20th week of 2016 patent applcation highlights part 68 |
Patent application number | Title | Published |
20160142074 | STRUCTURE AND DECODER ARCHITECTURE OF A CLASS OF LOW-DENSITY PARITY-CHECK CODE - This invention provides a cyclically-coupled (CC-) quasi-cyclic (QC-) low-density parity-check (LDPC) code and its decoder architecture. The essence of the invention is to introduce the convolutional nature to a plurality of individual block codes internally so as to form a resultant block code with a prolonged code length while slightly increasing the hardware complexity in decoder realization. The CC-QC-LDPC code is formed by cyclically coupling a plurality of sub-codes each being a QC-LDPC code such that overlapping of some variable nodes between two consecutive sub-codes results. The decoder comprises plural sub-decoders each configured to decode the channel messages for one sub-code. The sub-decoders are arranged in a ring shape such that an individual sub-decoder is configured to communicate edge messages with two neighboring sub-decoders adjacent to said individual sub-decoder in the decoding of the channel messages. The sub-decoders are configured to operate concurrently for simultaneously decoding individual sub-codes. | 2016-05-19 |
20160142075 | ERROR CORRECTING DECODING APPARATUS FOR DECODING LOW-DENSITY PARITY-CHECK CODES | 2016-05-19 |
20160142076 | SYSTEM AND METHOD FOR IMPROVED DECODING USING IDENTIFIED RECURRING SIDE INFORMATION - Methods and systems for decoding monitored communication signals using previously identified side information. Information, which is used for decoding a given frame and is provided to the decoder not via the main communication channel between a base station and a mobile station, is referred to herein as “side information.” The side information can also be viewed as extrinsic information that was derived during previous decoding operations. The monitoring system holds, for certain frames, a-priori information of one or more data values that are expected in these frames. Decoding using this a-priori information enables an Error Correcting Code decoder to successfully decode such frames, which would otherwise fail to decode. | 2016-05-19 |
20160142077 | DUAL-BAND FILTER AND OPERATING METHOD THEROF - A dual-band filter and method thereof include a diplexer configured to process one of a first band signal and a second band signal, which includes a frequency band different from a frequency band of the first band signal, and block the other of the first band signal and the second band signal. A balun is configured to convert the first band signal from a differential signal to a single signal in response to the first band signal being transmitted, and convert the first band signal from a single signal to a differential signal in response to the first band signal being received. A direct current (DC) voltage supply port configured to supply a DC voltage to the balun when the first band signal is received. | 2016-05-19 |
20160142078 | ENVELOPE SHAPING IN ENVELOPE TRACKING POWER AMPLIFICATION - The subject matter described herein relates to envelope shaping in envelope tracking power amplification. A method, apparatus and computer storage medium are provided for envelope shaping in envelope tracking power amplification. In an embodiment, the method comprises performing an envelope shaping operation on reference envelope signals in a time domain to obtain shaped envelope signals; performing a signal quality control on the shaped envelope signals in a frequency domain; and converting the shaped envelope signals from the frequency domain into the time domain to obtain resulting shaped envelope signals. In such a way, a better signal quality can be provided without any modifications to the receiver side. And in turn, the PAPR of the envelope signal may be reduced before entering into a supply modulator and the efficiency of the ET supply modulator could be improved. As a result, the ET PA system performance can be enhanced. | 2016-05-19 |
20160142079 | IN-VEHICLE COMMUNICATION APPARATUS - An in-vehicle communication apparatus includes an antenna module, and a wireless communication device physically separated from the antenna module and connected to the antenna module through a coaxial cable. The antenna module includes an antenna, and a transmission amplifier of the antenna. The wireless communication device includes a power generation portion that supplies a power driving the antenna module, a signal generation portion that generates a transmission signal, a power superimposition portion that superimposes the transmission signal on the power supplied from the power generation portion, and transmits a superimposed power to the transmission amplifier, a current detection portion that detects a consumption current value from the power, a correspondence relationship hold portion that holds a correspondence relationship between the consumption current value and an output power value, and a regulation portion that adjusts the transmission signal to maintain the output power value at a predetermined power value. | 2016-05-19 |
20160142080 | RECEIVER, SENDER, METHOD FOR RETRIEVING AN ADDITIONAL DATUM FROM A SIGNAL AND METHOD FOR TRANSMITTING A DATUM AND AN ADDITIONAL DATUM IN A SIGNAL - A receiver includes a receiver circuit to receive a first transition in a first direction, a second transition in a second direction after the first transition and a third transition in the first transition after the second transition of a signal, in which a first time period between the first and third transitions is at least partially indicating a datum to be received. The receiver circuit is configured to determine a second time period between the first transition and a second transition and to determine an additional datum to be received based at least on the determined second time period between the first and second transitions. | 2016-05-19 |
20160142081 | SYSTEM AND METHOD FOR CONTROLLING LEARNING PERIOD FOR ADAPTIVE NOISE CANCELLATION - A data acquisition system coupled to a mains power source and a method of operating the data acquisition system a disclosed. A test probe is configured to be coupled to a subject, and an analog to digital converter converts a signal from the test probe to samples. A noise replica generator generates estimates of noise in the samples, a noise removal block removes from each sample an estimate of noise therein. When the subject is undergoing stimulation, the samples are provided to only the noise removal block. When the subject is not undergoing stimulation, the samples are provided to both the noise replica generator and the noise removal block. | 2016-05-19 |
20160142082 | SIGNAL RECEIVING APPARATUS AND SIGNAL RECEIVING METHOD - A signal receiving apparatus includes: a first amplifying device, a second amplifying device, a feedback device, and a mixing device, wherein the mixing device is a passive mixer, the second amplifying device is arranged to provide an input impedance looking into an input terminal of the second amplifying device to fall within a first impedance range when the second amplifying device operates in a first frequency range, the second amplifying device is arranged to provide the input impedance looking into the input terminal of the second amplifying device to fall within a second impedance range when the second amplifying device operates in a second frequency range, the second frequency range is different from the first frequency range, and the second impedance range is different from the first impedance range. | 2016-05-19 |
20160142083 | ELECTRONIC DEVICE - An electronic device for communicating in a network is provided. The electronic device includes a circuit board, a frame, a feeding structure formed on the circuit board, and an antenna unit disposed in a plane at a predetermined angle with respect to a surface of the circuit board. In addition, the antenna unit is disposed apart from the frame in electrical connection with the feeding structure. | 2016-05-19 |
20160142084 | RECEIVER WITH ORTHOGONAL BEAM FORMING TECHNIQUE - A receiver with orthogonal beam forming technique is achieved that is capable of differentiating different signal components within the received composite signal. An adaptive processor is used to eliminate the signal component whose phase information is known or can be calculated. The phase information of the major component of a signal can be easily acquired by using a limiter. The phase information of other signal components can be acquired by their direction information and other characteristics, such as modulation scheme, etc. Multiple orthogonal beams can be formed by eliminating one unwanted signal component each time by the adaptive processor until all unwanted signal is eliminated. Thus, a composite signal from multiple sources can be broken down into their component signals. | 2016-05-19 |
20160142085 | SAWLESS ARCHITECTURE FOR RECEIVERS - An apparatus including: at least one differential amplifier configured to amplify a radio frequency signal; a mixer configured to mix the radio frequency signal from the at least one differential amplifier with a local oscillator signal; and a low-pass filter coupled to the mixer, the low-pass filter includes a capacitor and at least one variable resistor configured to tune the low-pass filter. | 2016-05-19 |
20160142086 | SYSTEM AND METHOD FOR PROVIDING SERVICE LICENSE AGGREGATION ACROSS MULTIPLE DEVICE SIM CARDS - A system, a computer program product and a method associate service licenses with a wireless device. A device identifier (device ID) which identifies the wireless device and a Subscriber Identity Module identifier (SIM ID) identifying a SIM card currently inserted in the wireless device are received. If the SIM ID is not currently associated with the device ID, a listing of service licenses associated with the SIM ID is aggregated with a listing of service licenses associated with the device ID. The wireless device is authorized to use service licenses listed in the aggregate listing of service licenses. If the SIM ID was currently associated with a second device ID, the service licenses associated with the SIM ID are removed from a listing of service licenses associated with the second device ID and the second wireless device is deauthorized from using these service licenses. | 2016-05-19 |
20160142087 | System and Methods for Improving Recovery from an Out-of-Service State by SIMs of a Multi-SIM Device Based on User Activity - Methods and devices for controlling recovery from an out-of-service state on a multi-SIM wireless device that has at least two subscription identification modules (SIMs), and that determines whether a voice call or an active data communication session was dropped upon losing service, and prioritizes service recovery on the modem stack associated with the dropped voice call or active communication session. If neither a voice or data call was dropped upon losing service on both SIMs, the multi-SIM wireless device may calculate a priority value for each of the first and second SIMs, calculate an RF resource allocation percentage for each of the first and second SIMs, and grant use of the RF resource to the modem stacks associated with the first and second SIMs based on the calculated RF resource allocation percentages. | 2016-05-19 |
20160142088 | SYSTEM AND METHOD FOR PROVIDING SERVICE LICENSE AGGREGATION ACROSS MULTIPLE PHYSICAL AND VIRTUAL SIM CARDS BACKGROUND OF THE INVENTION - A system, a computer program product and a method associate service licenses with a wireless device. A device identifier (device ID) which identifies the wireless device and a Subscriber Identity Module identifier (SIM ID) identifying a SIM card currently inserted in the wireless device are received. If the SIM ID is not currently associated with the device ID, a listing of service licenses associated with the SIM ID is aggregated with a listing of service licenses associated with the device ID. The wireless device is authorized to use service licenses listed in the aggregate listing of service licenses. A virtual SIM identifier may be associated with the SIM identifier and at least one additional service license. The at least one additional service license associated with the virtual SIM identifier may be stored in a database as a subscriber service profile. | 2016-05-19 |
20160142089 | Apparatus For Intelligently Reducing A Specific Absorbtion Rate, A Protective Case And A Terminal - The present disclosure relates to an apparatus for intelligently reducing a specific absorption rate, a protective case and a terminal. The apparatus includes an antenna assembly, a sensing assembly being configured to determine an approach to or a contact of the antenna assembly by a human body; the sensing assembly is also configured to control the antenna assembly for reduction of input power when detecting an approach to or a contact by a human body. By the above means, the apparatus is capable of lowering the input power automatically when the antenna is approached to the human body, therefore reducing the radiation to the human body and reducing the harm thereto. | 2016-05-19 |
20160142090 | FLIP COVER PLATE FOR MOBILE TERMINAL - The present invention relates to a flip cover plate ( | 2016-05-19 |
20160142091 | PROTECTIVE CASE FOR A TABLET COMPUTER - The present disclosure generally relates to a protective case for a tablet computer, includes: a front plate ( | 2016-05-19 |
20160142092 | Multifuctional Protective Case With Wirelss Router Functionality - A multifunctional protective case for a tablet computer includes a front plate ( | 2016-05-19 |
20160142093 | Protective Case Accessory With Multi-Function Button For Smart-phone Device - A protective case accessory with integrated Multifunction button configured for attachment to a cellular smartphone device, facilitating the initiation of embedded features or software applications, or both, when attached to the Smartphone device. The invention includes a Multifunction button integrated into a protective case accessory and preferably uses a Bluetooth transceiver to connect wirelessly to a smartphone device to send and receive audio or data communication, or both. | 2016-05-19 |
20160142094 | METHOD AND APPARATUS FOR RELATIVE TRANSCEIVER CALIBRATION FOR WIRELESS COMMUNICATION SYSTEMS - A method and apparatus is disclosed herein for relative calibration of transceivers in a wireless communication system. In one embodiment, the method comprises transmitting multiple pilots from units in the first group; receiving, in response to the multiple pilots, a first set of pilot observations at each unit in the second group; transmitting a single pilot simultaneously from at least two units in the second group; in response to the single pilot, receiving a second set of pilot observations at each unit in the first group; and using the first and second sets of pilot observations to calibrate each of at least two units in the second group based on a reference array of transceivers in the first group of transceivers. | 2016-05-19 |
20160142095 | MULTIPLE RADIO FREQUENCY (RF) SYSTEMS USING A COMMON RADIO FREQUENCY PORT WITHOUT AN RF SWITCH - Methods and systems are disclosed for changing between multiple radio frequency (RF) systems. The method comprising transmitting, by a first radio frequency (RF) transmitter of a first RF system, a first RF signal from an antenna, receiving, by a first RF receiver of the first RF system, a second RF signal from the antenna, and receiving, by a second RF receiver of a second RF system, the second RF signal from the antenna, wherein a first RF port of the first RF system and a second RF port of the second RF system are both connected to a common RF port of the antenna, and wherein the first and second RF systems operate with overlapping frequency bands. | 2016-05-19 |
20160142096 | SYSTEMS ANSD METHODS FOR MULTI-RATE DIGITAL SELF-INTERFERENCE CANCELLATION - A system for multi-rate digital self-interference cancellation including a signal component generation system coupled to a digital transmit signal of a communication system that generates a set of signal components from the digital transmit signal; a multi-rate adaptive filter that transforms the set of signal components into a digital self-interference cancellation signal, according to a transform configuration, to form an interference-reduced receive signal; and a transform adaptor that dynamically sets the transform configuration in response to changes in the interference-reduced receive signal. | 2016-05-19 |
20160142097 | ENERGY-EFFICIENT SYSTEM FOR DISTANT MEASUREMENT OF ANALOGUE SIGNALS - An energy-efficient system for measurement of analogue signals including one or more measuring units. Each measuring unit has a measuring probe which signal is processed by a modulator. All measuring units have identical modulators selected from the Time Encoding Machine family: Asynchronous Sigma Delta Modulator , Integrate And Fire Modulator and Integral Pulse Frequency Modulator. A signal from the modulator is processed by a delay circuit from which is optionally fed back to the modulator. Signals from the delay circuit and modulator are used to trigger a UWB pulse generator, which is optionally amplified and transmitted via transmission line or antenna. The delay circuit uniquely characterizes the measuring unit and enables the receiving unit to separate received signals from plurality of measuring units signals sent in an unsynchronized manner. The invention is useful for long term acquisition of analog signals, especially time varying signals such as biological signals. | 2016-05-19 |
20160142098 | DETERMINING DOWNSTREAM POWER BACK-OFF PARAMETERS - Methods, systems, and apparatus for determining values of downstream power back-off parameters are disclosed. In one aspect, a method includes receiving cable loss data of a cable configured to deliver a digital subscriber line (DSL) signal; identifying a cable model that characterizes a cable loss value at a frequency over a length of the cable; and determining a set of downstream power back-off (DPBO) parameter values of the cable model based on a product of a pseudo-inverse of a frequency matrix including a plurality of different frequencies and a vector of the cable loss data that includes a plurality of cable loss values with respect to the plurality of different frequencies of the pseudo-inverse of the frequency matrix. | 2016-05-19 |
20160142099 | TRACKING ASSET COMPUTING DEVICES - One or more processors send a signal from a first computing device to a second computing device through a hardwire connection. One or more processors determine a change between the signal as sent by the first computing device and the signal as received by the second computing device. The change is caused, at least in part, by the distance the signal travels. One or more processors determine a geo-location of the second computing device based, at least in part, on the change. | 2016-05-19 |
20160142100 | Device, System, and Method for Communicating with a Power Inverter Using Power Line Communications - A device, system, and method for communicating with a power inverter of an array of inverters includes transmitting a relay message from an inverter array controller to a relay inverter in response to failing to receive a response from at least one power inverter of the array. The relay inverter is configured to retransmit a message from the inverter array controller to a non-responsive power inverter of the array of inverters in response to receiving the relay message. The relay inverter may subsequently retransmit a reply received from the non-responsive power inverter to the inverter array controller or to another power inverter of the array of inverters. | 2016-05-19 |
20160142101 | Enhanced Carrier Sense Multiple Access (CSMA) Protocols - Power Line Communications (PLC) device for enhanced carrier sense multiple access (CSMA) protocols are described. The PLC device includes a modem, an AC interface and a PLC engine. The engine is configured for transmitting PC packets over a plurality of electrical wires using a particular channel. Transmitting a normal priority packet may include attempting to access a communications channel to transmit a frame after a backoff time proportional to a randomly generated number within a contention window (CW), the CW having an initial value carried over from a previous transmission of a different frame. Additionally or alternatively, some of techniques described herein may facilitate the spreading of the time over which devices attempt to transmit packets, thereby reducing the probability of collisions using, for example, Additive Decrease Multiplicative Increase (ADMI) mechanisms. | 2016-05-19 |
20160142102 | MOTOR VEHICLE ON-BOARD POWER SYSTEM AND METHOD FOR TRANSMITTING DATA SIGNALS IN A MOTOR VEHICLE ON-BOARD POWER SYSTEM - In order to permit, in a motor vehicle on-board power system, data to be transmitted with low expenditure on cabling, even between multiple partial networks, a plurality of loads embodied, in particular, as sensors is respectively assigned a communication unit for transferring data. The communication units are embodied in such a way that, by utilizing the supply lines they set up a partially interlinked data network, and transfer data made available by the loads, with the result that communication via the partial networks is also made possible. As a result of the transmission of the data via the supply lines in combination with the setting up of a partially interlinked data network, signal transmission is made possible even if there is no direct connection between the respective sensor and a target unit. | 2016-05-19 |
20160142103 | TRANSMITTER PATH FOR POWER LINE COMMUNICATION DEVICES - A transmitter path of a power line communication (PLC) device is described. In an embodiment, the transmitter path may include an amplifier, a capacitor coupled to the amplifier, a shared transformer coupled to the capacitor, and a plurality of line interface coupling circuits coupled to the shared transformer, where each of the line interface coupling circuits is configured to be connected to a different phase of an electrical power circuit. | 2016-05-19 |
20160142104 | METHOD OF COMMUNICATIONS IN A NETWORK INTERCONNECTING AT LEAST TWO POWER GENERATORS, AND CORRESPONDING INTERFACING DEVICE - A method is provided for communications in a network interconnecting at least two power generators, each power generator being connected to said network by at least one interfacing device capable of sending and receiving communications frames. The frames have at least one piece of supervision data and at least one piece of information data. The method includes an act of sending during which the same pieces of information data are sent at least twice, wherein two operations of sending frames have identical pieces of information data being separated in time by a predetermined time interval; and an act of receiving, implementing a systematic elimination of one of the frames received when two frames having identical pieces of information data have been received. | 2016-05-19 |
20160142105 | VARIABLE CAPACITANCE DEVICE AND ANTENNA APPARATUS - A variable capacitance device includes: a first and second terminal for signals; a plural, even number of variable capacitance elements connected in-series between the first and second terminal; a third and fourth terminal for receiving a same voltage; a fifth and sixth terminal for grounding; a plurality of first resistors connected to either the third or fourth terminal on one end; and a plurality of second resistors connected to either the fifth or sixth terminal on one end. With respect to a series of successive nodes beginning with the first terminal and ending with the second terminal, respective other ends of a pair of the first resistors are connected to every other node, and respective other ends of a pair of the second resistors are connected to the remaining every other node, such that the pairs of first and second resistors are alternately connected to the series of successive nodes. | 2016-05-19 |
20160142106 | PORTABLE DEVICE INCLUDING MEANS FOR TRANSMITTING DATA BY INDUCTIVE COUPLING AND INTRACORPOREAL CURRENT - The present invention relates to a device for transmitting data by intracorporeal current comprising a first electrode intended to be capacitively coupled with the body of a subject or with the environment, and a circuit for biasing the first electrode comprising an electric coil arranged near the first electrode so as to generate, from an AC signal, an alternating magnetic field having field lines which interfere with the first electrode and therein induce currents which, in turn, induce an electric field generating intracorporeal current. | 2016-05-19 |
20160142107 | SYSTEM AND METHOD FOR NEAR FIELD COMMUNICATIONS ANTENNA FOR MOBILE DEVICES - A system for an antenna for near field communications (NFC), said antenna comprising a primary loop with a primary current to produce a magnetic field; one or more secondary loops with one or more secondary currents; wherein by adjusting one or more variables associated with said one or more secondary loops, said magnetic field is modified to ensure antenna operation within a defined operating range. | 2016-05-19 |
20160142108 | NEAR-FIELD COMMUNICATION MODULE OF ELECTRONIC DEVICE - A near-field communication (NFC) module of an electronic device is operable to move between a retracted position and an extended position. The NFC module is extended out of a slot of the electronic device in the extended position, and retracted into the slot in the retracted position. The slot is defined in a side of the electronic device. An NFC induction zone of the NFC module is exposed out of the electronic device in the extended position. The NFC induction zone is configured to carry out NFC functions of the electronic device. | 2016-05-19 |
20160142109 | ADVANCED ROUTING MECHANISMS FOR SECURE ELEMENTS - Various aspects are described herein in connection with a method and/or apparatus of near-field communication (NFC). For example, various methods and apparatuses include a NFC controller receiving a current message from a NFC reader. Methods and apparatuses include the NFC controller determining that the current message received from the NFC reader is not associated with a known secure element identification, identifying a secure element corresponding to a last response message sent to the NFC reader, and sending the current message to the identified secure element that originated the last response message sent to the NFC reader. Methods and apparatuses also include the NFC controller receiving a request message from the NFC reader prior to the receiving of the current message, receiving the last response message from one of a plurality of secure elements, and saving an identification of the one of the secure elements that sent the last response message. | 2016-05-19 |
20160142110 | PORTABLE TERMINAL HAVING A WIRELESS CHARGER COIL AND AN ANTENNA ELEMENT ON THE SAME PLANE - A portable terminal is provided. The portable terminal includes a shielding member attached to an inner surface of an external part, a shielding wall formed on the shielding member, a first coil attached to a surface of the shielding member that faces the inner surface of the external part, and a second coil attached to the surface of the shielding member, with the second coil surrounds the first coil on a same plane and the shielding wall being disposed between the first and second coil. | 2016-05-19 |
20160142111 | ENABLING USE OF STAY QUIET REQUESTS IN A NEAR FIELD COMMUNICATION DEVICE - Techniques for enabling a use of one or more signals in a Near Field Communication (NFC) device for NFC communication are described. In an aspect, the methods and apparatus include receiving, at a NFC controller, a stay quiet command from a device host, wherein the stay quiet command includes one or more unique identifiers (UIDs) corresponding to one or more remote NFC endpoints. Further, in an aspect, the methods and apparatus include transmitting, by the NFC controller, a stay quiet response to the device host based at least in part on the stay quiet command. | 2016-05-19 |
20160142112 | COMMUNICATION DEVICE AND FEEDER DEVICE - A communication device includes an antenna, at least one magnetic field sensor, a communication component, and a controller. The antenna generates a magnetic field and communicates with an external device that generates a magnetic field during communication. The at least one magnetic field sensor includes a pair of sensor elements. The at least one magnetic field sensor detects magnetic field strength by receiving the magnetic field of the antenna and the magnetic field of the external device. The communication component communicates with the external device via the antenna. The controller processes output signal indicative of the magnetic field strength detected by the at least one magnetic field sensor. A component of the magnetic field of the antenna in the output signal is suppressed. | 2016-05-19 |
20160142113 | SYSTEMS AND METHODS FOR INDUCTIVELY COUPLED COMMUNICATIONS - A method for inductively coupled communications is described. The method includes generating a retransmitted modulated signal that is stronger than a received signal from a first device. The method also includes generating a suppressed carrier signal from the retransmitted modulated signal for retransmission to the first device. The method further includes filtering a superimposed signal of the suppressed carrier signal on the received signal to attenuate modulation sidebands. The method additionally includes synchronizing to the first device based on the filtered signal. | 2016-05-19 |
20160142114 | METHOD AND SYSTEM FOR DISTRIBUTED TRANSCEIVERS FOR DISTRIBUTED ACCESS POINTS CONNECTIVITY - A controlling entity communicates with a plurality of network devices having a plurality of distributed transceivers and one or more corresponding antenna arrays. The controlling entity receives information, such as location information, propagation environment characteristics, physical environment characteristics and/or link parameters and quality from the network devices and/or communication devices that are communicatively coupled to the plurality of network devices. The controlling entity coordinates communication of data streams for the distributed transceivers and the antenna arrays based on the received information. The network device comprises an access point, a router, a switching device, a gateway and/or a set top box. The controlling entity is located within or external to one of the network devices. One or more functions performed by the controlling entity are split between the controlling entity and one or more of the network devices. | 2016-05-19 |
20160142115 | METHOD AND APPARATUS FOR PRECODING CHANNEL STATE INFORMATION REFERENCE SIGNAL - A base station includes a transceiver, and a processor configured to allocate at least one CSI-RS antenna port to a user equipment (UE), precode the at least one CSI-RS antenna port with a first precoding matrix, cause the transceiver to transmit the at least one CSI-RS antenna port precoded with the first precoding matrix through a channel to the UE, cause the transceiver to signal a number of the at least one antenna port to the UE, cause the transceiver to receive an index for a second precoding matrix from the UE, wherein the second precoding matrix is determined by the UE according to the at least one CSI-RS antenna port precoded with the first precoding matrix as received through the channel by the UE and the signaled number of the at least one antenna port, and precode transmission data with the first precoding matrix and the second precoding matrix. | 2016-05-19 |
20160142116 | METHOD OF ALLOCATING RESOURCES FOR TRANSMITTING UPLINK SIGNAL IN MIMO WIRELESS COMMUNICATION SYSTEM AND APPARATUS THEREOF - A method and terminal are described for allocating resources for transmitting a signal in a multiple-input multiple-output (MIMO) wireless communication system. An uplink signal is transmitted using L layers at a terminal in a multiple-input multiple-output (MIMO) wireless communication system. Modulation symbols are generated by modulating output bit sequences of an interleaver matrix by a unit of log | 2016-05-19 |
20160142117 | METHODS TO CALCULATE LINEAR COMBINATION PRE-CODERS FOR MIMO WIRELESS COMMUNICATION SYSTEMS - In a wireless communication system having an antenna array selectively configured to transmit channel state information reference signals (CSI-RS) using a plurality of antenna ports and basis beam vectors selected from a master beam set or retrieved from memory, a codebook enables selection of a linear combination of at least a subset of the beams and co-phases and coefficients for each selected beam, where the co-phases determine the co-phasing weights for the selected beams for a cross-polarized antenna array, and the coefficients determine the linear combination of the selected beams. Feedback contains an indication of channel state information (CSI) for the set of selected or retrieved basis beam vectors, the selected beams, co-phases, and coefficients. The CSI includes at least precoding matrix information (PMI) corresponding to a precoding vector based on a set of the basis beam vectors for the selected beams, corresponding co-phases, and corresponding coefficients. | 2016-05-19 |
20160142118 | SIGNAL GENERATION METHOD AND SIGNAL GENERATION DEVICE - A transmission method simultaneously transmitting a first modulated signal and a second modulated signal at a common frequency performs precoding on both signals using a fixed precoding matrix and regularly changes the phase of at least one of the signals, thereby improving received data signal quality for a reception device. | 2016-05-19 |
20160142119 | BEAM FORMING WITH DOUBLE-NULL-STEERING FOR IN-BAND ON-CHANNEL RECEPTION - Various exemplary embodiments relate to a method for improving reception of transmissions with first adjacent interference signals, the method including selecting one or more time samples from each of two or more antennas; generating a lower first adjacent interference (LFAI) signal, a desired signal, and an upper first adjacent interference (UFAI) signal for each of the time samples; calculating a lower weighting co-efficient based on the LFAI signal; calculating a middle weighting co-efficient based on the desired signal; calculating a upper weighting co-efficient based on the UFAI signal; combining the lower weighting co-efficient with a filtered LFAI signal into a weighted lower signal; combining the middle weighting co-efficient with a filtered desired signal into a weighted middle signal; combining the upper weighting co-efficient with a filtered UFAI signal into a weighted upper signal; and combining the weighted lower signal, the weighted middle signal, and the weighted upper signal. | 2016-05-19 |
20160142120 | MOBILE DEVICE TRANSMITTER AND METHODS FOR TRANSMITTING SIGNALS IN DIFFERENT SIGNAL DIMENSIONS FOR 3GPP LTE - Embodiments of a mobile device transmitter and methods for transmitting signals in different signal dimensions are generally disclosed herein. The mobile device transmitter comprises a mapper to map a block of two or more input modulation symbols to different signal dimensions comprising two or more spatial dimensions, and linear transform circuitry to perform a linear transform on the block of mapped input modulation symbols to generate a block of precoded complex-valued output symbols such that each output symbol carries some information of more than one input modulation symbol. The mobile device also comprises transmitter circuitry to generate time-domain signals from the blocks of precoded complex-valued output symbols for each of the spatial dimensions for transmission using the two or more antennas. The precoded complex-valued output symbols are mapped to different signal dimensions comprising at least different frequency dimensions prior to transmission. | 2016-05-19 |
20160142121 | SUB-BAND FEEDBACK FOR BEAMFORMING ON DOWNLINK MULTIPLE USER MIMO CONFIGURATIONS - A method in a communication network includes an access point, using a multiple input multiple output antenna configuration, sending out a sounding packet to a plurality of client stations. The client stations determine a channel estimation of the sounding packet, but only a channel estimation of a portion of the entire sounding packet to avoid processing the entire packet. The resulting partial estimation is sent to the access point for using in transmit beamforming. In other examples, the client station sends a reverse link sounding packet over a portion a channel having a bandwidth less than the sounding packet, and from this the access point determines partial channel estimations and transmit beamforming conditions. | 2016-05-19 |
20160142122 | METHODS AND APPARATUS FOR CHANNEL STATE INFORMATION FEEDBACK - Methods and apparatus for channel state information feedback are provided. In one aspect, a method for wireless communication is provided. The method includes providing a request from an access point to two or more stations for the two or more stations to transmit channel state information (CSI) concurrently at a specific time. The method further includes receiving, at the access point, the CSI from each of the two or more stations. | 2016-05-19 |
20160142123 | EVOLVED NODE-B, USER EQUIPMENT, AND METHODS FOR CHANNEL QUALITY INDICATOR (CQI) FEEDBACK - Embodiments of User Equipment (UE), an Evolved Node-B (eNB), and methods for channel quality indicator (CQI) feedback are disclosed herein. An aperiodic CQI type parameter received at the UE may indicate a CQI type for use in a determination of an aperiodic CQI based on signals received from the eNB. Channel-state information reference signals (CSI-RS) may be used when single-user multiple-input multiple-output (SU-MIMO) signals are received. Physical downlink shared channel (PDSCH) blocks may be used when multi-user multiple-input multiple-output (MU-MIMO) signals are received. The aperiodic CQI may be transmitted to the eNB as part of an aperiodic CQI measurement report. In addition, periodic CQI measurement reports may also be transmitted to the eNB and may include periodic CQIs that are based on CSI-RS received at the UE. | 2016-05-19 |
20160142124 | NETWORK ELEMENT, INTEGRATED CIRCUIT AND METHOD OF DETERMINING CONNECTIVITY FROM ANTENNA ELEMENTS TO TRANSCEIVER LINE-UPS - A method for assigning, in a database, a relationship between at least one logical channel and at least one antenna element feed that is coupleable to at least one antenna element of an antenna arrangement, is described. The method comprises either: applying a first signal to at least one first logical channel; and detecting whether there is a presence of a radio frequency signal converted from the first signal on at least one first antenna element feed; or applying a second signal to at least one first antenna element feed coupleable to at least one first antenna element of the antenna arrangement; and detecting whether there is a presence of a logical signal converted from the second signal on at least one first logical channel. The method further comprises assigning in the database in response thereto a relationship between the at least one first logical channel and the at least one first antenna element feed. This advantageously allows assigning of logical channels via a plurality of transceivers to a plurality of antenna elements. Furthermore, a logical channel to beamform coefficient assignment may be determined for the antenna array. | 2016-05-19 |
20160142125 | A SYSTEM AND METHOD FOR RECEIVING AND PROCESSING ARRAY ANTENNA SIGNALS - A system for receiving signals from an array antenna that includes a first number of antenna elements, including an orthogonal signals generator module configured to generate the first number of orthogonal signals. Plurality of multipliers configured to receive array antenna element analog signals and the first number of orthogonal signals and generate a corresponding multiplied analog signal, giving rise to a first number of multiplied analog signals. A second number of summation modules configured to receive the first number of multiplied analog signals from the multipliers and generate a second number of summed analog signals. A second number of analog to digital converters configured to receive the summed analog signals and generate the second number of summed digital signals. The summed digital signals are capable of being fed to a digital processor for generating a processed signal of the array antenna, wherein the second number falls in the range of 1 to less than the first number. | 2016-05-19 |
20160142126 | METHOD AND APPARATUS FOR BEAMFORMING USING POLARIZED ANTENNA IN A WIRELESS COMMUNICATION SYSTEM - A method and apparatus for beamforming using a polarized antenna in a wireless communication system are disclosed. The apparatus includes a processor configured to process a signal, and a multi-polarized antenna including a plurality of antenna elements, configured to transmit the signal. The plurality of antenna elements include an electric-field dipole antenna and a magnetic-field dipole antenna, and a current is applied to the electric-field dipole antenna and the magnetic-field dipole antenna in the same direction or in opposite directions. | 2016-05-19 |
20160142127 | MILLIMETER-WAVE RELAY DEVICE WITH BOUNDED DELAY AND METHOD FOR RETRANSMISSION OF SYMBOLS - Embodiments of a wireless station to operate as a per-symbol relay device and method for retransmission of symbols between client devices and a master device using millimeter-wave links is generally disclosed herein. In some embodiments, the relay device may receive one or more of independent symbol streams from the master device. Each independent symbol stream may comprise packets that include groups of one or more symbols. Each group within a packet may be destined for a different one of the client devices. The relay device may separately decode each symbol or group of symbols to generate an independent stream of symbols for retransmission to the client devices using beamforming. The relay device may be arranged to receive, decode, and retransmit each symbol or group of symbols within a delay that is bounded by the number of symbols in the group. | 2016-05-19 |
20160142128 | METHOD AND APPARATUS FOR COOPERATIVE WIRELESS COMMUNICATIONS - A method and apparatus for wireless communications is disclosed. Channel state information (CSI) for a plurality of network nodes is transmitted. Grant information is received from at least one network node of the plurality of network nodes. The grant information is based on the transmitted CSI and includes an indication of a cooperative scheme. A plurality of beam-formed signals, including data from each of the plurality of network nodes, is received in response to the received grant information. The same data is received from each of the plurality of network nodes. | 2016-05-19 |
20160142129 | MINIMIZING PROPAGATION TIMES OF QUEUED-UP DATALINK TPDUS - A method for minimizing propagation time of at least one queued-up datalink TPDU comprises determining whether a current TPDU ready for transmission requires acknowledgement; transmitting the current TPDU, starting a retry timer, and setting a transmission count to one, when acknowledgement required; determining whether acknowledgement received after transmitting the current TPDU; determining whether a pending TPDU is awaiting transmission when acknowledgement is not received; when a pending TPDU is awaiting transmission, determining whether elapsed wait time of the current TPDU is greater than a preselected minimum; incrementing the transmission count by one when elapsed wait time is greater than the preselected minimum; determining again whether there is a pending TPDU awaiting transmission when the transmission count is less than a predetermined maximum and an inactivity timer has not expired; and when there is still at least one pending TPDU awaiting transmission, retransmitting the current TPDU and restarting the retry timer. | 2016-05-19 |
20160142130 | SATELLITE SYSTEM ARCHITECTURE FOR COVERAGE AREAS OF DISPARATE DEMAND - Disclosed is a satellite communication system that allocates bandwidth to maximize the capacity of the communication system while providing service to geographical areas having different demands. A smaller portion of the frequency spectrum can be allocated for subscriber beams that supply service to low demand areas. A larger portion of the frequency spectrum can be provided to subscriber beams that provide access to high demand areas. Allocation of bandwidth can be determined by the amount of demand in low demand areas versus the amount of demand in high demand areas. High demand gateways are physically located in low demand subscriber beams, while low demand gateways are physically located in high demand subscriber beams, which prevents interference. | 2016-05-19 |
20160142131 | OPTICAL TRANSMITTER MODULE - An optical transmission device includes a light source, a driver, and a light receiving element. In accordance with electronic signals supplied from a signal line, the light source emits forward a signal light and emits back a monitor light for monitoring the signal light. The driver is disposed behind the light source and supplies the electronic signals to the signal line. The driver has a reflection area that reflects the monitor light in a direction different from a direction in which the monitor light, which is emitted back from the light source in accordance with the electronic signal, travels. The light receiving element receives the monitor light that is reflected on the reflection area of the driver. | 2016-05-19 |
20160142132 | OPTICAL PHASE NOISE EXTRACTING DEVICE AND OPTICAL PHASE NOISE EXTRACTION METHOD - An apparatus includes: a first measurer configured to measure first phase data indicating a temporal variation in a phase of a non-transferred signal that is an optical signal modulated by an optical phase modulation scheme and output from a transmitting device to an optical transmission path as the non-transferred signal; a second measurer configured to second phase data indicating a temporal variation in the phase of the optical signal transferred by the optical transmission path as a transferred signal on a side of a receiving device; a generator configured to generate differential data indicating a difference between the first phase data and the second phase data; and an extractor configured to use the differential data to extract, from the optical signal on the side of the receiving device, optical phase noise generated due to the optical transmission path. | 2016-05-19 |
20160142133 | Methods, Systems and Devices for Optical-Signal-to-Noise-Ratio Monitoring - A device for optical-signal-to-noise (OSNR) monitoring can include: a delay-line interferometer configured to connect with a tunable optical filter; and two or more power detectors to measure outputs of the interferometer; wherein one or more parameters are optimized for different transmission baud rates to improve accuracy. In addition, a method can include: connecting an input of a delay-line interferometer with an output of a tunable optical filter, and an output of the delay-line interferometer with an input of a power detector, to form an optical-signal-to-noise (OSNR) monitoring apparatus; optimizing one or more parameters of the OSNR monitoring apparatus for different transmission baud rates to improve accuracy. | 2016-05-19 |
20160142134 | DETERMINATION OF AN OPTICAL SIGNAL TO NOISE RATIO OF A DUAL-POLARIZATION OPTICAL SIGNAL - A method is provided for determining an optical signal to noise ratio of a dual polarization optical signal. The method includes: detecting, in the dual polarization optical signal, a modulation signal which modulates, at at least one low amplitude level that is approximately zero and at a high amplitude level, the dual polarization optical signal, and determining the optical signal to noise ratio from a measurement of the power of the modulation signal. | 2016-05-19 |
20160142135 | IN-BAND NOISE DETERMINATION ON OPTICAL COMMUNICATION SIGNALS - There are provided methods and devices for determining a quality parameter characterizing an optical communication signal, the methods being performed by signal detection devices. At the transmitting end, there are obtained a signal power P | 2016-05-19 |
20160142136 | OPTICAL TRANSCEIVER, OPTICAL TRANSMISSION SYSTEM, AND LIGHT SOURCE OUTPUT MONITORING METHOD - An optical transceiver includes: a light source; a light source power management unit configured to manage a state of an output power of the light source; an optical detector configured to receive a first optical signal from a counterpart optical transmission apparatus and detect the first optical signal; and a monitoring information extraction unit configured to extract a monitoring information of a reception power level of a second optical signal, which is generated from an output light of the light source and received in the counterpart optical transmission apparatus, from the first optical signal, wherein the light source power management unit is configured to update a written value of the state of the output power of the light source in a case where a monitored value of the reception power level included in the monitoring information is decreased to exceed a variation of an optical transmission path. | 2016-05-19 |
20160142137 | Method for Implementing Dimming, and Dimming Apparatus - A method and apparatus for implementing dimming are disclosed. The method includes: at an MAC layer, dividing an MSDU into two or more sub-MSDUs with a same length; encapsulating each sub-MSDU obtained after dividing into a separate MPDU, and generating a compensation frame for each MPDU; and aggregating the MPDUs and the compensation frames with the same addresses into a PSDU part of a PPDU and transmitting a physical frame. | 2016-05-19 |
20160142138 | INFORMATION COMMUNICATION METHOD - An information communication method of transmitting a signal is provided that uses a change in luminance. The method includes determining a pattern of the change in luminance by modulating the signal to be transmitted, and transmitting the signal by a light emitter changing in luminance according to the determined pattern. The pattern of the change in luminance is a pattern in which one of two different luminance values occurs in each arbitrary position in a predetermined duration. The determining a pattern of change in luminance includes dividing the predetermined duration into four duration units, so that one of two different luminance value occurs in one duration unit of the four duration units and the other luminance value of the two different luminance value occurs in three duration units of the four duration units, the three duration units are other than the one duration unit. | 2016-05-19 |
20160142139 | LED LIGHT DONGLE COMMUNICATION SYSTEM - A Universal Serial Bus (USB) dongle may include an optical transceiver having a USB interface for engagement to an electronic device such as a laptop computer or other USB-configured device. The USB dongle may include a converter or buffering, isolation, modulation or amplification circuitry. The USB dongle sends and receives data signals which may be carried upon an optical transmission as generated by an LED light source which in turn is in communication with a host device such as a network processor. The USB dongle may also include operational amplifiers (op-amps) and transistor amplifiers. | 2016-05-19 |
20160142140 | VISIBLE LIGHT COMMUNICATION METHOD, IDENTIFICATION SIGNAL, AND RECEIVER - A visible light communication method is provided that includes obtaining a first ID indicating a default interpolation ID previously stored in a receiver. The method also includes obtaining a second ID, by the receiver, through visible light communication with a light source, and generating a third ID, by the receiver, by combining the first ID and the second ID. The method further includes obtaining, by the receiver, information from a server using the third ID, which is a combination of the first ID and the second ID. | 2016-05-19 |
20160142141 | OPTICAL COMMUNICATION DEVICE - An optical communication device includes an optical fiber, two chips, a light emitter, a photoelectric conversion device, and a circuit board. The chips includes a substrate, and a polarizing beam splitter positioned on the substrate, the polarizing beam splitter includes a first coupling device, second coupling device, a Y-waveguide, and a TM filter coupling to the third channel. The chips, the light emitter, and the photoelectric conversion device are coupled to the circuit board, the light emitter, and the photoelectric conversion device are connected electrically with the circuit board. | 2016-05-19 |
20160142142 | Spatial-Mode Multiplexing Optical Signal Streams Onto A Multimode Optical Fiber - An apparatus includes an optical spatial-mode multiplexer having a plurality of optical inputs and an optical output and an optical spatial-mode filter end-connected to the optical output of the optical spatial-mode multiplexer. The optical spatial-mode filter is configured to end-connect to a multimode optical fiber having a set of optical propagation modes and is configured to pass the optical modes of the set whose velocities in the multimode optical fiber are within a selected range and to block remaining ones of the optical modes of the set. | 2016-05-19 |
20160142143 | METHODS AND APPARATUSES FOR SENDING AND RECEIVING SIGNAL, AND SYSTEM - The present invention relates to the field of mobile communications technologies. The methods for sending and receiving a signal are specifically: splitting a received digital signal into a first digital signal and a second digital signal, respectively converting the first digital signal and the second digital signal into an analog in-phase signal and an analog quadrature signal, respectively modulating the analog in-phase signal and the analog quadrature signal to two optical signals that are perpendicular to each other and are in a polarization state, combining, into one optical signal, the two optical signals that are perpendicular to each other and are in a polarization state, and sending the optical signal to an ONU; and performing, by the ONU, corresponding demodulation on the optical signal, and sending the optical signal to a user terminal. | 2016-05-19 |
20160142144 | MULTI-DOMAIN SCHEDULING FOR SUBORDINATE NETWORKING - Multi-domain scheduling for subordinate networking is contemplated. The scheduling may include controlling a terminal to facilitate interfacing an Internet Protocol (IP) network with a point-to-multipoint (P2MP) network where the P2MP network includes one or more aggregating devices to facilitate interfacing signaling with devices/units associated with one or more subordinate P2MP networks. | 2016-05-19 |
20160142145 | OPTICAL MODULE - The embodiments of this disclosure provide an optical module, which expands the network bandwidth, eases a problem on dynamic bandwidth allocation. The optical module comprises an optical transceiver assembly and a control circuit, wherein the optical transceiver assembly comprises a first optical emitter and a second optical emitter; the control circuit is configured to control the first optical emitter to generate an optical signal of a first waveband, and the first optical emitter is configured to emit the optical signal of the first waveband to a transmission optical fiber; or, the control circuit is configured to control the second optical emitter to generate an optical signal of a second waveband, and the second optical emitter is configured to emit the optical signal of the second waveband to the transmission optical fiber. This disclosure is applied to an optical module of a wavelength division multiplex passive optical network. | 2016-05-19 |
20160142146 | TRANSMISSION APPARATUS, LINE CARD AND CONTROL METHOD OF TRANSMISSION APPARATUS - A transmission apparatus includes: a module configured to receive and transmit data externally, the data received and to be transmitted being transferred via an interface internally; a framer configured to process transmission and reception of the data processed by the module; a transmission channel on which predetermined data is transmitted and received to and from the framer; and a controller configured to determine a combination of setting values for transmission and reception in accordance with a surrounding environment of the transmission channel, based on an error rate when the predetermined data is transmitted and received for each combination of setting values for transmission and reception on the transmission channel, and to perform setting for transmission and reception via the interface, based on the determined combination of setting values for transmission and reception. | 2016-05-19 |
20160142147 | SMALL PACKAGED TUNABLE LASER TRANSMITTER - A tunable laser transmitter configured in a small package subassembly coupled to a printed circuit board. The tunable laser transmitter includes a housing with a volume formed by exterior walls. An electrical input interface is positioned at the first end of the housing. A first and a second optical output interface is positioned at the second end of the housing, the first output being configured to transmit a modulated optical beam, and the second output configured to transmit a cw beam to the local oscillator of an external receiver. | 2016-05-19 |
20160142148 | A DEVICE AND A METHOD FOR GENERATING AN ELECTRICAL SIGNAL WITH A SUPPRESSED FREQUENCY BAND - Abstract Disclosed herein is a notch filter and a method for generating an electrical signal with a suppressed frequency band. The filter generates an optical signal by modulating a modulation optical wave with an electrical signal to generate first and second sidebands. The first sideband or the second sideband has less power than the other. The filter then modifies the optical signal by equalising the power of light within the first side band at a selected frequency band and light within the second side band at the selected frequency band. The filter then produces an antiphase relationship between the light within the first side band at the selected frequency band and the light within the second side band at the selected frequency band. The filter then detects the modified optical signal to generate a copy of the electrical signal with suppressed frequency components within the selected frequency band. | 2016-05-19 |
20160142149 | System and Methods for Adaptive Equalization for Optical Modulation Formats - A method for modifying the performance of an adaptive equalizer in a receiver is provided. A carrier wave comprising a first polarization state and a second polarization state, wherein there is a correlation between the first polarization state and the second polarization state, is received. The first polarization state and the second polarization state are demultiplexed to generate two respective constellations. A first expected value based on the first constellation, and a second expected value based on the second constellation, are calculated. An adaptive equalizer receives a first and second signals associated with the respective polarization states. The adaptive equalizer generates outputs based on the signals. These outputs are used to generate error values. Feedback is input into the adaptive equalizer, wherein the feedback is based on the error values. | 2016-05-19 |
20160142150 | DATA COMMUNICATION USING MULTIPLE CHANNELS - A method of transmitting data may include receiving feedback information that includes effective channel bandwidths, signal-to-noise ratios (SNRs) associated with multiple optical channels on an optical link, and individual SNRs associated with subcarriers on each optical channel. The method may include determining multiple subcarrier power allocation schemes based on the feedback information. Each subcarrier power allocation scheme may be associated with a corresponding optical channel from the multiple optical channels and may be configured to allocate a signal power among subcarriers configured to transmit on the corresponding optical channel. The method may include determining, based on the feedback information, an optical power allocation scheme configured to allocate an optical power among the multiple optical channels. The method may include transmitting data on the multiple optical channels based on the multiple subcarrier power allocation schemes and the optical power allocation scheme. | 2016-05-19 |
20160142151 | Wavelength Stabilizer For TWDM-PON Burst Mode DBR Laser - An optical network unit (ONU) comprising a media access controller (MAC) configured to support biasing a laser transmitter to compensate for temperature related wavelength drift receiving a transmission timing instruction from an optical network control node, obtaining transmission power information for the laser transmitter, estimating a burst mode time period for the laser transmitter according to the transmission timing instruction, and calculating a laser phase fine tuning compensation value for the laser transmitter according to the burst mode time period and the transmission power information, and forwarding the laser phase fine tuning compensation value toward a bias controller to support biasing a phase of the laser transmitter. | 2016-05-19 |
20160142152 | OPTICAL TRANSMISSION SYSTEM, OPTICAL RECEPTION APPARATUS, AND SIGNAL ADJUSTMENT METHOD - An optical transmission system includes: a reception apparatus configured to receive signal light separated from wavelength division multiplexing light; and a management apparatus configured to manage a plurality of optical transmission apparatuses that transmit the wavelength division multiplexing light, wherein the reception apparatus further comprises: an amplification section configured to amplify each power of electric signals for demodulating the signal light within a predetermined tolerance level, the electric signals being converted from mixed light of local light and the signal light input into the reception apparatus; an adjustment section configured to adjust power of the signal light input into the reception apparatus or power of the local light; and a controller configured to control the adjustment section based on an adjustment amount notified by the management apparatus, the management apparatus includes a computer. | 2016-05-19 |
20160142153 | Chromatic Dispersion Estimation for Digital Coherent Optical Receivers - An apparatus comprises a front end configured to receive an optical signal, and convert the optical signal into a plurality of digital signals, and a processing unit coupled to the front end and configured to determine a best-match chromatic dispersion (CD) estimate in the optical signal by optimizing a cost function based on signal peaks of the plurality of digital signals. | 2016-05-19 |
20160142154 | ITERATIVE POST-EQUALIZATION FOR COHERENT OPTICAL RECEIVERS - A post-equalization technique for recovering data bits from a coherent modulation optical signal is implemented in the digital domain by iteratively performing a decision-directed least mean square channel equalization step, a digital post filter step and a maximum likelihood sequence estimation step so that the symbol decisions of the previous iteration are fed to the decision directed least mean square channel equalization step to successively improve the symbol decisions. In an experimental setup, the iterative technique demonstrated performance improvement mitigating the bandwidth limitation as compared to a corresponding non-iterative technique. | 2016-05-19 |
20160142155 | SEMICONDUCTOR PACKAGES WITH OPTICAL INTERCONNECTION STRUCTURES, MEMORY CARDS INCLUDING THE SAME, AND ELECTRONIC SYSTEMS INCLUDING THE SAME - A semiconductor package includes a first transceiver disposed on a top surface of a substrate; and a second transceiver disposed on a bottom surface of the substrate. The first and second transceivers optically communicate with each other through optical signals that permeate the substrate. | 2016-05-19 |
20160142156 | INTEGRATED DEVICE PACKAGE AND/OR SYSTEM COMPRISING CONFIGURABLE DIRECTIONAL OPTICAL TRANSMITTER - Some novel features pertain to a device that includes a first integrated device package and a second integrated device package. The first integrated device package includes a first package substrate, a first integrated device, and a first configurable optical transmitter. The first configurable optical transmitter is configured to be in communication with the first integrated device. The first configurable optical transmitter is configured to transmit an optical beam at a configurable angle. The first configurable optical transmitter includes an optical beam source, an optical beam splitter, and a set of phase shifters coupled to the optical beam splitter. The set of phase shifters is configured to enable the angle at which the optical beam is transmitted. The second integrated device package includes a second package substrate, a second integrated device, and a first optical receiver configured to receive the optical beam from the first configurable optical transmitter. | 2016-05-19 |
20160142157 | MOBILE DEVICE AND METHOD FOR OUTPUTTING SOUND WAVE FOR CONTROL OF EXTERNAL DEVICE, AND EXTERNAL DEVICE - Provided is a mobile device including: an input reception unit for receiving at least one input through a user interface; a control information determination unit for determining control information corresponding to an operation of an external device based on the at least one input, wherein the control information includes a first symbol and a second symbol; a sound wave data generation unit for generating sound wave data corresponding to the control information; and an output unit for outputting a sound wave corresponding to the sound wave data generated by a sound wave generation apparatus. In this case, the sound wave data generation unit determines a first frequency corresponding to the first symbol and a second frequency corresponding to the second symbol, and generates the sound wave data based on the first frequency and the second frequency, and the sound wave data includes a portion corresponding to the first frequency and a portion corresponding to the second frequency. | 2016-05-19 |
20160142158 | SYSTEMS, METHODS, AND DEVICES FOR INTERFERENCE MITIGATION IN WIRELESS NETWORKS - Example systems, methods, and devices for mitigating interference in wireless networks are discussed. One example method includes the operations of passing channel frequency offsets of a plurality of LTF symbols on a plurality of subcarriers through a high pass frequency band, encoding the plurality of LTF symbols with a plurality of LTF sequences across frequency, and encoding the LTF symbols in time and/or frequency. Another example includes the operations of receiving a plurality of LTF symbols on a plurality of subcarriers for channel estimation of one or more streams, removing the encoding across time, removing the encoding across frequency, and removing the LTF sequence(s), and passing the modified LTF symbols through a smoothing filter, for example, a low pass filter for removing the interference due to CFOs. Methods, apparatus, and systems described herein can be applied to 802.11ax or any other wireless standard. | 2016-05-19 |
20160142159 | RF SIGNAL GENERATING DEVICE - Apparatus for generating an RF signal for use in RF signal detection is described. The apparatus comprises at least one processor configured to generate a set of IQ data based on at least one set of weighted IQ data, each set of weighted IQ data having a respective weight and a circuit configured to generate an RF signal using the set of IQ data. The at least one processor is configured to calculate each respective weight in dependence upon location of a signal detector or an antenna associated with the RF signal detector. | 2016-05-19 |
20160142160 | METHOD OF MANAGING SENSOR NETWORK - An environmental sensor system comprises a plurality of sensor clusters. The sensor coupler of each sensor cluster obtains measurements parameters from the sensors, performs processing on the measurements to obtain at least one result, and forwards information from the measurements to the calibrator coordinator. The calibrator coordinator performs processing on the information received from all of the sensor clusters to obtain at least one result, and feeds back the result to the sensor clusters which then assess sensor reliability and accuracy. The first and second results indicate expected parameter values, and each sensor coupler decides whether, and how, to incorporate the measurements of sensors into the first processing based on the expected values. The sensor coupler may calibrate, decommission or replace sensors determined to be unreliable based on the expected values. | 2016-05-19 |
20160142161 | RECEIVER, RECEIVING METHOD FOR RECEIVING RF SIGNAL IN SUPERHETERODYNE SYSTEM - A local oscillator outputs a local oscillator signal that provides an upper side heterodyne mode or a lower side heterodyne mode for a received RF signal. A first converter converts the received RF signal into an IF signal, based on the local oscillator signal output from the local oscillator. An FM detector subjects the IF signal produced by conversion to detection. A first measurement unit measures a signal intensity of the IF signal before the IF signal is input to the FM detector. A second measurement unit measures a squelch voltage of a signal detected by the FM detector. A controller that controls the local oscillator based on the signal intensity measured by the first measurement unit and the squelch voltage measured by the second measurement unit. | 2016-05-19 |
20160142162 | MONITORING THE QUALITY OF A COMMUNICATION CHANNEL SUPPORTED BY A SLIDING CONTACT - A method for monitoring the quality of a communication channel supported by a sliding contact, the method comprising the following steps: controlling ( | 2016-05-19 |
20160142163 | APPARATUS, SYSTEM AND METHOD OF USER-EQUIPMENT (UE) CENTRIC ACCESS NETWORK SELECTION - Some demonstrative embodiments include devices, systems of User Equipment (UE) centric access network selection. For example, a cellular node may include a transmitter to transmit to a User Equipment (UE) a cellular communication message over a cellular communication medium, the message including a value of a predefined parameter, which is based on a cellular network load of a cellular network controlled by the cellular node. | 2016-05-19 |
20160142164 | PARAMETER SETTING APPARATUS AND METHOD - A memory of a parameter setting apparatus stores therein a current value of a signal processing parameter and an auxiliary value for temporarily adjusting the current value. Once an instruction for changing the current value of the parameter is given by an operation, by a user, of a manual operator when an edit mode is ON, a CPU of the parameter setting apparatus not only changes the current value but also changes the auxiliary value in response to the current value change instruction. When the edit mode is OFF, on the other hand, the CPU changes only the current value in response to the current value change instruction without changing the auxiliary value. | 2016-05-19 |
20160142165 | MIXING CONSOLE - A mixing console includes: a plurality of operating regions provided by dividing an operation panel of the mixing console into a plurality of regions, wherein a plurality of channels are allocated to each of the plurality of operating regions. Each of the operating regions includes each of channel selectors, respectively. Each of the channel selectors is configured to select one of the plurality of channels allocated to the operating region corresponding to the channel selector as a selected channel, and to set a plurality of parameters for signal processing on audio signals of the selected channel. Thus, a plurality of selected channels can be selected, and values of the parameters of the plurality of selected channels can be adjusted promptly and in real-time. | 2016-05-19 |
20160142166 | Using Modulation-Transcendent RF Sampled Digital Data Over an IP Connection - The apparatus and methodologies used herein leverages RoIP to generically transport either conventional modulation (e.g., AM, FM, phase or pulse) or complex modulation (e.g., GMSK, CDMA, TDMA, OFDM, etc.) in real time or near real time across an internet protocol link, such as Gigabit Ethernet (GBE). The purpose of the invention is a method of creating a live, virtual, modulation transcendent link by using an internet protocol (IP) link to extend the natural range of a connection between an RF signal source (e.g. transmitter) and an RF receiving device (e.g. receiver). This methodology is referred to herein as radio frequency over internet protocol (RFoIP). | 2016-05-19 |
20160142167 | An Apparatus and a Method for Determining a Point in Time - Forwarding points in time of a clock over a clock boundary is performed by launching the points in time into a buffer, such as a FIFO, in the first clock domain. The oldest point in time is fed into a FIFO or delay line in the other clock domain, which FIFO or delay line comprises a plurality of received points in time, which are shifted through the FIFO or delay line over time. An estimate of a point in time in the second clock domain is derived from a plurality of the points in time in the delay line/FIFO, such as from a mean value thereof. This point in time may be compensated for a known delay in order for this determined point in time to be identical to or close to an actual point in time of the first clock in the first clock domain. | 2016-05-19 |
20160142168 | METHOD FOR THE CLOCK SYNCHRONIZATION OF A PLURALITY OF MODULES - A method or an arrangement for the clock synchronization of a plurality of distributed modules of an information or communication system where said modules are coupled via a packet-switched network is adapted so that at least two of said modules are controlled by a local clock generator of the modules using an adjustable frequency, and a clock signal is transmitted via the network in the form of clock signal packets. One of said at least two modules takes over the function of a master module, and all remaining modules synchronize the local clock of the modules with the clock of the master module. | 2016-05-19 |
20160142169 | METHOD AND APPARATUS FOR INTERFERENCE CANCELLATION - Systems, methods, apparatuses, and computer program products for joint network assisted interference cancellation and suppression (NAICS) and coordinated multi-point (COMP) operation are provided. One method includes configuring, by a network node, a victim user equipment and interfering user equipment in transmission mode 10 (TM10) with multiple channel state information (CSI) processes to perform dynamic point muting. The method may further include signaling network assisted interference cancellation and suppression (NAICS) information to the victim user equipment pretending the interfering user equipment mode is transmission mode 9 (TM9) or transmission mode 8 (TM8). | 2016-05-19 |
20160142170 | METHOD AND DEVICE FOR TRANSPARENT CONNECTION OF DIFFERENT DWDM SYSTEMS BY NxN AWGs - A system for connecting two or more dense wavelength division multiplex (DWDM) systems in an optically transparent manner includes a first DWDM system with a first optical line amplifier (OLA) for amplifying the signal to be transmitted and a second DWDM system which has a second OLA for amplifying the signal to be transmitted. The first OLA and the second OLA are connected to each other via a passive N×N AWG, arrayed waveguide grating. | 2016-05-19 |
20160142171 | SIGNAL DETECTION CIRCUIT AND OPTICAL TRANSMISSION EQUIPMENT - A signal detection circuit includes: a first optical filter configured to filter an optical signal carrying a frequency modulated signal with a first transmission band; a second optical filter configured to filter the optical signal with a second transmission band; a first photo detector configured to convert the output light of the first optical filter into a first electrical signal; a second photo detector configured to convert the output light of the second optical filter into a second electrical signal; a difference circuit configured to output a signal representing a difference between the first electrical signal and the second electrical signal; and a detector configured to detect the frequency modulated signal based on the output signal of the difference circuit. | 2016-05-19 |
20160142172 | RING NETWORK INCLUDING AT LEAST ONE SUBTENDING RING ORIGINATING AND TERMINATING AT A CENTRAL-OFFICE NODE - In a WDM optical communication system that includes a plurality of nodes interconnected by communication links, a node is provided which includes an optical coupling arrangement having at least one input port for receiving a WDM signal and a plurality of output ports for selectively receiving one or more wavelength components of the WDM optical signal. The optical coupling arrangement is adaptable to reconfigure its operational state to (i) selectively direct any one of the wavelength components received on the input port to any of the output ports independently of any other of the wavelength components and (ii) selectively direct any combination of two or more of the wavelength components from the input port to at least two of the output ports that serve as WDM output ports. At least one optical WDM interface is optically coupled to a first of the WDM output ports. The optical WDM interface is adapted to receive, at different times, a transponder and a transmission link through which a WDM signal can be communicated. At least one transponder is coupled to a second of the WDM output ports. | 2016-05-19 |
20160142173 | SYSTEM ARCHITECTURE FOR MANAGING RESOURCES IN A COMMUNICATION NETWORK - A system architecture for managing resources in a communication network comprises in combination at least the following elements: a plurality of radio equipments working in a given frequency band and with identical frequency hopping rules; the radio equipments are managed by a master device; and a radio equipment comprises at least: a radiocommunication module that carries the radiocommunications; a module suitable for tapping, monitoring and intercepting radio signals in the environment and for recording them locally in a database; a module suitable for disrupting non-authorized communications; and a local “3 in 1” management module receiving the orders emitted by the master device, the management module being suitable for controlling the various modules of the radio equipment; a radio-router module; and a tapping and monitoring module. | 2016-05-19 |