to detect a light transition, and analyze the displacement data and the light transition to determine whether to initiate an action.

Abstract: A mobile device includes a motion sensor configured to acquire motion data, a light sensor configured to detect an ambient light level and generate light data, and a processing circuit. The processing circuit is configured to receive the motion data from the motion sensor, receive the light data from the light sensor, analyze the motion data to determine displacement data corresponding to a displacement of the mobile device, analyze the light data to detect a light transition, and analyze the displacement data and the light transition to determine whether to initiate an action.

Abstract: Disclosed in some examples is a user-equipment including a transceiver; one or more processors configured to: provide a first mobile personality associated with a first mobile application executing on the one or more processors; provide a second mobile personality associated with a second mobile application executing on the one or more processors; and provide a first virtual mobile device associated with the first mobile personality and a second virtual mobile device associated with the second mobile personality, wherein the first and second virtual mobile devices provide independent connectivity to the first and second mobile applications via the transceiver.

Abstract: Configuring a mobile wireless communication device using a carrier service configuration profile selected from a set of stored carrier service configuration profiles. Carrier service configuration profiles are selected based on one or more combinations of identifier values stored in the mobile wireless communication device. Carrier service configuration profiles are priority ranked based on a specificity of the one or more combinations of identifier values.

Abstract: The present invention discloses a method and a device for implementing multi-cell service on a base station device, and relates to the communications field. The base station device includes at least two base station function entities, a base station function entity provides service to one or more cells and the base station function entity corresponds to a global identifier. The method further includes creating, by the base station device, a communication interface with a network node by using the global identifier. Data from the network node is received at the base station device by using the communication interface. The data is sent by the network node according to the global identifier of the base station function entity. The data is forwarded to the base station function entity corresponding to the global identifier of the base station function entity.

Abstract: Messages received by a mobile device can be processed in one of at least two modes. In the normal mode, the messages are handled in accordance with the normal settings of the mobile device. In the filtered mode, or “night-time” mode, incoming messages are examined to determine if they are to be filtered or if they are exempt from filtering. If a message is exempt from filtering, it is processed in accordance with the normal mode. However, if the message is to be filtered, the mobile device is prevented from providing normal message reception alert notifications. Messages can be identified as being exempt to being filtered by editing an address book or selecting entries from an address book. All messages not identified as exempt then get filtered.

Abstract: Disclosed herein are example embodiments for facilitating wireless communication in conjunction with orientation position. For certain example embodiments, at least one device, such as a fixed node: (i) may obtain one or more antenna assembly configuration parameters that are associated with at least one orientation position of at least one portable wireless node; or (ii) may manage one or more antenna assembly configuration parameters that are associated with at least one orientation position of at least one portable wireless node. However, claimed subject matter is not limited to any particular described embodiments, implementations, examples, or so forth.

Abstract: Methods, systems, and apparatus for controlling audio signal processing are described herein. In accordance with certain embodiments, a measure of coupling between at least one microphone and one speaker associated with an audio device is obtained. The measure of coupling may be used to control audio signal processing, such as sidetone generation and application of multi-channel decorrelation to the audio signal.

Abstract: A programmable cellular telephone device includes a programmable interface for establishing a wireless communications link with at least one monitored technical device, and a processing module for authenticating wireless transmissions sent from a programming transmitter by determining if at least one transmission contains a coded number. The device is configured to use memory to store a telephone number or IP address included within the transmission(s) if the processing module authenticates the transmission(s) by determining that the transmission includes the coded number. The stored telephone numbers/IP addresses are numbers to which the device is configured to and permitted to send outgoing wireless transmissions. The device also communicates with a remote data monitoring device and/or sends data to/receives data from an Internet web page. The device processes data received from a monitored technical device, displays the processed data, and/or to transmits the data to an Internet web page.

Abstract: A REC device of a base station includes a switch instructing unit and an extension signal processor. The switch instructing unit monitors the state of the REC device, and based on a result of the monitoring, determines switching from the REC device to an extension REC device. When the switching is determined, the extension signal processor acquires a signal transmitted from the extension REC device, and requests the switching from the extension REC device. The extension REC device includes an extension signal processor and a digital processor. The extension signal processor receives the switch request from the extension signal processor of the REC device. In response to the received switch request, the digital processor sets the parameters of the REC device in the extension REC device, and establishes a link to a RE.

Abstract: The present invention is provides towards a method and system for facilitating roaming tests for an operator in a telecommunication network. The method includes detecting a location update message of a subscriber to an HLR while switching from a first MSG/VLR to a second MSG/VLR, The method further includes holding by a value added module, a cancel location message being sent from the HLR to the first MSG/VLR. The method further includes conducting the roaming tests by the value added module, using the subscriber's profile data obtained from the first MSG/VLR. Further in the method the value added module releases the cancel location message to the first MSC/VLR.

Abstract: In a control apparatus, a network IF acquires position information of a terminal that exists in both of a macro cell and a small cell, and position information of a terminal that exists in the macro cell. A control unit then identifies the terminal that exists in a peripheral area including an area corresponding to the small cell based on the position information of the terminals. The control unit then notifies the identified terminal of a control signal that starts cell search about the small cell through the macro cell.

Abstract: Embodiments describe methods, apparatuses and logic for a user equipment (UE) to connect to an access point (AP) in a wireless local area network (WLAN) based on credentials from a UE's home third generation partnership project (3GPP) network. In some embodiments, the UE may receive selection policy parameters from the WLAN including a network access identifier (NAI) realm. The UE may also receive selection policy parameters from the 3GPP network. The UE may compare the selection policy parameters of the WLAN with the selection policy parameters of the 3GPP network and discover roaming relationships between service providers and the relative priorities of different networks, and create a network list based on the comparison. The UE may then associate with an AP of the WLAN based on the prioritized network list.

Abstract: A method comprising detecting closed subscriber group (CSG) proximity based on an autonomous search function; signaling a proximity indication to a network, wherein the proximity indication includes at least one priority of at least one allowed neighbor CSG cell. A method comprising, performing measurements on neighboring CSG cells; and generating a measurement report including measurements of at least one neighboring CSG cell; and transmitting a message including a measurement report and a CSG priority for at least one CSG cell.

Abstract: Embodiments of the present invention provide a new way for a UE to autonomously indicate to the network from which transmission points (TPs) it is able to receive certain broadcast signals. As an example, by receiving in a broadcast signal in the form of a synchronization sequence, the physical identity of a particular TP, a UE infers when it should, if it wishes, send on an UL an indication of its ability to receive the broadcast signal from that TP—i.e., an indication of its presence in the coverage of the TP. The network is then able to take suitable action in response to this, such as adjusting network coverage, enabling or disabling other broadcast channels and controlling paging.

Abstract: Handling conflicts between radio access technologies (RATs) in a device configured to operate according to multiple RATs. The device may be operated in a discontinuous reception (DRX) mode according to each of a first RAT and a second RAT using a shared radio. It may be determined that a conflicting wakeup time is scheduled according to DRX cycles of the first and second RATs. The radio may be operated according to the first RAT at the conflicting wakeup time. The second RAT may not use the radio at the conflicting wakeup time. A next wakeup time for the second RAT may be determined from multiple possible next wakeup times. The radio may be operated according to the second RAT at the determined next wakeup time.

Abstract: Methods and network nodes (110, 112), serving a user equipment (120), for deciding if a handover request of the user equipment (120) is to be sent to a candidate target network node (130-1, 130-2, 130-3). The methods comprise acquire (603) data-rate performance of a wireless link between the network nodes (110, 112) and the user equipment (120). The data-rate performance is compared (606) with a data-rate performance threshold value. If the acquired data-rate performance is lower than the data-rate performance threshold value, it is decided (607) to send the handover request of the user equipment (120) to the candidate target network node (130-1, 130-2, 130-3).

Abstract: A measuring method and device before different-frequency handover of a user terminal is provided. The measuring method before different-frequency handover of a user terminal in this embodiment comprises: receiving spectrum information from a non-serving base station, the spectrum information comprising the receiving power of the non-serving base station, and the receiving power of the non-serving base station being the intensity of a sending signal of the user terminal received by the non-serving base station, which is measured by the non-serving base station; obtaining the transmitting power of the user terminal; and when it is judged that the difference between the transmitting power of the user terminal and the receiving power of the non-serving base station is less than a preset threshold, sending a measurement instruction to the user terminal so as to indicate the user terminal to measure the non-serving base station.

Abstract: A communication system in which a transferring unit are configured for transferring at least one information element from a first base station to a second base station. In one embodiment, the information element is sent internally to a communication apparatus including the first and second base stations or externally via a communication node external to the apparatus. In one embodiment, the information element is sent between the two base stations via a communication node of a communication network.

Abstract: A method includes receiving, by a first base station, a request for a service from the user equipment, determining a needed capacity for the requested service, and determining a need to use capacity being provided by a second base station based on the needed capacity for the requested service. The method includes handing over the user equipment from the first base station of the first cell to the second base station of the second cell. The method also includes handing over the user equipment back from the second base station of the second cell to the first base station of the first cell in response to an end of the need to use capacity being provided by the second base station.

Abstract: Systems, methods, and instrumentalities are disclosed that may provide for a WTRU to perform measurements in order to avoid radio link failure that may occur because the WTRU's neighboring cells are, or include, CSG cells. For example, thresholds may be implemented to compensate for the presence of CSG cells, a WTRU may make adjustments when performing measurements, etc.

Abstract: Systems and methods for switching a voice call from an Instant Messaging (IM) based voice network to a second voice network. A telephone adapted to switch a voice call from an Instant Messaging (IM) based voice network to a second voice network.

Abstract: Methods and apparatus for wireless communication include monitoring, by a user equipment, a signal quality value from at least one of a serving cell or a target cell. The methods and apparatus further include determining, at an expiration of an internal time to trigger (TTT) less than a network-configured TTT, that at least one of the signal quality value from the serving cell is below a serving cell threshold value, or the signal quality value from the target cell is above the signal quality of the serving cell by a comparative threshold value. Moreover, the methods and apparatus include triggering generation of a measurement report based on the determination.

Abstract: A scheme to identify the uplink border between two neighbouring cells (10, 20) in an LTE-based heterogeneous network, especially one Macro cell (10) and another Small Cell (20). A trigger event is configured for a connected mode UE (1) such that the UE is triggered to send the measurement report about the neighbouring cell (20) when the condition “neighbour is offset better than Pcell on UL” is fulfilled. Such a measurement report can be used by the current serving eNB (11) to decide whether one or more neighbouring cells (20) should be activated or handed-over to, and/or whether certain information should be sent to one or more neighbouring eNBs (21) so that they can start monitoring the uplink connection quality of the UE. In particular it is possible to offload at least part of the UE's uplink traffic from the serving cell (10) to a neighbour cell (20).

Abstract: A cell information transmission/reception method and an apparatus are provided for use in a wireless communication system. A cell information transmission method of a base station in a wireless communication system according to the present disclosure includes transmitting, by the base station, system information to a terminal, the system information including a neighbor cell list having at least one cell Identifier (ID), and transmitting, by the base station, cell information on at least one cell selected according to a predetermined rule based on the neighbor cell list to the terminal.

Abstract: The invention concerns a method of evaluating by a user equipment a need for handover between cells in a cellular network, comprising a step (S1) of estimating a risk (R) of making an ineffective handover, and when said estimated risk (R) is above a threshold (S), a step (S2) of changing the value of at least one handover trigger parameter so as to reduce, for given handover attractiveness parameters respectively received from cells, the future rate of handover to be made by user equipment.

Abstract: An operating method, a base station, and terminal of a cell of a first communication system for a handover between the first communication system and a second communication system are provided.

Abstract: The present invention relates to a method, a base station, and a terminal for obtaining a moving speed of a mobile terminal. A moving speed of a mobile terminal is obtained by obtaining a distance estimation parameter and using the distance estimation parameter, or a moving speed of a mobile terminal is obtained according to information reported by the mobile terminal, or a moving speed of a mobile terminal is received from another base station, so as to enable a base station to learn the moving speed of the mobile terminal and therefore avoid the problem of call drop caused by slow handover because of a fast moving speed of a mobile terminal.

Abstract: In a cellular telecommunications network, a mobile communication system to offload data traffic from base stations to small-node devices, includes a radio base station, a plurality of small-node devices, a macro-base-station-to-the-small-node-device (BS2D) communication section configured to receive a first control-plane message from the radio base station over a BS2D communication link, a small-node-device-to-user-equipment (D2UE) communication section configured to transmit user-plane data to a user equipment over a wireless D2UE communication link established responsive to the first control-plane message, and a center small-node device.

Abstract: A system and method that differentiates between Machine-to-Machine (M2M) traffic and User Equipment (UE) traffic when scheduling radio Resource Units (RUs) to M2M terminals and UEs in a Long Term Evolution (LTE) network. Prior to allocation of RUs, the available RUs are divided into two disjoint sets—a UE-specific set (dedicated for UE users) and an M2M-specific set (dedicated for M2M terminals). A hybrid scheduler allocates RUs to M2M terminals from the M2M-specific set only. Any unallocated RUs from the M2M-specific set and the RUs assigned to the UE-specific set are then allocated to the UEs. New M2M-specific Quality of Service Class Indicators (QCIs) are defined as well for classifying M2M traffic only. These new QCIs are disjoint from the existing QCIs, which classify the UE traffic only. The M2M-specific QCIs separate M2M traffic classification from UE traffic classification so as not to impact UE human users' Quality of Experience (QoE).

Abstract: A SON element which is operative to carry out at least two different SON functions is provided, wherein each of the SON functions is associated with at least one SON related action, and wherein a SON related action, initiated by triggering a SON function, would have been adversely affected by another SON related action, initiated by triggering another SON function, had the SON element not affected a modification in operating conditions of the cellular network, wherein the SON element is operative to: (a) assign priorities to the different SON functions; (b) assign different weights to the SON related actions; and (c) coordinate execution of SON related actions, that when executed are carried out in a way that does not breach the priorities hierarchy and the weights' order assigned to the SON related actions, thereby improving operation of the cellular network.

Abstract: Systems and methods are provided that may reduce the battery consumption footprint of a user equipment (UE) in a communications network, such as an LTE network, as well as reduce over the air signaling over the LTE network, and reduce call set-up latency for circuit switched fallback (CSFB) calls. When Idle Mode Signaling Reduction (ISR) is active in the communications network, and when the coverage area of the communications network, such as the LTE network, overlaps with the coverage area of one or more legacy radio access technology (RAT) networks, such as 2G and 3G networks, a module within the UE allows the UE to directly establish a CSFB call over one of the legacy RAT networks instead of initially servicing the CSFB call over the LTE network.

Abstract: Embodiments of the present invention provide a wireless transmission method, an access point, and a station. The method includes: sending, by the access point, a first message to a first station, where the first message includes a channel service period allocated by the access point to the first station, and the first message is used to indicate that the first station sends data to a relay station of the first station in the channel service period; and receiving, by the access point, the data from the relay station of the first station.

Abstract: A method including configuring one or more reference signals and/or channels in a carrier bandwidth including one or more physical resource units; and causing information on the configuration of said one or more reference signals and/or channels to be provided to another base station using a same or overlapping carrier bandwidth.

Abstract: A data communication method, a communication system, and related devices are configured to establish a transaction identifier (TI) in a user equipment (UE). The data communication method includes the following steps. A mobility management entity (MME) receives a request message and obtains ability information of the UE. If the UE has an ability to access a Universal Terrestrial Radio Access Network/GSM/EDGE Radio Access Network (UTRAN/GERAN), the MME generates the TI. A communication system and related devices are also provided. Thus, the TI is effectively established in the UE, so as to ensure normal processing of the UE.

Abstract: A method for detecting a primary synchronization is provided. The method includes: obtaining a time-domain signal sequence for synchronization; obtaining a correlation result corresponding to the time-domain signal sequence; normalizing the correlation result according to a received signal strength indicator corresponding to the time-domain signals; and sorting the normalized correlation result to ascertain a peak value position corresponding to the correlation result.

Abstract: The present invention relates to a method of configuring a user equipment-based communication area in a cloud radio access network environment and an apparatus therefor. As one embodiment of the present invention, a method of performing a communication, which is performed by a user equipment (UE) in a cloud radio access network environment includes the steps of generating an RRU list based on signal strength of downlink signals received from each of one or more RRUs (remote resource unit), setting a UE-based communication area in a manner of transmitting the RRU list to a BBU (base band unit) via a first RRU among the one or more RRUs and establishing an RRC connection with a second RRU within the UE-based communication area.

Abstract: Various embodiments provide for systems and methods of backhaul optimization. An exemplary system comprises a plurality of low power cells and a connector node. The connector node may be in communication with the plurality of low power cells. The connector node may be configured to receive demands from each of the plurality of low power cells. Each of the demands may indicate a demand at a predetermined time. The connector node may be further configured to determine a rate for each of the plurality of low power cells based on the demands of each of the low power cells and the assigned rate of the other of the plurality of low power cells. The connector node may be further configured to allocate capacity based on the determined rates.

Abstract: The present disclosure relates to computer-implemented systems and methods for wireless communication in radar transmission channels. The method may include receiving, by a first computer comprising one or more processors from a second computer, a request to initiate wireless communication, the first computer in communication with a wireless access point. Additionally, the method may include determining, by the first computer, that the wireless access point is communicating in a radar transmission channel. Further still, the method may include establishing wireless peer-to-peer communication between the first computer and the second computer in the radar transmission channel.

Abstract: Embodiments disclosed herein provide systems and methods for augmenting call data information to determine a location of a wireless communication device. In a particular embodiment, a method provides receiving wireless signals transmitted from a plurality of base stations and determining signal strengths for at least some of the wireless signals. The method further provides identifying at least three geographically diverse ones of the base stations having signal strengths that satisfy a location-determination strength threshold. The method further provides transmitting base station identifiers and associated signal strengths for the geographically diverse base stations.

Abstract: Methods, apparatus, and computer program products for determining a position of a mobile device in a network service area are described. An example of a method for determining the position of the mobile device includes receiving a positioning request for the position of the mobile device and, in response to receiving the positioning request, receiving signal characteristic measurements, estimating an a priori mobile device position area based on the signal characteristic measurements, determining a selected AD model, and determining the position of the mobile device using the selected AD model.

Abstract: Systems and methods with automatic radius cross notification for a GPS tracker are provided. Some methods can include receiving user input requesting a dynamic creation of a geo-fence, and, responsive thereto, creating the geo-fence. Some methods can include determining when a GPS tracker device has been stationary for a predetermined period of time, and responsive thereto, dynamically creating a geo-fence.

Abstract: Disclosed system and method enable a location-unaware device to know its approximate location by wirelessly near-field coupling it to a geo-proximate location-aware device such as a Global Navigation Satellite System—(GNSS)-enabled mobile phone. The geo-location data are conveyed in accordance with a predefined signaling protocol. Request and response mechanisms within the devices take the form of predefined data packets that convey geo-location and the devices' unique identification (ID) information.

Abstract: Embodiments of the invention address how trilateration processes, used to obtain a location of a mobile computing device, are affected by physical placement and sub-optimal selection of peer devices (PDs). Embodiments of the invention describe processes for selecting nearest PDs over further PDs, as received signal strength indicator (RSSI) measurements are more reliable—i.e., said “nearest PDs” provide more accurate distance measurements while improving the probability of finding more intersection points. Embodiments of the invention selectively utilize abnormal location poll data when executing location determination processes. Embodiments of the invention further enhance trilateration processes by utilizing dampening values for calculated location poll data.

Abstract: Some demonstrative embodiments include devices, systems and/or methods of estimating a location of a mobile device. For example, an apparatus may include a wireless communication unit to communicate Time of Flight (ToF) accuracy information corresponding to a location area. The ToF accuracy information may include at least one accuracy indicator corresponding to at least one wireless communication device. The accuracy indicator may indicate an accuracy of a ToF measurement at the location area with the wireless communication device.

Abstract: A portable device includes: a memory; and a processor coupled to the memory and configured to determine whether to perform a process of acquiring information from an external device, based on values of a plurality of indices related to movement of the portable device acquired at different points in time.

Abstract: Embodiments of the present invention provide a positioning method, a positioning server, a terminal and a base station. The positioning method includes: notifying a terminal of difference threshold information; receiving cell subset information that is determined by the terminal according to the difference threshold information, where the cell subset information is used to indicate a cell pair whose reference signal measured value exceeds the difference threshold, or the cell subset information is used to indicate a cell pair whose reference signal measured value does not exceed the difference threshold; determining a configuration of a PRS according to the cell subset information, and notifying the terminal of the configuration of the PRS; and receiving an RSTD that is obtained by the terminal through measurement according to the configuration of the PRS, and determining a location of the terminal according to the RSTD.