| 18th week of 2016 patent applcation highlights part 70 |
| Patent application number | Title | Published |
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| 20160127003 | INTEGRATED TWO DIMENSIONAL ACTIVE ANTENNA ARRAY COMMUNICATION SYSTEM - A base station (BS) capable of communication with a number of transmission points includes a processor configured to control a beamforming transmission or reception and an integrated antenna array system. The integrated antenna array system includes a baseband signal processing unit configured to perform baseband functions and disposed between the two sections. The integrated antenna array system also includes a plurality of physical antenna elements disposed in groups. Each of the groups includes an equal number of the plurality of physical antenna elements. The plurality of physical antenna elements are disposed symmetrically around the baseband signal processing unit. | 2016-05-05 |
| 20160127004 | Fast Calibration - A computer implemented method of calibrating a device comprising the steps of: deriving an analytic expression for a variable to be optimised of the device in terms of at least one parameter of the device, transforming the analytic expression into polynomial form of the at least one parameter of the device, the polynomial form comprising N coefficients, capturing at least N samples of a value of the variable from the device under calibration, each sample being a result of a different independent pre-determined value of the at least one parameter, applying the captured variable values and the corresponding at least one parameter values to the polynomial form, obtaining optimal values of the at least one parameter from the applying step to calibrate the device. | 2016-05-05 |
| 20160127005 | SIGNAL TRANSCEIVER - A signal transceiver is provided. The signal transceiver includes: signal convert circuit adapted to convert single-ended signals into differential signals; first power amplifier; receiving amplifier; impedance convert circuit; first capacitive circuit; second capacitive circuit; and first switch circuit; wherein output terminals of the signal convert circuit are connected with output terminals of the first power amplifier and first set of terminals of the first capacitive circuit; second set of terminals of the first capacitive circuit is connected with first set of terminals of the impedance convert circuit; second set of terminals of the impedance convert circuit is connected with input terminals of the receiving amplifier and first set of terminals of the second capacitive circuit; second set of terminals of the second capacitive circuit is connected with first set of terminals of the first switch circuit; and second set of terminals of the first switch circuit is connected to ground. | 2016-05-05 |
| 20160127006 | Arbitrator for Multi-Radio Antenna Switching - A user equipment device (UE) may be configured to collect first performance information from antennas of a first plurality of antennas. The first plurality of antennas may be coupled to a first radio of the UE that may be configured to perform wireless communications according to a first RAT. The UE may determine, based on at least the first performance information, a highest performing antenna of the first plurality of antennas to use for communications according to the first RAT. Additionally, the UE may determine, also based on at least the first performance information, a first antenna of a second plurality of antennas to use for communications according to a second RAT. The second plurality of antennas may be coupled to a second radio of the UE that may be configured to perform wireless communications according to the second RAT. | 2016-05-05 |
| 20160127007 | Wi-Fi Adaptive Transmit Antenna Selection - Wireless communication devices (UEs) may include multiple receive (RX) chains and associated antennas, and at least one transmit (TX) chain co-located with one of the RX chains. The UE may track instant fading of the antenna gain(s) during reception of packets from an associated access point (AP) device to which the UE intends to transmit packets. The UE may also track long term antenna gain(s), using any packets received at the multiple RX chains within the UE. At a switching occasion, a decision is made by the UE whether to switch antennas. If the instant fading detection is based on packets received no later than a specified time period prior to the switching occasion, then the UE may make the switching decision based on the results of the instant fading tracking. Otherwise, the UE may make the switching decision based on the results of the long term antenna gain tracking. | 2016-05-05 |
| 20160127008 | DYNAMIC SWITCH CONTROLLER - Radio-frequency (RF) modules are disclosed comprising an RF input port, an RF output port and an RF core configured operate in each of a plurality of operational states, the plurality of operational states including a first subset of operational states and a second subset of operational states. The RF module or device includes a decoder configured to receive an input signal indicating a first operational state of the RF core, the first operational state being of the first subset, generate an output control signal corresponding to the first operational state, detect a transition of the RF core to a second operational state, determine that the second operational state is of the second subset, and insert an intermediate output signal corresponding to an intermediate operational state of the RF core in response to said determination. | 2016-05-05 |
| 20160127009 | PRE-DISTORTION OF RECEIVE SIGNAL FOR INTERFERENCE MITIGATION IN BROADBAND TRANSCEIVERS - A broadband transceiver includes an input to receive an RF signal, an output to output an RF transmit signal, a receiver section coupled to the input, and a transmitter section coupled to the output. A processor coupled to the receiver section and the transmitter section determines and generates an inverse waveform that will result in attenuation of undesired portions of a received RF signal when summed with the received signal, including optionally at one or more of an RF stage and an IF stage. A summing junction coupled between the processor and receiver section sums the inverse waveform with the received signal. | 2016-05-05 |
| 20160127010 | PREDICTIVE RECOMMENDATION ENGINE - Systems and methods for alerting a user device when an objective is mastered according to a piecewise Gaussian distribution updated according to a Bayesian method are disclosed herein. The system can include a user device having a network interface to exchange data with a server via a communication network, and an I/O subsystem to convert electrical signals to user interpretable outputs user interface. The system can include a server that can: receive a response from the user device; identify a user associated with the response; receive user attribute data; identify a next objective; provide a data packet from the aggregation of data packets to the user via the user device; receive a response from the user device; update the user attribute data according to a Bayesian method; and generate and provide an alert to the user device. | 2016-05-05 |
| 20160127011 | INDUCTIVE COUPLING FOR BATTERY SHARING AND MULTI-FUNCTION INDUCTIVE ANTENNA - A mobile device includes a housing and an antenna. The mobile device further includes a power-receiving circuit, and power-transmitting circuit, and a short-range communications circuit. The antenna performs multiple functions in that it is shared by the power-receiving circuit, the power-transmitting circuit and the short-range communications circuit. Each of the three circuits is selectively connectable to the antenna. The mobile device is configured to participate in a mobile-to-mobile battery-charge-sharing operation via inductive coupling from mobile device to mobile device. | 2016-05-05 |
| 20160127012 | TECHNIQUES FOR FILTERING MULTI-COMPONENT SIGNALS - Techniques are described herein for filtering and/or otherwise isolating or extracting components of multi-component signals. More specifically, embodiments of the present disclosure describe techniques for filtering and/or otherwise extracting a continuous wave component (or wireless power component) and a modulated data component from a multi-component signal. In some embodiments, the techniques describe systems, apparatuses and methods for filtering and/or otherwise isolating or extracting a frequency (e.g., modulated data component) from a continuous wave (e.g., wireless power component) without affecting the levels of other frequencies. The individual components or signals can be transmitted by one or more sources and received at one or more existing antennas of an electronic device simultaneously. | 2016-05-05 |
| 20160127013 | NEAR FIELD RF COMMUNICATOR AND TIMING APPARATUS - A near field communications (NFC) device is disclosed that detects an envelope of a radio frequency (RF) signal. The NFC device includes a peak detector that determines the envelope of the RF signal. The peak detector compares a first differential signal voltage to a second differential signal voltage. The peak detector delays a rising edge of a first differential signal and provides the first differential signal voltage to the peak detector output when the first differential signal voltage is greater than the second differential signal voltage. The peak detector delays a falling edge of a second differential signal and provides the second differential signal voltage to the peak detector output when the second differential signal voltage is greater than the first differential signal voltage. | 2016-05-05 |
| 20160127014 | DIVERSITY RECEIVER FRONT END SYSTEM WITH PHASE-SHIFTING COMPONENTS - Diversity receiver front end system with phase-shifting components. A receiving system can include a controller configured to selectively activate one or more of a plurality of paths between an input of the receiving system and an output of the receiving system. The receiving system can further include a plurality of amplifiers, each one of the plurality of amplifiers disposed along a corresponding one of the plurality of paths and configured to amplify a signal received at the amplifier. The receiving system can further include a plurality of phase-shift components, each one of the plurality of phase-shift components disposed along a corresponding one of the plurality of paths and configured to phase-shift a signal passing through the phase-shift component. | 2016-05-05 |
| 20160127015 | DIVERSITY RECEIVER FRONT END SYSTEM WITH FLEXIBLE ANTENNA ROUTING - Diversity receiver front end system with flexible antenna routing. A receiving system can include a plurality of amplifiers. Each one of the plurality of amplifiers can be disposed along a corresponding one of a plurality of paths between an input of the receiving system and an output of the receiving system. Each one of the plurality of paths can correspond to a different frequency band. The receiving system can include an input multiplexer configured to receive, at one or more of a plurality of input multiplexer inputs, one or more RF signals. Each one of the one or more RF signals can include one or more frequency bands. The input multiplexer can be configured to output each of the one or more RF signals to one or more of a plurality of input multiplexer outputs. The receiving system can include a controller configured to receive an antenna configuration signal and, based on the antenna configuration signal, control the input multiplexer to route each of the one or more RF signals to propagate along one or more of the plurality of paths corresponding to the one of more frequency bands of the RF signal. | 2016-05-05 |
| 20160127016 | UPLINK DIVERSITY AND INTERBAND UPLINK CARRIER AGGREGATION IN FRONT-END ARCHITECTURE - Uplink diversity and interband uplink carrier aggregation in front-end architecture. In some embodiments, a radio-frequency (RF) front-end architecture can include a first transmit/receive (Tx/Rx) front-end system configured to operate with a first antenna, and a second Tx/Rx front-end system configured to operate with a second antenna. The second Tx/Rx front-end system can be a substantial duplicate of the first Tx/Rx front-end system to provide, for example, uplink (UL) diversity functionality and UL multiple-input-and-multiple-output (MIMO) functionality. | 2016-05-05 |
| 20160127017 | Configurable Receiver Architecture for Carrier Aggregation with Multiple-Input Multiple-Output - A wireless communication system and method that includes configurable Carrier Aggregation (CA) and/or Multiple-input Multiple-output (MIMO) operational modes. In CA, multiple carriers (i.e., channel bundling) are aggregated and jointly used for transmission to/from a single terminal. Downlink inter-band carrier aggregation increases the downlink data rates by routing two signals, received in different frequency bands, simultaneously to two active receivers in the RF transceiver. MIMO utilizes two additional receivers as diversity paths and the frequency generation can be shared between main and diversity path for each carriers. | 2016-05-05 |
| 20160127018 | CODEBOOK RESTRICTION - Systems and methods for codebook restriction for closed-loop codebook-based precoding in a Multiple-Input-Multiple-Output (MIMO) wireless communications system based on antenna correlation are disclosed. In some embodiments, a method of operation of a wireless device to provide feedback for a closed-loop codebook-based precoding system is provided. The method comprises determining a codebook restriction based on an antenna correlation for a MIMO channel between a network node and the wireless device. The antenna correlation is transmit antenna correlation, receive antenna correlation, or both transmit and receive antenna correlation. The codebook restriction is a restriction that reduces a full codebook of the wireless device to a reduced codebook. The method of operation of the wireless device further comprises generating a feedback report using the reduced codebook and transmitting the feedback report to the network node. By generating the feedback report using the reduced codebook, complexity is substantially reduced. | 2016-05-05 |
| 20160127019 | Unsolicited Channel Sounding in a Wireless Local Area Network - A transceiver for a wireless local area network (WLAN) and the transceiver including a sounding feedback module and a sounding feedforward module. The sounding feedback module is responsive to an explicit sounding from a transmitting one of the nodes to send feedback of multiple-input multiple-output (MIMO) channel state information (CSI) derived from the channel sounding to the transmitting one of the nodes for improving subsequent transmissions. The sounding feedforward module is configured to monitor changes in CSI since the last explicit sounding based on CSI determined from the subsequent transmissions of the transmitting one of the nodes and responsive to a determination of a change in CSI above a threshold amount, to feedforward to the transmitting one of the nodes indicia of the change in CSI. | 2016-05-05 |
| 20160127020 | METHODS AND APPARATUS FOR ACKNOWLEDGING MULTIPLE USER UPLINK TRANSMISSIONS - Methods and systems for acknowledging multi-user transmissions on a wireless network include receiving a multi-user transmission comprising a first message from the first device and a second message from the second device, generating a first media access control protocol data unit, the first media access control protocol data unit acknowledging the first message and including a destination address field identifying the first device, generating a second media access control protocol data unit, the second media access control protocol data unit acknowledging the second message and including a destination address field identifying the second device, generating an aggregated media access control protocol data unit (A-MPDU) comprising the first media access control protocol data unit (MPDU) and the second media access control protocol data unit (MPDU); and transmitting the aggregated media access control protocol data unit (A-MPDU) on the wireless network. | 2016-05-05 |
| 20160127021 | METHOD AND APPARATUS FOR TRANSMITTING UPLINK SIGNALS USING MULTI-ANTENNA - A method and apparatus for allowing a UE to transmit uplink signals using a MIMO scheme are disclosed. In order to maintain good Peak power to Average Power Ratio (PAPR) or Cubic Metric (CM) properties when the UE transmits uplink signals using the MIMO scheme, the UE uses a precoding scheme based on a precoding matrix established in a manner that one layer is transmitted to each antenna in specific rank transmission. | 2016-05-05 |
| 20160127022 | METHOD AND APPARATUS FOR TRANSMITTING UPLINK SIGNALS USING MULTI-ANTENNA - A method and apparatus for allowing a UE to transmit uplink signals using a MIMO scheme are disclosed. In order to maintain good Peak power to Average Power Ratio (PAPR) or Cubic Metric (CM) properties when the UE transmits uplink signals using the MIMO scheme, the UE uses a precoding scheme based on a precoding matrix established in a manner that one layer is transmitted to each antenna in specific rank transmission. | 2016-05-05 |
| 20160127023 | NODE IN A WIRELESS COMMUNICATION SYSTEM WHERE ANTENNA BEAMS MATCH THE SECTOR WIDTH - The present invention relates to a node in a wireless communication system (W), the node comprises an antenna arrangement with at least three physical antenna elements and a first beam-forming network. Each physical antenna element has a corresponding physical phase center and antenna port. The physical phase centers are separated by corresponding physical distances, and the physical antenna ports are connected to the first beam-forming network. The first beam-forming network is arranged to transform said physical antenna ports to at least two virtual antenna ports which correspond to virtual antenna elements. Each virtual antenna element has a certain virtual phase center where the virtual phase centers are separated by corresponding virtual distances, where the physical distances differ from the virtual distances. | 2016-05-05 |
| 20160127024 | BASE STATION, COMMUNICATION CONTROL METHOD, AND PROCESSOR - In a mobile communication system that supports downlink multi-antenna transmission, a base station managing a cell receives beamforming control information fed back from each of a plurality of beamforming target terminals connected to the cell, and null steering control information fed back from a null steering target terminal. When there exists no beamforming target terminal that feeds back the beamforming control information that coincides with the null steering control information, the base station selects, as a pair terminal, a beamforming target terminal that feeds back the beamforming control information containing a predefined rank indicator. | 2016-05-05 |
| 20160127025 | DIVERSITY RECEIVER FRONT END SYSTEM WITH POST-AMPLIFIER FILTERS - Diversity receiver front end system with post-amplifier filters. A receiving system can include a controller configured to selectively activate one or more of a plurality of paths between an input of a first multiplexer and an output of a second multiplexer. The receiving system can further include a plurality of amplifiers. Each one of the plurality of amplifiers can be disposed along a corresponding one of the plurality of paths and can be configured to amplify a signal received at the amplifier. The receiving system can include a first plurality of bandpass filters. Each one of the first plurality of bandpass filters can be disposed along a corresponding one of the plurality of paths at an output of a corresponding one of the plurality of amplifiers and can be configured to filter a signal received at the bandpass filter to a respective frequency band. | 2016-05-05 |
| 20160127026 | DIVERSITY RECEIVER FRONT END SYSTEM WITH FLEXIBLE ROUTING - Diversity receiver front end system with flexible band routing. A receiving system can include a plurality of amplifiers, each one of the plurality of amplifiers disposed along a corresponding one of a plurality of paths between an input of the receiving system and an output of the receiving system and configured to amplify a radio-frequency (RF) signal received at the amplifier. The receiving system can further include an input multiplexer configured to receive one or more RF signals at one or more input multiplexer inputs and to output each of the one or more RF signals to one or more of a plurality of input multiplexer outputs to propagate along a respective one or more of the plurality of paths. The receiving system can further include an output multiplexer configured to receive one or more amplified RF signals propagating along the respective one or more of the plurality of paths at one or more respective output multiplexer inputs and to output each of the one or more amplified RF signals to a selected one of a plurality of output multiplexer outputs. The receiving system can further include a controller configured to receive a band select signal and, based on the band select signal, control the input multiplexer and the output multiplexer. | 2016-05-05 |
| 20160127027 | TRANSCEIVER ARRAY - Each of a plurality of modules comprises a respective one of a plurality of antenna elements, and each of a subset of the plurality of modules comprising a respective one of a plurality of transceivers, wherein the plurality of modules are interconnected via one or more communication links. The circuitry may be operable to receive a calibration signal via the plurality of antenna elements, determine, for each one of the antenna elements, a time and/or phase of arrival of the calibration signal, calculate, based on the time and/or phase of arrival of the calibration signal at each of the plurality of antenna elements, electrical distances between the plurality of antenna elements on the one or more communication links, and calculate beamforming coefficients for use with the plurality of antenna elements based on the electrical distances. | 2016-05-05 |
| 20160127028 | Wi-Fi Adaptive Receiver Diversity - Wireless communication devices with multiple receive (RX) chains may be operated to maintain high performance while saving power. This may be accomplished by evaluating signal strength during transmission of the RX packets, and/or evaluating a possible imbalance (gain difference) between the multiple RX chains within the wireless communication device. Signal strength (or good signal) detection may be enabled when non-MIMO (non-multiple-in-multiple-out) transmissions are taking place, while imbalance detection (antenna gain comparison) may be enabled when a specified number of single-stream packets have been received. Once the decision has been made to operate in a reduced number RX path mode, decision to reactivate one or more additional RX paths may be made based on MIMO detection, a detection of a drop in signal quality, and/or upon expiration of a power save timer. | 2016-05-05 |
| 20160127029 | DIVERSITY RECEIVER FRONT END SYSTEM WITH SWITCHING NETWORK - Diversity receiver front end system with switching network. A receiving system can include a plurality of amplifiers, each one of the plurality of amplifiers disposed along a corresponding one of a plurality of paths between an input of the receiving system and an output of the receiving system and configured to amplify a signal received at the amplifier. The receiving system can further include a switching network including one or more single-pole/single-throw switches, each one of the switches coupling two of the plurality of paths. The receiving system can further include a controller configured to receive a band select signal and, based on the band select signal, enable one of the plurality of amplifiers and control the switching network. | 2016-05-05 |
| 20160127030 | METHOD FOR TRANSCEIVING DATA SYMBOL USING ANTENNA CORRELATION IN WIRELESS ACCESS SYSTEM WHICH SUPPORTS MASSIVE ANTENNA - The present invention provides a method for removing self-interference by a transmitter side in a wireless access system that supports a full duplex radio (FDR) scheme, according to one embodiment of the present invention, comprises the method comprising the steps of: transmitting two transmission signals, using two transmission antennas; receiving two reception signals, using two reception antennas; estimating a self-interference channel; and removing interference signals in consideration of the estimated self-interference channel among the received signals. In the method, the interference signals are the transmission signals which are input into the two reception antennas, the transmission signals and the reception signals are simultaneously transmitted and received through a resource area configured by the same time and frequency, and the two transmission antennas and the two reception antennas may be disposed on the transmitter side in a diamond shape. | 2016-05-05 |
| 20160127031 | FIELD WIRELESS RELAY DEVICE - It is to realize a field wireless relay device which can extend a life of a battery as compared to the prior art. A field wireless relay device configured to be driven by a battery and having a communication relay unit, the communication relay unit having a receiving and transmitting function of amplifying again and transmitting a received signal of wireless communication performed between a transmitting station and a receiving station through an antenna and a routing function of designating a communication path of the wireless communication, the field wireless relay device comprises an antenna control unit configured to control a connected antenna system, and an antenna control decision unit configured to decide a type of control to be performed by the antenna control unit on the basis of a signal intensity of the received signal to be relayed. | 2016-05-05 |
| 20160127032 | LOW-RATE DATA TRANSMISSION IN LTE BASED SATELLITE RATIO INTERFACE - Disclosed is a low-rate data transmission method in an LTE based satellite radio interface, which can secure a large number of low-rate data channels which can simultaneously access and increase frequency efficiency while providing compatibility with the existing LTE radio interface through a transmission technique which can secure more link margins in communication between portable terminals (handheld type terminals) without changing a basic LTE transmission frame structure in a satellite system requiring high transmission power. | 2016-05-05 |
| 20160127033 | SYSTEMS AND METHODS FOR SHARED ANALOG-TO-DIGITAL CONVERSION IN A COMMUNICATION SYSTEM - A low noise block circuit includes a first input signal trace configured to receive a first satellite signal centered at a first frequency; a second signal trace configured to receive a second satellite signal centered at a second frequency; a combiner having a first input connected to the first input signal trace and a second input connected to the second signal trace, and configured to combine the first and second satellite signals to generate and output a combined satellite signal; and an analog-to-digital converter element having a first input coupled to receive the combined satellite signal, and configured to convert the combined satellite signal from an analog signal to a digital signal. | 2016-05-05 |
| 20160127034 | NETWORK PROTECTION THROUGH EXCESS DIRECTIONS OF RECONFIGURABLE OPTICAL ADD/DROP MULTIPLEXOR (ROADM) - A first reconfigurable optical add/drop multiplexers (ROADM) and a second ROADM are connected by a primary light path and a protection light path. The first ROADM includes a first direction and a second direction, and the second ROADM includes a third direction and a fourth direction. The primary light path is coupled between the first direction and the third direction, and the protection light path is coupled between the second direction and the fourth direction. Transmissions on the primary light path are monitored, and when a problem is detected on the primary light path, the first and third directions are deactivated and the second and fourth directions are activated so that additional light signals are sent on the protection light path and not on the primary light path. | 2016-05-05 |
| 20160127035 | OPTICAL NETWORK SYSTEM - Disclosed is an optical network system including a upper network equipment, a lower network equipment, and a plurality of transfer network equipments connecting the upper network equipment and the lower network equipment through independent optical links, wherein the lower network equipment performs switching such that transmission and reception of an optical signal are performed through an optical link of a standby line when a failure occurs in at least one of an optical link used as a working line, an optical interface device associated with the working line in the upper network equipment, and a transfer network equipment associated with the working line. | 2016-05-05 |
| 20160127036 | INDEPENDENT FIBER-OPTIC REFERENCE APPARATUSES AND METHODS THEREOF - A reference management apparatus includes a reference signal housing, a fixed length propagation device, an oscillator device, and a reference management computing device. The reference signal housing having a propagation signal output and a propagation signal input. The fixed length propagation device is coupled between the propagation signal output and the propagation signal input. The reference signal management computing device is coupled to the oscillator device and the propagation signal input. The reference signal management computing device also comprises at least one of configurable hardware logic configured to implement or a memory coupled to the processor which is configured to be capable of executing programmed instructions comprising and stored in the memory to: detect a start and an end of a transmission of at least one pulse signal through the fixed length propagation device; measure propagation time of the at least one pulse signal through the fixed length propagation device; and utilize the measured propagation time for managing a reference signal. | 2016-05-05 |
| 20160127037 | Method And Apparatus For Determining Transmission Quality - A method of determining a transmission quality of a transmission. The method comprises detecting and/or decoding the transmission using an iterative operation, and generating a value of one or more iteration parameter of the iterative operation. The method further comprises calculating the transmission quality based on the value of the one or more iteration parameter. | 2016-05-05 |
| 20160127038 | OPTICAL TRANSMITTER, WAVELENGTH ALIGNMENT METHOD, AND PASSIVE OPTICAL NETWORK SYSTEM - Embodiments of the present invention disclose an optical transmitter, a 10 G-DML, an MPD | 2016-05-05 |
| 20160127039 | Method and System for Implementing Visible-Light Communication, Sending Apparatus, and Receiving Apparatus - A method and system for implementing visible light communication, a sending apparatus and a receiving apparatus are disclosed. The method includes: after performing constellation modulation on data to be sent, a sending end mapping a modulated signal to a corresponding luminescent light source and transmitting the data to be sent through an optical signal; a receiving end converting a received optical signal into an electrical signal, and determining a constellation modulation signal according to a luminescent light source corresponding to the received signal, and demodulating the constellation modulation signal to obtain received data. | 2016-05-05 |
| 20160127040 | Broadband Wireless Communication System and Method - Free space optical communication is plagued by interruptions in the connections caused by atmospheric phenomena, such as weather. A wireless beam transmission system includes at least one transmitter ( | 2016-05-05 |
| 20160127041 | WIRELESS TRANSMISSION SYSTEM AND DISTORTION COMPENSATION METHOD - A wireless transmission system includes a base station device connected to a wireless device by an optical transmission member. The base station device includes an acquiring unit that acquires a distortion component that corresponds to a level of a transmission signal, an amplifying unit that amplifies the distortion component at a predetermined gain, and a transmitting unit that transmits the transmission signal and the amplified distortion component in a separable manner. The wireless device includes a receiving unit that receives the transmission signal and the distortion component, a filtering unit that filters the transmission signal, an attenuating unit that attenuates the distortion component at a gain inverse of the predetermined gain, a combining unit that combines the filtered transmission signal with the attenuated distortion component to obtain a combined signal, and an amplifier that amplifies the combined signal. | 2016-05-05 |
| 20160127042 | Multi-Modal Optical Communication Systems and Methods - A multi-modal communication system and method capable of operating underwater, at an interface such as the surface of water, and in the atmosphere using a plurality of communication modes including optical, acoustic, and radio frequency communication. The nodes include underwater vehicles, divers, buoys, aerial vehicles, and shore-based operators. In one aspect, the system and method are capable of high-speed optical and long-range acoustic communication through transitioning between communication modes dependent upon signal conditions. It is another aspect to provide a system and method designed for clandestine operation that is not easily detected when in use. | 2016-05-05 |
| 20160127043 | Method and system for scheduling data message in PON and EOC networking, and related device - Disclosed is method for scheduling a data message in a Passive Optical Network (PON) and Ethernet Over Cable (EOC) networking, which may include: an Optical Coax Unit (OCU) allocating a coaxial side Logical Link Identifier (LLID) for a Coaxial Network Unit (CNU) which accessed the OCU, and acquiring an optical network side LLID allocated for the OCU by an Optical Line Terminal (OLT); and establishing a mapping relationship between the coaxial side LLID and the optical network side LLID, and scheduling a data message of the CNU according to the mapping relationship. Also disclosed are a system for scheduling a data message in a PON and EOC networking and a related device. By means of the technical solution provided in the embodiments of the present disclosure, an optical network side of the OCU is effectively separated from a coaxial side thereof, the OLT in an existing PON will not be influenced, an existing Multi-Point Control Protocol (MPCP) will not be modified, and effective control and allocation for resources are implemented. | 2016-05-05 |
| 20160127044 | MULTI-CHANNEL OPTICAL TRANSCEIVER MODULE INCLUDING THERMAL ARRAYED WAVEGUIDE GRATING MULTIPLEXER AND ATHERMAL ARRAYED WAVEGUIDE GRATING DEMULTIPLEXER - A multi-channel optical transceiver includes a transmitter optical subassembly (TOSA) with a thermal arrayed waveguide grating (AWG) for multiplexing optical signals and a receiver optical subassembly (ROSA) with an athermal AWG for demultiplexing optical signals. The TOSA may also include a laser array optically coupled to the thermal AWG and a temperature control system thermally coupled to the laser array and the thermal AWG to control temperature for wavelength tuning. The temperature control system in the TOSA may include a thermoelectric cooler (TEC) that cools both the laser array and the thermal AWG. Because the athermal AWG in the ROSA is temperature independent, the ROSA does not include a TEC, thereby reducing power consumption and conserving space. The optical transceiver may be used in a wavelength division multiplexed (WDM) optical system, for example, in an optical line terminal (OLT) in a WDM passive optical network (PON). | 2016-05-05 |
| 20160127045 | BURST OPTICAL SIGNAL TRANSMISSION DEVICE AND CONTROL METHOD FOR BURST OPTICAL SIGNAL TRANSMISSION DEVICE - A bias point of an external modulator is set to different values according to on and off of a burst control signal and an optical source is driven continuously in a burst optical signal transmission device. The burst optical signal transmission device avoid generation of transient fluctuation of a wavelength and a light amount at the time of burst signal rising. | 2016-05-05 |
| 20160127046 | System and Method for Multi-Dimensional Modulation Using Multiple Constellations - A system and method including multi-dimensional coded modulation wherein symbols within successive blocks of symbols are mapped using at least two different constellations to differentiate the symbols from each other. At least one data bit is encoded by an order of the symbols within each block of symbols. The receiver decodes the data by decoding at least one bit from the order of the symbols mapped with the first and second constellations. | 2016-05-05 |
| 20160127047 | METHOD, DEVICE AND COMMUNICATION SYSTEM FOR REDUCING OPTICAL TRANSMISSION IMPAIRMENTS - A method and device is provided for reducing optical transmission impairments, particularly nonlinear effects, of at least one link Said method comprising the following steps: extracting a phase information (Δθ) from an optical signal ( | 2016-05-05 |
| 20160127048 | SIGNAL PROCESSING METHOD, DETECTION METHOD, AND DETECTION DEVICE - Provided is a signal processing method including a step of acquiring a plurality of Stokes parameters related to polarization in which X polarization and Y polarization included in a dual-polarization phase-shift keying (DP-PSK) signal are defined as an x component and a y component, respectively, and a step of acquiring a two-dimensional constellation diagram by orthographically projecting coordinates defined by each of the Stokes parameters, in a Poincare sphere coordinate system, onto a plane including coordinates (0, 1, 0), (0, 0, 1), (0, −1, 0) and (0, 0, −1). | 2016-05-05 |
| 20160127049 | REDUCTION OF EFFECTS OF SIGNAL-SIGNAL BEAT INTERFERENCE IN OPTICAL TRANSPORT SYSTEMS - Disclosed herein is an optical transport system configured to transport an amplitude-modulated optical signal generated at the transmitter using single-sideband modulation of an optical carrier and detected at the receiver using direct optical detection. The receiver is configured to estimate the level of signal-signal beat interference (SSBI) in the electrical signal generated upon direct detection of the received optical signal by first converting this electrical signal into a modified baseband signal configured for single-sideband modulation and then squaring and appropriately scaling this modified baseband signal. The receiver is further configured to subtract the estimated level of SSBI from the electrical signal generated by the direct optical detector and to process the resulting corrected electrical signal to recover the data encoded in the amplitude-modulated optical signal. Example analog and digital circuits for estimating the level of SSBI at the receiver are disclosed. | 2016-05-05 |
| 20160127050 | PAIRING DEVICE - A pairing device for establishing a secure wireless communication path between a first device having a first body-coupling communication interface and a second device having a screen. The pairing device includes a screen communication interface having a light sensor, which, in conjunction with the screen of the second device, allows definition of a light-based communication path for the transmission of a first pairing information from the second device to the pairing device, a calculator for generating a second pairing information once the first pairing information has been received by the pairing device, a second body-coupling communication interface, which in conjunction with the first body-coupling communication interface allows the definition of a body-coupling communication path for the transmission of the second pairing information from the pairing device to the first device, the second pairing information allowing the establishment of a secure wireless communication path between the first device and the second device. | 2016-05-05 |
| 20160127051 | SYSTEMS AND METHODS FOR CANCELLATION OF CROSS-COUPLED NOISE - Systems and methods for canceling cross-coupled satellite signals in a LNB IC include receiving a first satellite signal at a first pin of the LNB IC and adjusting the first satellite signal by applying a first adaptive filter to the first satellite signal signal, the first adaptive filter having first filter coefficients; combining the adjusted first satellite signal with a second satellite signal received at a second pin of the LNB IC to generate a first combined satellite signal; measuring the total output power of the combined satellite signal; changing the filter coefficients of the first adaptive filter; remeasuring the total output power of the first combined satellite signal after the changing of the first filter coefficients to determine whether the total power of the first combined satellite signal has decreased. | 2016-05-05 |
| 20160127052 | Method and Device for the Adjustment of Contactless Data Links - A test setup for testing a contactless digital rotary joint integrated in a device requiring data transmission between a rotating part and a stationary part, the rotary joint further comprises a transmitter and a receiver. The transmitter has a transmitter amplifier, which is coupled to a pair of transmission lines, which are terminated by a pair of terminations. The transmission lines are differential transmission lines comprising a pair of conductors which is driven by differential signals from the transmitter amplifier. The receiver has a receiver antenna comprising a pair of antenna sections which are differentially operated and feed a differential signal to the receiver amplifier. A transmitter ground and a receiver ground are coupled to a common mode signal generator generating a common mode signal. A data source is coupled to the transmitter amplifier feeding a test signal into the transmitter amplifier, and a data sink is coupled to the receiver amplifier for receiving the test signal and generating a test result value. Also disclosed is a method for adjusting a contactless data link integrated in a device requiring data transmission between a rotating part and a stationary part. | 2016-05-05 |
| 20160127053 | APPARATUS AND METHOD FOR RECEIVER WITH INTERFERENCE TOLERANCE - A receiver apparatus adapted to be synchronized with a link transmitter to identify and isolate a transmitted, modulated carrier signal from other RF transmissions by obtaining A/D samples at each integer pi zero crossing of a transmitted signal and at the half Hertz cycles | 2016-05-05 |
| 20160127054 | PROXIMATE COMMUNICATION WITH A TARGET DEVICE - Systems and methods may use proximate communication to retrieve information pertaining to a target device. In one example, the method may include detecting the target device within a vicinity of a user device, receiving an information request response communication including information pertaining to the target device, and receiving an operation request response communication including information pertaining to a performed operation. | 2016-05-05 |
| 20160127055 | MECHANISM TO MEASURE, REPORT, AND ALLOCATE A HIGHEST POSSIBLE RANK FOR EACH CELL IN A CARRIER AGGREGATION (CA) MODE RECEIVER-LIMITED USER EQUIPMENT (UE) - Certain aspects of the claimed invention generally relate to a network dynamically configuring one or more cells based on signal quality measurements received from all antennas of a receiver-limited UE. The receiver-limited UE may have a number of receivers that is less than or equal to a number of antennas of the UE. Further, the UE may be capable of operating in a CA mode. Dynamically configuring the one or more cells based, at least in part, on the received signal quality measurements may allow the UE to operate on M×N MIMO on the Pcell or Scell. | 2016-05-05 |
| 20160127056 | POWER LINE COMMUNICATION OPERATING FREQUENCY BAND SELECTION APPARATUS, SYSTEMS AND METHODS - A band of interest is divided into band segments. A scan frame is sent by a transmitter at a transmitting PLC node across each band segment. A receiver at a receiving node scans the band segments, listening for the scan frame. Upon detecting a scan frame, the receiving node measures the signal quality of each OFDM subcarrier modulated with symbols from the scan frame. The subcarrier signal quality values are stored in a table. Upon completion of the scan process, the table contains a signal quality value for each subcarrier within the band of interest. The table is then analyzed to find an operating band consisting of subcarriers with a highest average signal quality or a band that results in greater than a pre-determined minimum signal quality. The invented methods and embodiments may operate periodically to readjust the operating band configuration in the presence of electromagnetic interference including time-variant interference. | 2016-05-05 |
| 20160127057 | DYNAMIC LTE SIGNAL DETECTION - Systems and methods allow LAA LTE equipment to coexist with other services in the unlicensed band such as WIFI or WLAN services. Systems and methods use LTE reference signals in the unlicensed spectrum that are not continuous and can be interrupted by a WIFI signal or other services in the unlicensed band or use a dynamic LAA ON burst or window to provide the LTE reference signals in some embodiments. The systems and methods can detect the presence of LTE signals using a one or more of a number of techniques. | 2016-05-05 |
| 20160127058 | TARGET CHANNEL IDENTIFICATION FOR A WIRELESS COMMUNICATION - According to an example, a target channel in a set of channels for a wireless communication may be identified through use of a model. Particularly, performance information of the channels in the set of channels may be accessed over a plurality of time intervals. In addition, an identification of which of the channels in the set of channels has a highest performance level for each of the plurality of time intervals may be made and a model correlating the performance information of the plurality of channels and the channel having the highest performance level over the plurality of time intervals may be developed. | 2016-05-05 |
| 20160127059 | RADIO LINK PERFORMANCE PREDICTION - A method for predicting the performance of a Line-Of-Sight, LOS, multiple-input multiple-output, MIMO, radio link, the method comprising the steps of determining a single-input single-output, SISO, radio link operating condition comprising a SISO system gain, and calculating a LOS-MIMO incremental gain of the LOS-MIMO radio link, as well as modifying the determined SISO radio link operating condition by accounting for the calculated LOS-MIMO incremental gain in the SISO system gain to obtain a LOS-MIMO radio link operating condition comprising a LOS-MIMO system gain, and also obtaining a set of operating condition requirements of the LOS-MIMO radio link. The method also comprising the step of predicting the LOS-MIMO radio link performance by comparing the LOS-MIMO radio link operating condition to the operating condition requirements of the LOS-MIMO radio link. | 2016-05-05 |
| 20160127060 | HIGH TEMPERATURE OPERATION OF AN AIRBORNE SATELLITE TERMINAL - Methods, systems, and devices are described for operating an airborne satellite terminal in high temperature conditions. In one method, a satellite terminal is located within an enclosure beneath a radome on an exterior of an aircraft. The satellite terminal includes a transmit amplifier that may operate in different power modes, a temperature sensor thermally coupled with the transmit amplifier, and an antenna. A transmit signal is amplified using the transmit amplifier to generate an amplified signal, which signal may be transmitted through the radome using the antenna. The temperature of the transmit amplifier may be monitored with the temperature sensor while transmitting the amplified signal. Operation of the transmit amplifier may be switched from a normal power mode to a reduced power mode to reduce a power level of the amplified signal when the monitored temperature of the transmit amplifier exceeds a temperature threshold. | 2016-05-05 |
| 20160127061 | BROADCAST INTERFACE - An apparatus includes a transmitter configured to broadcast data to a plurality of receivers is provided. A control circuit is configured to arrange the transmitter to broadcast the data based on a protocol and to arrange the transmitter to broadcast a subset of the data in response to a request from one of the plurality of receivers. In another aspect, a method for operating a broadcast interface is provided. The method includes broadcasting data to a plurality of receivers based on a protocol and broadcasting a subset of the data in response to a request from one of the plurality of receivers. Another apparatus is provided which includes means for broadcasting data to the plurality of receivers based on a protocol and means for arranging the means for broadcasting to broadcast a subset of the data in response to a request from one of the plurality of receivers. | 2016-05-05 |
| 20160127062 | APPARATUS FOR LABELING INPUTS OF AN AUDIO MIXING CONSOLE SYSTEM - An apparatus for labeling inputs at an audio mixer is provided. The apparatus includes an audio mixer console including a processor and being configured to receive a test command from a mobile device. The audio mixer console is further configured to transmit, from a port, an audio signal to a playback device, the port being associated with a channel of the audio mixing console, and receive, from the mobile device, a label signal including a channel label to be assigned to the channel from the mobile device in response to a user input. The audio mixer console is further configured to assign the channel label to the channel in response to the label signal. | 2016-05-05 |
| 20160127063 | MULTIPLEXERS USING WEAKLY-COUPLED NETWORKS IN RF FRONT END CIRCUITRY - Multiplexing circuitry is disclosed that includes filtering circuitry, which provides a first transfer function between a common port and a first port and a second transfer function between the common port and a second port. The first transfer function and second transfer function provide a first passband and a second passband, respectively. The first transfer function also has a stopband provided within the second passband of the second transfer function because the filtering circuitry includes a first filter path and a second filter path, wherein the second filter path has a first and second parallel resonant circuit provided in shunt with respect to the second filter path and weakly coupled to one another. The weak coupling between the first parallel resonant circuit and the second parallel resonant circuit naturally provides the stopband in the first transfer function within the second passband of the second transfer function. | 2016-05-05 |
| 20160127064 | Clock Data Recovery Method and Device for Branch Signal in SDH - Disclosed are a method and a device for recovering clock data of a tributary signal in SDH, wherein the method includes that: it is to extract valid data of the signal from a time slot of each tributary in a synchronous digital hierarchy SDH frame, and store into a storage space corresponding to a time slot of each tributary in a cache; it is to recover a clock signal and a readout signal for the time slot of each tributary by means of time division multiplexing; when the readout signal for the time slot of any tributary is valid, it is to read out contents of the data from the storage space corresponding to the time slot of the tributary in the cache, and latch into a latch corresponding to the time slot; the device includes: a data extracting module, a clock recovery circuit and a data recovery module. | 2016-05-05 |
| 20160127065 | SWITCHING SUB-SYSTEM FOR DISTRIBUTED ANTENNA SYSTEMS USING TIME DIVISION DUPLEXING - A switching control module can optimize time division duplexing operations of a distributed antenna system (“DAS”). The switching control module can include a measurement receiver and a processor. The measurement receiver can measure signal powers of downlink signals in a downlink path of the DAS. The processor can determine start times for downlink sub-frames transmitted via the downlink path based on downlink signal powers measured by the measurement receiver exceeding a threshold signal power. The processor can identify a clock setting that controls a timing of switching signals used for switching the DAS between an uplink mode and a downlink mode. The processor can statistically determine a switching time adjustment for the clock setting based on switching time differentials between the clock setting and the start times. The processor can update the clock setting based on the switching time adjustment. | 2016-05-05 |
| 20160127066 | RELATIVE CLOCK DRIFT CALIBRATION FOR CHANNEL STITCHING - Techniques and systems described herein provide for improved clock drift calibration of two or more clocks of two or more wireless devices. According to one example method, a first packet is received at a first wireless device from a second wireless device sent at a first time. The method may also include determining a first time-of-arrival estimate for the first packet. The method may further include receiving, at the first wireless device, a second packet from the second wireless device sent at a second time. The method may also include determining a second time-of-arrival estimate for the second packet and determining a relative clock drift between the first wireless device and the second wireless device based at least in part on the first time-of-arrival estimate and the second time-of-arrival estimate. | 2016-05-05 |
| 20160127067 | METHOD FOR OPERATING A NODE OF A COMMUNICATIONS NETWORK, A NODE AND A COMMUNICATIONS NETWORK - A method for operating a node in a communications network comprises the following steps: The node receives a reference time via the communications network. A transmit clock of the node, which was determined for an earlier clock cycle on the basis of a local clock of the node, is compared with the reference time. The local clock of the node is corrected on the basis of the comparison result. On the basis of the corrected local clock a transmit clock is determined to be used by the node for the current clock cycle. | 2016-05-05 |
| 20160127068 | METHOD AND APPARATUS FOR TRANSMITTING ACK/NACK IN A WIRELESS COMMUNICATION SYSTEM BASED ON TDD - Provided is a method of transmitting ACK/NACK in a TDD-based wireless communication system. The method includes: receiving M downlink subframes associated with an uplink subframe n in each of two serving cells; determining four candidate resources based on the M downlink subframes received in each of the two serving cells; and transmitting an ACK/NACK response for the M downlink subframes by using one resource selected from the four candidate resources in the uplink subframe n, wherein the two serving cells includes a first serving cell and a second serving cell, and wherein among the four candidate resources, a first resource and a second resource are associated with a PDSCH or a SPS release PDCCH for releasing semi-persistent scheduling received in the first serving cell, and a third resource and a fourth resources are associated with a PDSCH received in the second serving cell. | 2016-05-05 |
| 20160127069 | METHOD AND APPARATUS FOR REDUCING INTER-CELL INTERFERENCE - A method is described for reducing interferences in a wireless network, by: identifying cells which experience more interference than others; identifying a group of PRBs that their transmissions are subjected to moire interference than other concurrent transmissions; identifying UEs associated with the group of PRBs, and determining whether the location of the UEs is at the cells' edges; selecting a pair of UEs where one member is located at a first cell's edge and the other is located either (i) at a second cell, not included within a neighbors' list of the first cell, or (ii) at the core or remote edge of a second cell. In case (i), the second cell is introduced to the first cell neighbors' list, and in case (ii) the other UE is falsely defined as a UE located at the near second cell's edge. Then, ICIC procedure is invoked for that pair of UEs. | 2016-05-05 |
| 20160127070 | INTEGRATED TWO-CHANNEL SPECTRAL COMBINER AND WAVELENGTH LOCKER IN SILICON PHOTONICS - A two-channel DWDM spectral combiner integrated with a wavelength locker is provided. Two optical signals at ITU grid channels are separately modulated by MZM modulators and combined into a silicon waveguide-based delayed-line interferometer built on silicon-on-insulator substrate to produce a combined signal having a free spectral range equal to twice of the spacing of the two ITU grid channels. Two dither signals can be added respectively to the two optical signals for identifying corresponding two channel wavelengths and locking each wavelength while outputting the combined signal. | 2016-05-05 |
| 20160127071 | Tenant Isolation In A Multi-Tent Cloud System - Isolating tenants in a multi-tenant cloud system includes identifying a plurality of tenants in the multi-tenant cloud system, assigning a domain to each tenant of the plurality of tenants based on a wavelength division multiplexing (WDM), for each wavelength set of the plurality of wavelength sets, associating each wavelength set with a different domain of the plurality of domains and with a different indicator identifying the domain for the wavelength set, and isolating each tenant using the associated wavelength sets and associated indicators. The plurality of tenants share computational resources in the multi-tenant cloud system and the domain includes the computational resources for each tenant. The WDM uses a plurality of wavelength sets and each wavelength set includes one or more wavelengths. | 2016-05-05 |
| 20160127072 | Method and apparatus for increasing and decreasing variable optical channel bandwidth - Embodiments of the present invention provide a method and an apparatus for increasing and decreasing variable optical channel bandwidth. The method for increasing includes: sending a higher order optical channel data unit (HO ODU) frame to which a timeslot increase indication is added to a second NE; starting from a next HO ODU frame, mapping, by an NE, a bit stream formed by a flexible optical transport data unit (ODUflex) bit stream at a first rate and an idle data bit stream to Y timeslots of the HO ODU frame; sending an ODUflex frame to which a rate increase indication is added to the second NE; and starting from a next ODUflex frame, mapping an ODUflex bit stream at a second rate to the Y timeslots of the HO ODU frame. | 2016-05-05 |
| 20160127073 | APPLICATION OF ORBITAL ANGULAR MOMENTUM TO FIBER, FSO AND RF - A communications system includes transmitter circuit for receiving a plurality of input data streams and applying a different orthogonal function to each of the plurality of input data streams. The transmitter circuit processes each of the plurality of input data streams having the different orthogonal function applied thereto to spatially locate a first group of the plurality of input data streams having the different orthogonal function applied thereto onto a first carrier signal and to spatially locate a second group of the plurality of input data streams having the different orthogonal function applied thereto onto a second carrier signal. The transmitter circuit temporally locates the first carrier signal and the second carrier signal onto a third carrier signal and transmits the third carrier signal over a communications link. A receiver circuit receives the third carrier signal over the communications link and separates in time the third carrier signal into the first carrier signal and the second carrier signal. The receiver then separates the plurality of input data streams having the different orthogonal function applied thereto into the plurality of input data streams each having the different orthogonal function applied thereto. Finally, the receiver removes the orthogonal function from each of the plurality of input data streams and outputs the plurality of input data streams. | 2016-05-05 |
| 20160127074 | IN-BAND NOISE AND/OR SPECTRAL DEFORMATION MEASUREMENT ON POLARIZATION-MULTIPLEXED SIGNALS - There is provided a method to discriminate NLE-induced signal deformation from ASE-noise on polarization multiplexed signals, in order to measure the OSNR under NLE conditions and/or characterize the NLE-induced signal deformation. In accordance with one aspect, the method is based on the acquisition of optical spectrum traces when the (data-carrying) optical communication signal is partially or completely extinguished (ASE-noise only), as well as with a live optical communication signal. Comparing traces acquired with different conditions and/or at different dates allows discrimination of the signal contribution, the ASE-noise contribution and the NLE-induced deformations on the SUT. | 2016-05-05 |
| 20160127075 | Signal Inhibiting Apparatus and Corresponding Methods - An apparatus ( | 2016-05-05 |
| 20160127076 | METHOD FOR REPORTING CHANNEL INFORMATION BASED ON LINK ADAPTATION IN WIRELESS LOCAL AREA NETWORK AND THE APPARATUS FOR THE SAME - A method and a device for reporting a modulation and coding scheme (MCS) feedback in a wireless local area network are provided. A responding station receives, from a requesting station, a requesting Physical layer Protocol Data Unit (PPDU) for requesting a MCS feedback via a plurality of spatial streams. A recommended MCS is estimated under an assumption that the requesting station will transmit at least one first spatial stream among the plurality of spatial streams used for the requesting PPDU, The responding station transmits, to the requesting station, the MCS feedback including a recommended MCS field indicating the recommended MCS and a recommended stream field indicating a number of at least one recommended spatial stream. A number of the at least one first spatial stream used for estimating the recommended MCS is equal to the number of the at least one recommended spatial stream. | 2016-05-05 |
| 20160127077 | Self-Describing Error Correction of Consolidated Media Content - Presented herein are downstream recovery (error correction) techniques for an aggregated/consolidated media stream. In one example, a consolidated media stream that includes source media packets from one or more sources is sent to one or more downstream receiving devices. Based on the source media packets, one or more self-describing recovery packets for downstream error correction of the source media packets are generated. The self-describing recovery packets include a mapping to the source media packets used to generate the self-describing recovery packets, thereby avoiding the addition of error correction information in the consolidated media stream. The one or more self-describing recovery packets are sent to each of the downstream receiving devices as a separate stream. | 2016-05-05 |
| 20160127078 | Link Adaptation Feedback Method and Transmitting Device - Embodiments of the present invention provide a link adaptation feedback method and a transmitting device. The method includes: receiving, by a transmitting device, a link adaptation feedback frame sent by a receiving device, where the link adaptation feedback frame carries space-time block coding type indication information; and determining, by the transmitting device according to the space-time block coding type indication information, information about use of space-time block coding by a data frame related to the link adaptation feedback frame. Through the embodiments of the present invention, and according to the use information, the transmitting device may select the space-time stream, and the MCS used when the transmitting device sends a data frame, thereby improving link performance. | 2016-05-05 |
| 20160127079 | Impulse noise management - A discrete multitone transceiver (DMT) includes a deinterleaver operable to de-interleave a plurality of bits. The DMT further includes: a forward error correction decoder operable to decode the plurality of bits, a module operable to determine, during Showtime, an impulse noise protection value, wherein the impulse protection value specifies a number corrupted DMT symbols that can be corrected by the forward error correction decoder in combination with the deinterleaver, and a receiver coupled to the deinterleaver. The receiver receives using a first interleaver parameter value, receives a flag signal, and changes to receiving using a second interleaver parameter value that is different than the first interleaver parameter value, wherein the second interleaver parameter value is used for reception on a pre-defined forward error correction codeword boundary following reception of the flag signal. | 2016-05-05 |
| 20160127080 | METHOD AND APPARATUS FOR CODING CHANNEL FOR NEAR FIELD HIGH SPEED LARGE CAPACITY WIRELESS COMMUNICATION - A method and apparatus for coding a channel in a near field wireless communication system are provided. The coding channel apparatus receives an input of data of a payload of an input frame, performs scrambling of the data, and encodes the scrambled data using an error correction code. The coding channel apparatus additionally encodes and outputs the encoded data using an additional channel code. | 2016-05-05 |
| 20160127081 | Applying Forward Error Correction in 66b Systems - A method and apparatus for applying Forward Error Correction (FEC) in 66 b systems. For a user data, the apparatus uses a method comprising the steps of generating one or more data blocks using a 66 b code format and the user data; generating one or more FEC parity blocks using the 66 b code format, wherein the parity is calculated over the data blocks; and generating an FEC codeword using the data blocks and the FEC parity blocks. | 2016-05-05 |
| 20160127082 | RATELESS ENCODING - A receiver node is operable to receive rateless encoded data packets from a transmitter node. The receiver node includes estimation logic operable to estimate a transiting number of rateless encoded data packets transiting between the receiver node and the transmitter node; determining logic operable to determine an acknowledgement number of received rateless encoded data packets, the acknowledgement number of received rateless encoded data packets including a difference between a decoding number of rateless encoded data packets estimated to be required from a batch of rateless encoded data packets to decode the rateless encoded data packets from the batch and the transiting number of rateless encoded data packets; and acknowledgement logic operable to transmit an acknowledgement to the transmitter node to cause the transmitter node to cease transmission of rateless encoded data packets from the batch of rateless encoded data packets when a received number of received rateless encoded data packets from the batch of rateless encoded data packets achieves the acknowledgement number of received rateless encoded data packets. | 2016-05-05 |
| 20160127083 | Link Processing in Multipath Transmission Control Protocol and Mobile Terminal - A link processing method in the Multipath Transmission Control Protocol and a mobile terminal. The method includes detecting that a timer of a link i times out, where i is a natural number; obtaining a quantity N | 2016-05-05 |
| 20160127084 | DIFFERENTIAL WIRED COMMUNICATION LINK QUALITY DETECTOR AND DIFFERENTIAL WIRED COMMUNICATION LINK QUALITY DETECTION METHOD - A method of determining link failure in a receiver for receiving a differential voltage signal via a first signal line and a second signal line, the method including: obtaining a first quantity depending on the larger one of a maximum value over time of a voltage level that is attained in the first signal line and a maximum value over time of a voltage level that is attained in the second signal line; obtaining a second quantity depending on a maximum value over time of an average of an instantaneous voltage level in the first signal line and an instantaneous voltage level in the second signal line; and determining that the link failure has occurred on the basis of the first quantity and the second quantity. | 2016-05-05 |
| 20160127085 | METHOD AND APPARATUS FOR PERFORMING INTERLEAVING IN COMMUNICATION SYSTEM - The present disclosure relates to a pre-5G or 5G communication system to be provided for supporting higher data rates beyond a 4G communication system, such as Long Term Evolution (LTE). Disclosed are a method and an apparatus for performing interleaving by using an identical interleaving bit generation method in multiple interleavers included in a communication system. The present disclosure provides a method for interleaving an input bit sequence by an interleaver of a multiple access communication system. The method includes setting a common parameter used by multiple interleavers; setting a unique parameter for the interleaver in view of a correlation between bit sequences which are input to the multiple interleavers; and interleaving the input bit sequence by using prime-power depending on the common parameter and the unique parameter. | 2016-05-05 |
| 20160127086 | METHOD AND APPARATUS FOR TRANSMITTING SIGNAL - A method and apparatus for transmitting a signal to a terminal are provided. The method includes: determining at least one of a plurality of resource blocks (RBs) of a frequency resource and a time resource in a subframe that transmits to the terminal; allocating a power rate to each of a first signal and a second signal to transmit to the terminal; and transmitting the first signal and the second signal through the RB according to the allocated power rate. | 2016-05-05 |
| 20160127087 | Video Multimode Multimedia Data Communication Systems - Multimode multimedia mobile wireless data communication system provides received demodulated location finder signal with a mobile device generated photo camera generated signal into a cross-correlated in-phase and quadrature-phase filtered baseband signal and modulates and transmits the cross-correlated signal. Mobile device for receiving and converting a video signal, generated in mobile device, into an OFDM video signal and providing OFDM video signal to a modulator and transmitter. Mobile device receives and demodulates a modulated spread spectrum baseband signal and provides the spread spectrum baseband signal to an OFDM baseband unit for modulation and transmission of OFDM baseband signal. Converting a user generated touch screen signal into a touch screen control signal, for control of mobile device. | 2016-05-05 |
| 20160127088 | MIMO BASED ADAPTIVE BEAMFORMING OVER OFDMA ARCHITECTURE - A wireless communications system that combines Multiple Input/Multiple Output (MIMO), beamforming, and Orthogonal Frequency Division Multiple Access (OFDMA) techniques to facilitate increasing spectral efficiency of the communications system has been disclosed. A method of operating a wireless communications system includes transmitting first data in a first beam of electromagnetic signals generated by a first antenna array. The first data is associated with a first user. The first data is transmitted using a first OFDMA resource block of a radio frame. The method includes transmitting second data in a second beam of electromagnetic signals generated by the first antenna array. The second data is associated with a second user. The second data is transmitted using a second OFDMA resource block of the radio frame. | 2016-05-05 |
| 20160127089 | SYSTEMS AND/OR METHODS FOR MANAGING OR IMPROVING INTERFERENCE BETWEEN CELLS - Systems and methods for managing and/or improving interference in cells may be provided. For example, in embodiments, a partial-band Almost Blank Subframe (PB-ABS) subframe and/or a spatial Almost Blank Subframe (SABS) may be provided and/or used for coordinating communication with in networks with smaller and larger cells (e.g. pico or macro cells). For example, a PB-ABS may provide a dimension (e.g. frequency) that may be used to define a region and/or particular resources (e.g. resource blocks) reserved for pico cell operations or transmissions and a region or other resources (e.g. not those reserved for pico cell operations) available for macro cell operations or transmissions. Additionally, based on beam parameters (e.g. associated with cell partitioning), SABS may offer an additional dimension (e.g. spatial) that may be used to prevent transmission in a particular spatial direction. | 2016-05-05 |
| 20160127090 | USER TERMINAL, RADIO BASE STATION AND RADIO COMMUNICATION METHOD - The present invention is designed to enable adequate feedback on the uplink even when CA and CoMP are employed between a plurality of radio base stations (inter-eNB CoMP/CA). A receiving section that receives downlink signals from a first radio base station that forms a first cell and a second radio base station that forms a second cell, a generating section that generates a feedback signal in response to the downlink signal from each radio base station, and a control section that assigns the feedback signal in response to the downlink signal from the first radio base station to an uplink control channel and/or an uplink shared channel on the first cell depending on whether or not there is a UL grant, and assigns the feedback signal in response to the downlink signal from the second radio base station to the uplink shared channel on the first cell or the second cell regardless of whether or not there is the UL grant, are provided in a user terminal. | 2016-05-05 |
| 20160127091 | BIT ALLOCATION METHOD, APPARATUS FOR MULTICARRIER MODULATION SIGNAL, AND SYSTEM - A bit allocation method, apparatus for a multicarrier modulation signal and a system where the method includes: lowering the number of bits of a subcarrier of minimum average power in subcarriers of the multicarrier modulation signal allocated with a maximum number of bits according to a predetermined total number of bits to be adjusted including setting a total number of bits to be adjusted; determining a target number of bits according to the total number of bits; allocating a bit number for each subcarrier of the multicarrier modulation signal by using a predetermined bit allocation method according to the target; and lowering the number of bits of a subcarrier of minimum average power in the subcarriers allocated with a maximum number of bits, until a lowered total number of bits is equal to the total number of bits to be adjusted. | 2016-05-05 |
| 20160127092 | CONTENTION BASED UPLINK TRANSMISSION FOR COVERAGE ENHANCEMENT - This disclosure generally relates to contention based uplink transmission for coverage enhancement. A plurality of sequence patterns can be defined by a plurality of sequences and the order thereof. Each sequence pattern is uniquely associated with a UE. The UE may initiate the contention based uplink transmission with the associated sequence pattern. The BS may determine the number of UEs simultaneously transmitting on the shared resource by detecting the sequence patterns in the transmission. In this way, the BS can easily detect and handle collisions in the contention based transmission. The latency in uplink data transmission can be reduced with good system capacity. | 2016-05-05 |
| 20160127093 | HYBRID PILOT DESIGN FOR LOW LATENCY COMMUNICATION - Methods, systems, and devices are described for wireless communication at a UE. A base station may select a hybrid pilot configuration including a relatively sparse periodic pilot and a dense pilot embedded in one or more symbols of a low latency burst. A user equipment (UE) may generate a long term statistical average channel estimate based on the periodic pilot and an instantaneous channel estimate (e.g., for demodulation) based on the dense pilot embedded in the low latency burst. The UE may refine the instantaneous channel estimate by converting a control channel embedded with the burst. In some instances, the base station may embed the dense pilots in the first symbol of a burst and transmit subsequent low latency symbols with a reduced density pilot (or without pilot tones). | 2016-05-05 |
| 20160127094 | PILOT RECONFIGURATION AND RETRANSMISSION IN WIRELESS NETWORKS - Adaptive pilot signaling is disclosed in which resources allocated to pilot symbols are allowed to vary to more closely match channel conditions. User equipments (UEs) may request different pilot configurations depending on channel conditions. In one embodiment, a method includes receiving a first set of pilot symbols using a first number of resource elements during a first transmission time interval (TTI), and receiving a second set of pilot symbols using a second number of resource elements during a second TTI. In the embodiment, the first TTI and the second TTI include the same number of resource elements, and the first number of resource elements is different than the second number of resource elements. | 2016-05-05 |
| 20160127095 | RATE MATCHING AROUND REFERENCE SIGNALS IN WIRELESS COMMUNICATIONS - Various aspects described herein relate to rate matching around reference signaling. A discovery reference signal (DRS) configuration is received that identifies first resources related to non-zero power reference signals for DRS transmitted by a cell over a first bandwidth and second resources related to zero power reference signals for the DRS over a second bandwidth. The first bandwidth can be less than or equal to the second bandwidth. At least one channel can be received from the cell along with an instance of the non-zero power reference signals and the zero power reference signals. Rate matching can be performed for the at least one channel around the second resources over the second bandwidth. | 2016-05-05 |
| 20160127096 | WIRELESS COMMUNICATION METHOD AND APPARATUS FOR WIRELESS LOCAL AREA NETWORK SYSTEM - A wireless communication method and apparatus in a wireless local area network (WLAN) system are disclosed. A wireless communication method according to one embodiment may include generating a high-efficiency Wi-Fi (HEW) frame including at least one of an HEW-SIG-A field and an HEW-SIG-B field which include channel information for communications according to an Orthogonal Frequency-Division Multiple Access (OFDMA) mode, and transmitting the generated HEW frame to a reception apparatus. | 2016-05-05 |
| 20160127097 | NARROWBAND CONTROL CHANNEL DECODING - Methods, systems, and devices for wireless communication are described. A user equipment (UE) may establish a connection with another wireless node, such as a base station or another UE. The connection may include a narrowband control region of a wideband system. The UE may identify a set of resources, which may include a set of subframes that have the same precoding or a set of resource blocks that have the same precoding, during which to monitor a demodulation reference signal (DM-RS) for decoding a control channel within the narrowband. The UE may then decode the control channel using the DM-RS or a cell-specific reference signal (CRS), or both DM-RS and CRS. The UE may exclude resources of the narrowband region that include a control region for broadband communications. | 2016-05-05 |
| 20160127098 | METHOD AND APPARATUS FOR CHANNEL ACCESS FOR LTE ON UNLICENSED SPECTRUM - A method of a base station (BS) to implement a listen-before-talk (LBT) protocol is provided. The method includes generating for transmission at least one of a discovery reference signal (DRS) or a data signal. The method also includes initiating an LBT protocol based on a single sensing interval to access a channel and transmit the DRS in contiguous orthogonal frequency-division multiplexing (OFDM) symbols. The method further includes initiating an LBT protocol with random back-off to access the channel and transmit the data signal, where a back-off counter value of the LBT protocol with random back-off does not decrement when the DRS is transmitting in the channel. | 2016-05-05 |
| 20160127099 | METHOD AND APPARATUS FOR GENERATING PILOT PATTERN FOR MIMO ANTENNA - Disclosed are a method for generating a pilot pattern and an apparatus thereof. The method for generating a pilot pattern for MIMO antennas includes: determining a size of a slot that is an interval where a pilot pattern is repeated in a time domain and a frequency domain; determining a pilot inserting position of OFDMA symbols included in a slot determined for a first antenna; and determining a pilot inserting position of OFDMA symbols included in a slot determined for a second antenna, in order to have a sub-carrier different from a sub-carrier of the pilot inserting position of the OFDMA symbols included in the slot determined for the first antenna. | 2016-05-05 |
| 20160127100 | METHOD FOR TRIGGERING APERIODIC SOUNDING REFERENCE SYMBOL, BASE STATION AND USER EQUIPMENT - A method for triggering an aperiodic sounding reference symbol, includes: receiving a Downlink Control Information (DCI) indicating a transmission of an aperiodic Sounding Reference Symbol (SRS) from a base station which configures a resource used for transmission of the aperiodic SRS; maintaining the resource for transmitting the aperiodic SRS when there is at least one of a loss of uplink synchronization when a timer relating to the uplink synchronization expires and a failure in transmission of a scheduling request transmitted more than a predetermined number of times; and executing a random access procedure. | 2016-05-05 |
| 20160127101 | AUTOMATIC CONFIGURATION SUB-SYSTEM FOR DISTRIBUTED ATENNA SYSTEMS - Systems and methods for automatically configuring a distributed antenna system are provided. A configuration sub-system of the distributed antenna system can identify signal parameters for downlink signals received from one or more base stations via inputs of a unit in the distributed antenna system. The configuration sub-system can automatically determine a configuration plan for the distributed antenna system based on the automatically identified signal parameters. The configuration plan specifies how to combine subsets of the downlink signals for routing to remote antenna units of the distributed antenna system. | 2016-05-05 |
| 20160127102 | METHOD AND APPARATUS FOR TRANSMITTING REFERENCE SIGNAL IN WIRELESS COMMUNICATION SYSTEM BASED ON MULTIPLE ANTENNAS - Disclosed is a method of mapping a demodulation-reference signal (DM-RS) transmitted to a terminal by a base station in a wireless communication system based on multiple antennas. Specifically, the method includes grouping a plurality of DM-RS ports into antenna port groups including a predefined number of DM-RS ports, mapping a DM-RS sequence to two symbol resources of a first slot and two symbol resources of a second slot on one subcarrier, and transmitting the mapped DM-RS sequence to the terminal through the plurality of DM-RS ports, wherein a DM-RS sequence transmitted through DM-RS ports included in the same antenna port group is mapped by applying an orthogonal cover code (OCC) having a length of 2 to the same symbol resource, and the two symbol resources of the first slot correspond to a first antenna port group and the two symbol resources of the second slot correspond to a second antenna port group on the one subcarrier. | 2016-05-05 |
