35th week of 2015 patent applcation highlights part 67 |
Patent application number | Title | Published |
20150244399 | Ultra-broadband Programmable Hybrid Step Attenuator - Systems and methods for partitioning the frequency spectrum for use in a plurality of function circuits, including step attenuation, phase modulation, and gain amplification functional circuits. A system may include a programmable step attenuator including selection circuitry and functional circuitry. First selection circuitry may include a plurality of outputs and may receive a signal and selectively provide the signal to an output based on the signal's frequency. First circuitry may be coupled to one of the outputs and may operate as a first step attenuator for signals in a first portion of the frequency spectrum. Second circuitry may be coupled to another output and operate as a second step attenuator for signals in a second portion of the frequency spectrum. Second selection circuitry may be coupled to the first and second circuitry and may provide a step attenuated signal from the first or second portion of the frequency spectrum. | 2015-08-27 |
20150244400 | DEVICE, SYSTEM AND METHOD OF CONFIGURING A RADIO TRANSCEIVER - A device, system and method of configuring a radio transceiver are described. In particular, there is described an RF front-end for transmitting wireless communication signals, the RF front-end comprising a plurality of elements, and wherein the RF front-end is configured to obtain an RF protection class signal and to selectively apply one or more of the plurality of elements to a transmitted signal based on the obtained RF protection class signal. | 2015-08-27 |
20150244401 | TRANSMITTING DEVICE AND ASSOCIATED TRANSMITTING METHOD FOR POWER EFFICIENCY ENHANCEMENT - A transmitting device includes a transmitting chain, a configurable power amplifier device and an impedance tuning circuit. The transmitting chain is arranged to generate a radio frequency signal. The configurable power amplifier device is arranged to support at least a first power amplifier configuration and a second power amplifier configuration, wherein the configurable power amplifier device employs the first power amplifier configuration to receive and amplify the radio frequency signal when the transmitting device is operated in a first operation mode, and employs the second power amplifier configuration to receive and amplify the radio frequency signal when the transmitting device is operated in a second operation mode. The impedance tuning circuit is arranged to adjust an output impedance of the configurable power amplifier device employing the second power amplifier configuration when the transmitting device is operated in the second operation mode. | 2015-08-27 |
20150244402 | SYSTEM AND METHOD FOR ENHANCED TRANSMITTER EFFICIENCY - A method for distortion compensation in a transmission link comprising obtaining information of an amplitude distribution of a signal prior to being transmitted by a transmitter, receiving the transmitted signal at a receiver and determining a received signal amplitude distribution, comparing the received signal amplitude distribution to the amplitude distribution of the signal prior to transmission and using results of the comparison to estimate the AM/AM non-linearity in the transmitter. | 2015-08-27 |
20150244403 | PROCESSING A NOISY ANALOGUE SIGNAL - A device is provided for correlating at least one noisy analogue signal which is one of a plurality of signals obtained by a plurality of receivers. The device comprises a 1-bit quantisation element to which the noisy signal is supplied; a comparator configured to compare the quantised signal with a reference signal which is a consensus signal obtained by averaging data from the plurality of receivers; and an up/down counter that is configured to be incremented by a subset of the comparison signal. | 2015-08-27 |
20150244404 | RADIO FREQUENCY CHANNEL - The present invention provide a radio frequency channel, including: a first antenna, a low noise amplifier, a power divider, at least two first single-pole, n-throw switches, at least four first filters, and at least two first radio frequency chips. The power divider divides a received radio frequency signal into two first radio frequency sub-signals, and transmits the two first radio frequency sub-signals to the at least four first filters, where the at least four first filters correspond to at least four filtering bands and the at least four first filters may cover frequency bands involved in at least six carrier aggregation CA technologies, the at least four first filters filter the first radio frequency sub-signals, and the at least two first radio frequency chips process the filtered first radio frequency sub-signals. | 2015-08-27 |
20150244405 | MICROWAVE SYSTEM - A microwave system and method comprising a center fed parabolic reflector; a radio transceiver, said transceiver disposed on a circuit board and coupled to a radiator, said radiator disposed on the circuit board and extending orthogonally from a surface of the circuit board. Embodiments also include directors on the circuit board and a sub-reflector comprising a thin plate disposed on a weather proof cover and said sub-reflector having a substantially concave surface with a focus directed towards the radiator. The circuit board may be physically integrated within the feed mechanism of the center fed parabolic reflector and the radio transceiver is configured to provide OSI layer support. | 2015-08-27 |
20150244406 | METHOD AND APPARATUS FOR OVERRIDING A PTT SWITCH TO ACTIVATE A MICROPHONE - A method and apparatus for operating a bypass switch ( | 2015-08-27 |
20150244407 | Mobile Device Compact Case - The present disclosure relates to a mobile device protective case comprises a housing, a tray and a cover. The present disclosure includes a protective case including a chamber, wherein said chamber comprises a storage area limited to a particular area of the back part of the mobile device protective case avoiding damages to several features of the mobile device. | 2015-08-27 |
20150244408 | MOBILE DEVICE JACKET - A jacket for a mobile device, having a retention well with a perimeter wall and a base member, a first perimeter rail surrounding the retention well, a second perimeter rail surrounding the first perimeter rail, a secondary well formed between the first perimeter rail and the second perimeter rail, and a resilient wrapper enveloping the retention well. The resilient wrapper includes a perimeter ridge formed to fit over the second perimeter rail, to fit into the secondary well, and to abut the outer side of the first perimeter rail. A device can have a top cover with a first perimeter rail, a second perimeter rail, and a secondary well, a bottom cover formed to receive the mobile device, and a resilient wrapper including a perimeter ridge to fit over the second perimeter rail, to fit into the secondary well, and to abut the outer side of the first perimeter rail. | 2015-08-27 |
20150244409 | ELECTRONIC APPARATUS - A cover panel is disposed on a surface of an electronic apparatus and is made of sapphire. A flexible printed wiring board extends in a state of being curved in the electronic apparatus. A gap reduction member is in contact with at least a curved portion of the flexible printed wiring board from the cover panel side. | 2015-08-27 |
20150244410 | METHOD AND APPARATUS FOR INCORPORATING PASSIVE DEVICES IN AN INTEGRATED PASSIVE DEVICE SEPARATE FROM A DIE - A circuit including a first die, an integrated passive device and a second layer. The first die includes a first substrate and active devices. The integrated passive device includes a first layer, a second substrate and passive devices. The second substrate includes vias. The passive devices are implemented at least on the first layer or the second substrate. A resistivity per unit area of the second substrate is greater than a resistivity per unit area of the first substrate. The second layer is disposed between the first die and the integrated passive device. The second layer includes pillars. Each of the pillars connects a corresponding one of the active devices to (i) one of the vias, or (ii) one of the passive devices. The first die, the integrated passive device and the second layer are disposed relative to each other to form a stack. | 2015-08-27 |
20150244411 | MULTI-BAND ISOLATOR ASSEMBLY - An isolator assembly is configured to provide isolation in each of multiple non-overlapping frequency bands and includes a selection network to select one of the multiple non-overlapping frequency bands for an isolation operation. During the isolation operation, the isolator assembly prevents signal coupling between antennas that are positioned on opposite sides of the isolator assembly. | 2015-08-27 |
20150244412 | Transceiver Element for an Active, Electronically Controlled Antenna System - A transceiver element for an active, electronically controlled antenna system includes a transmit path, a receive path and single-pole change-over switches having a common central connection and two connections for switching between the transmit path and the receive path. An amplitude controller and a phase adjuster are arranged between the common center connections of a first and second single-pole change-over switch. Single-pole multiple toggle switches having a common central connection and a number N of connections are present. The common central connection of the first and second single-pole change-over switch is connected to the common central connection of a first and a second single-pole multiple toggle switch respectively, and an amplitude controller and a phase adjuster are connected between each connection of the number N of connections of the first multiple toggle switch and the second multiple toggle switch. | 2015-08-27 |
20150244413 | Method and Device for Cancelling Interference - The invention discloses a method and device for cancelling, from a radio signal received by the radio device in a first frequency band, the interference generated through a nonlinearity of the radio device when the radio device transmits a radio signal on at least a second frequency band simultaneously with the received radio signal, the at least one second frequency band being different from the first frequency band, the transmitted radio signal being obtained from digital signal. | 2015-08-27 |
20150244414 | IN-SERVICE MONITORING AND CANCELLATION OF PASSIVE INTERMODULATION INTERFERENCES - A transceiver coupled to an antenna includes: (a) a multi-port filter having a bidirectional port coupled to the antenna, at least one input port and at least one output port; (b) a transmit datapath receiving a transmission signal and providing the transmission signal for transmission by the antenna through the multi-port filter, the transmit datapath being coupled to the input port of the multi-port filter; (c) a receive datapath receiving a reception signal from the antenna, the receive datapath being coupled to the output port of the multi-port filter; (d) a band-pass filter coupled to the antenna for receiving a sampled signal that includes intermodulation components between two or more of an external signal, the transmission signal and the reception signal; and (e) a monitoring and cancellation circuit receiving the transmission signal, the reception signal and the sampled signal to cancel the intermodulation components. | 2015-08-27 |
20150244415 | SYSTEM AND METHOD FOR TIME ADJUSTMENT IN A TIME SYNCHRONIZED CHANNEL HOPPING NETWORK - Systems and methods are provided for adjusting time in a synchronized network by a central device on the network. Each device on the network provided current time, hopping pattern, time slot duration, and an absolute slot number. Devices on the network synchronized to communicate on a repeating schedule of time slots. The central device receives an updated time and determines a time difference between the updated time and the current time. The current time is adjusted in integer multiples of the hopping pattern length up to the time difference. The absolute slot number is updated based on the number of time slots in the adjusted time difference. The updated absolute slot number is propagated to other devices on the network. In turn, these other devices may also propagate the updated absolute slot number. | 2015-08-27 |
20150244416 | DIGITAL FILTER FOR NARROWBAND INTERFERENCE REJECTION - A digital filter for narrowband interference rejection, including modules of narrowband interference rejection connected in series, each of which includes the following elements connected in series: a block of successive vector rotation based on the CORDIC vector rotation algorithm for integers, a block of reduction of the length of the rotated vector to maintain the same number of bits for digital signal representation, a block of high-pass filters for orthogonal components of the reduced vector in order to remove the interference from zero frequency region. The filter can be implemented without multiplication. | 2015-08-27 |
20150244417 | INTERFERENCE CANCELLATION IN A SPREAD SPECTRUM COMMUNICATION SYSTEM - A method and apparatus used to transmit and receive weighted data transmissions over a plurality of antennas using a plurality of different pilot signals. Different pilot signals are produced and a different pilot signal of the plurality of pilot signals is transmitted on each of a plurality of antennas. Each of the pilot signals is derived from a pseudo noise (PN) sequence and a bit sequence of the PN sequence for each of the pilot signals is different. A plurality of data streams are produced in which each of the data streams has data bits combined with bits of a PN sequence. The data streams are weighted in response to weight information received from a receiving device and the plurality of weighted data streams are transmitted using the plurality of antennas. | 2015-08-27 |
20150244418 | HYBRID PRECODER - A method employing linear precoding and non-linear precoding for transmitting data between at least two transmitters and a plurality of receivers via a plurality of communication channels over a plurality of subcarrier frequencies, the method comprising the procedures of transmitting by either one of said at least two transmitters, at least two training signals to respective said receivers; receiving by respective said receivers, said at least two training signals; evaluating channel characteristics of at least part of said communication channels, according to said at least two training signals; determining a precoding scheme selection that defines for at least part of said communication channels, over which of said subcarrier frequencies, said data transmitted shall be precoded using either one of linear precoding and non-linear precoding, according to evaluated said channel characteristics; precoding said data according to determined said precoding scheme selection; and transmitting said data according said precoding scheme selection. | 2015-08-27 |
20150244419 | METHODS AND APPARATUSES FOR CHARACTERIZING COMMON MODE NOISE AND ESTIMATING LOOP IMBALANCE - The present invention relates generally to addressing performance issues in xDSL communication systems, and more particularly to methods and apparatuses to measure and characterize CM noise impacting a DSL line in a customer premises, measurements and characterization of the projection of these CM signals in Differential Mode (DM), and finally a derivation of an estimate of the loop balance. | 2015-08-27 |
20150244420 | COMMUNICATION SYSTEM, COMMUNICATION SLAVE AND COMMUNICATION MASTER - A communication system includes multiple communication nodes and a communication line. The multiple communication nodes include a master and multiple slaves. The communication line cascade-connects the communication nodes and supplies electricity. The communication line corresponds to a feeder line. Each of the communication nodes is connected with the communication line through an inductor to be supplied with electricity. The each of the communication nodes is AC coupled to the communication line to transmit and receive a communication signal. The master and the slaves perform a bidirectional communication. A communication slave is provided. The communication slave is connected with a communication line through an inductor to be supplied with electricity. A communication master is provided. | 2015-08-27 |
20150244421 | RETRIEVING/AUTHORIZING CONTENT ON USER EQUIPMENT BASED ON INFORMATION FROM CONNECTABLE ACCESSORY WITH NFC CIRCUIT - An accessory for a user equipment (UE) is disclosed that includes a housing configured to be connected to the UE and accessory near field communication (NFC) circuit attached to the housing. The accessory NFC circuit includes an antenna, a charging circuit, and a transceiver circuit. The antenna is configured to inductively couple to signals emitted by a UE NFC circuit within the UE. The charging circuit is configured to output power provided by the inductive coupling through the antenna to the signals emitted by the UE NFC circuit. The transceiver circuit is configured to be powered by the charging circuit to transmit information to the UE NFC circuit that will be used by the UE to retrieve content stored on a content server and/or to authorize use of content stored on the UE. Related UEs and methods are disclosed. | 2015-08-27 |
20150244422 | MEMORY DEVICE INCLUDING WIRELESS COMMUNICATION FUNCTION - According to one embodiment, a memory device includes a semiconductor memory device, an NFC antenna, and an NFC controller. The semiconductor memory device is capable of wireless communication. The NFC antenna generates power based on electromagnetic induction. The NFC controller is electrically connected to the NFC antenna, stores initial setting data associated with wireless communication, and outputs the initial setting data using the NFC antenna. | 2015-08-27 |
20150244423 | INFORMATION PROCESSING APPARATUS, CONTROL METHOD THEREFOR, AND COMPUTER-READABLE STORAGE MEDIUM - Communication with an operation device is performed by power generated when a communication portion included in the operation device comes close to within a predetermined distance range of an information processing apparatus. While communication with the communication portion is established, the operation of the information processing apparatus is controlled in accordance with information acquired via the communication portion of the operation device. | 2015-08-27 |
20150244424 | TRANSMITTING AND RECEIVING POWER WIRELESSLY - An apparatus for transmitting power wirelessly includes a power transmitter configured to transmit power wirelessly to an apparatus for receiving power wirelessly, and an identification information manager configured to transmit first identification information allocated to the apparatus for transmitting power wirelessly to other devices. | 2015-08-27 |
20150244425 | Power Transfer Unit and Power Transfer Method - A power transfer unit includes a power source, a wireless communication portion, and a controller specifying the external device to which power is to be transferred, based on the state of the wireless communication portion according to change in the state of power transfer from the power source. | 2015-08-27 |
20150244426 | Power Harvesting and Use in a Near Field Communications (NFC) Device - Apparatus for harvesting and using power in a near field communications mode, includes a host device with operating components. A first near field communication (NFC) device is contained in the host device and is configured to be selectively coupled to one of the operating components. The first NFC device harvests energy from a second NFC device and converts the harvested energy to electrical power. The first NFC device receives information from the second NFC device and power on the operating component as a function of the information received from the second NFC device. The first NFC device transfers data to or from the operating component when the operating component is powered on. The first NFC device powers off the operating component when the transfer of data between the first NFC device and the operating component has been completed. | 2015-08-27 |
20150244427 | APPARATUS AND METHOD FOR USING NEAR FIELD COMMUNICATION AND WIRELESS POWER TRANSMISSION - An apparatus and method of using near field communication (NFC) and wireless power transmission (WPT) are provided. A power receiving apparatus includes a resonator configured to receive a power and to output the power. The power receiving apparatus further includes a near field communication (NFC) receiver configured to perform wireless communication using the power output by the resonator. The power receiving apparatus further includes a wireless power transmission (WPT) receiver configured to supply a voltage using the power output by the resonator. The power receiving apparatus further includes a connecting unit configured to selectively connect the resonator to either the NFC receiver or the WPT receiver. The power receiving apparatus further includes a mode selector configured to control the connecting unit to selectively connect the resonator to either the NFC receiver or the WPT receiver based on the power output by the resonator. | 2015-08-27 |
20150244428 | METHOD AND APPARATUS FOR NEAR FIELD COMMUNICATION - A method and apparatus for near field communication (NFC) are provided. A reader searches for communication with another party according to a first communication method of transmitting a communication request signal or a reader searches for communication with another party according to a second communication method of performing wireless power transmission. When the reader receives a response signal from communication with another party, the reader performs communication with the other party. | 2015-08-27 |
20150244429 | DATA TRANSMISSION METHOD, BASE STATION, AND USER EQUIPMENT - Embodiments of the present invention provide a data transmission method, a base station, and a user equipment (UE). The method includes: generating, by a first base station, downlink radio link control (RLC) protocol data units (PDUs); and sending, by the first base station, a first part of downlink RLC PDUs in the downlink RLC PDUs to a user equipment UE, and sending a second part of downlink RLC PDUs in the downlink RLC PDUs to a second base station, so that the second base station sends the second part of downlink RLC PDUs to the UE. Hence, the first base station and the second base station are capable of jointly sending data to the UE, thereby improving a peak rate and a throughput of the UE | 2015-08-27 |
20150244430 | Cloud Radio Access Network - Instead of just consuming network resources, client devices create network resources via cooperative subspace processing to increase data bandwidth and expand radio coverage so the network grows dynamically with demand. Server-side cooperative-MIMO provides joint processing for geographically distributed base stations with overlapping coverage areas. A combination of centralized coordination and distributed computing pools and virtualizes base station processing, which reduces complexity, size, and power requirements of base stations to facilitate rapid and inexpensive network deployments. Cooperative subspace coding reduces overhead and transport-layer inefficiencies, and enables each channel to simultaneously employ multiple network paths, even over non-homogeneous networks. Cooperative subspace processing enables a client in a first network to reuse its allocated channels for communicating in another network without interfering with the first network. | 2015-08-27 |
20150244431 | DEVICES AND METHODS FOR DIVERSITY SIGNAL ENHANCEMENT AND COSITE CANCELLATION - Devices and methods for providing enhanced diversity reception and cosite cancellation are disclosed. According to one aspect, the subject matter described herein includes a device for providing enhanced diversity reception and cosite cancellation. The device includes a transmit chain connected to a circulator further connected to first antenna and to a combiner. The combiner is connected to anti-cosite circuitry and to first detector. The anti-cosite circuitry is further connected to a secondary antenna. The first detector is further connected to a receive chain. | 2015-08-27 |
20150244432 | Method and Apparatus of Beam Training for MIMO Operation and Multiple Antenna Beamforming Operation - The disclosed invention provides an efficient method for MIMO beam training for multiple antennas to enable spatial multiplexing MIMO operation and spatial combining in a wireless network. The invention discloses a simple and efficient beam-training algorithm and protocol for MIMO operation that operates in high SNR condition for reliable MIMO operation. In one novel aspect, the best MIMO beam combinations are determined after TX sector sweeping and RX sector sweeping. The best MIMO beam combinations are determined in such a way that no any selected TX/RX sectors come from the same TX/RX antenna/beamformer. The selection criteria includes not only signal quality, but also considers mutual interference and leakage among multiple MIMO spatial streams to improve overall MIMO performance. Simultaneous RX or TX training are also supported to reduce training time. | 2015-08-27 |
20150244433 | Split Control and Payload via Cooperative Massive MIMO (M-MIMO) and Non-M-MIMO Infrastructure - Embodiments provide systems and methods for enabling a wireless multi-access communication system having a first frequency band and a second frequency band. The first frequency band can be used to establish a first channel using a non-Massive Multiple Input Multiple Output (M-MIMO) radio access technology (RAT). The first channel can be used to broadcast downlink/uplink control information (and, optionally, data) between an access point (AP) and a user device. The second frequency band can be used to establish a second channel using a M-MIMO RAT. The second channel can be used to communicate high speed downlink/uplink data between an AP and a user device. The non-M-MIMO RAT and the M-MIMO RAT can be of the same RAT family or of different RAT families. | 2015-08-27 |
20150244434 | TRANSMISSION APPARATUS AND METHOD, AND RECEPTION APPARATUS AND METHOD - Modulated signal A is transmitted from a first antenna, and modulated signal B is transmitted from a second antenna. As modulated signal B, modulated symbols S | 2015-08-27 |
20150244435 | METHODS AND SYSTEMS FOR COMBINED CYCLIC DELAY DIVERSITY AND PRECODING OF RADIO SIGNALS - In a transmitter or transceiver, signals can be precoded by multiplying symbol vectors with various matrices. For example, symbol vectors can be multiplied with a first column subset of unitary matrix which spreads symbols in the symbol vectors across virtual transmit antennas, a second diagonal matrix which changes a phase of the virtual transmit antennas, and a third precoding matrix which distributes the transmission across the transmit antennas. | 2015-08-27 |
20150244436 | System and Method for Multiple-Input and Multiple-Output (MIMO) Full-Duplex Precoding Structures - Embodiments are provided to enable effective cancellation or reduction of the self-interference (SI) introduced when applying full-duplex (FD) transmission to Multiple-Input-Multiple-Output (MIMO) systems. A method embodiment includes forming, using a precoding matrix generated in accordance with channel conditions, a plurality of beams for a plurality of transmit signals and a plurality of self-interference cancellation signals corresponding to the plurality of transmit signals. The method further includes transmitting, at a plurality of antennas, the plurality of beams for the transmit signals, and receiving, via the plurality of antennas, a plurality of receive signals. A corresponding self-interference cancellation signal is then added to each of the plurality of receive signals to obtain a plurality of corrected receive signals, and the plurality of corrected receive signals are detected at a plurality of receivers. | 2015-08-27 |
20150244437 | TRANSMISSION METHOD, TRANSMITTER APPARATUS, RECEPTION METHOD AND RECEIVER APPARATUS - Transmission quality is improved in an environment in which direct waves dominate in a transmission method for transmitting a plurality of modulated signals from a plurality of antennas at the same time. All data symbols used in data transmission of a modulated signal are precoded by hopping between precoding matrices so that the precoding matrix used to precode each data symbol and the precoding matrices used to precode data symbols that are adjacent to the data symbol in the frequency domain and the time domain all differ. A modulated signal with such data symbols arranged therein is transmitted. | 2015-08-27 |
20150244438 | METHODS FOR CONSTRUCTING PRE-CODING MATRIX AND FEEDING BACK INDEX VALUE AND RELATED COMMUNICATION DEVICES - The disclosure provides a method for constructing a three-dimensional (3D) multi-input multi-output (MIMO) pre-coding matrix, a method for feeding back index values of a 3D MIMO pre-coding matrix and related communication devices. The method for constructing a 3D MIMO pre-coding matrix comprises: constructing a first component matrix in a block diagonal form, wherein a diagonal sub-matrix of the first component matrix is a 3D beamforming sub-precoder for a two-dimensional (2D) antenna array; constructing a second component matrix which comprises phase weighting factors as matrix elements, wherein the phase weighting factors characterize coherent combination of signals from the 2D antenna array; and constructing the 3D MIMO pre-coding matrix according to the constructed first and second component matrixes. The method for feeding back index values of a 3D MIMO pre-coding matrix comprises: estimating a MIMO channel; and according to a result of the channel estimation, selecting and feeding back a first index value, a second index value and a third index value. | 2015-08-27 |
20150244439 | METHODS AND APPARATUS FOR MULTI-USER MIMO TRANSMISSIONS IN WIRELESS COMMUNICATION SYSTEMS - A wireless communication system includes a base station capable of communicating with a plurality of subscriber stations. The base station can transmit control information and data to a subscriber stations. The base station also can identify a set of RS patterns to be used to communicate with the subscriber station, assign a subset of antenna port numbers within the set of RS patterns to the subscriber stations. The base station can indicate the assigned states in a Downlink Control Information (DCI) format transmitted in a Physical Downlink Control Channel (PDCCH). The base station transmits the data using a subset of antenna ports corresponding to the subset of antenna port numbers. The base station also can map reference signals corresponding to the subset of antenna ports according to at least one RS pattern within the set of RS patterns. | 2015-08-27 |
20150244440 | SCALABLE ESTIMATION RING - Systems and methods are disclosed for estimating impulse responses of multiple channels, e.g., multiple antenna sub-array paths of a base station, in a distributed manner. In one embodiment, a method of operation of a Scalable Estimation Ring (SER) processing component in a SER that operates to estimate impulse responses of corresponding channels is provided. In one embodiment, the method includes, during a first iteration of the SER, receiving a feedback signal for the SER processing component and computing an initial estimate of an impulse response of a corresponding channel based on the feedback signal, removing a contribution of the corresponding channel from the feedback signal based on the initial estimate of the impulse response of the corresponding channel to thereby provide a feedback signal for a next SER processing component in the SER, and outputting the feedback signal for the next SER processing component in the SER. | 2015-08-27 |
20150244441 | TRACKING SYSTEM WITH ORTHOGONAL POLARIZATIONS AND A RETRO-DIRECTIVE ARRAY - The disclosed embodiments relate to a retro-directive array that facilitates a tracking operation. This retro-directive array includes a first antenna configured to receive an input signal which is substantially circularly polarized from a tracking device. The first antenna separates the input signal into two signal components (e.g., E | 2015-08-27 |
20150244442 | METHOD AND APPARATUS TO GENERATE VIRTUAL SECTOR WIDE STATIC BEAMS USING PHASE SHIFT TRANSMIT DIVERSITY - In one embodiment, the method includes receiving a signal, and generating first and second transmission signals from the received signal. The first signal has a fixed phase, and the second signal has a phase that changes over time. The first and second signals are sent from first and second antennas, respectively. | 2015-08-27 |
20150244443 | REPORTING OF MULTIPLE PROCESSES FOR APERIODIC CHANNEL STATE INFORMATION - A method and an apparatus are provided for transmitting Channel State Information (CSI) having a reporting mode and being transmitted from a User Equipment (UE) over a PUSCH transmission in an Uplink (UL) cell associated with a Downlink (DL) cell in response to the UE receiving a Downlink Control Information (DCI) format that includes a CSI request field indicating CSI transmission corresponding to one of a plurality of CSI processes associated with measurements of respective reference signals. The method includes obtaining, from the CSI request field, an indication of a CSI process set for a CSI transmission; and transmitting the CSI for the CSI process set indicated by the CSI request field, wherein the CSI request field includes 2 bits of a first CSI process set having a first set of interpretations. | 2015-08-27 |
20150244444 | METHOD FOR REPORTING CHANNEL STATE INFORMATION, USER EQUIPMENT, AND BASE STATION - The present disclosure relates to a method for reporting channel state information, a user equipment, and a base station. A channel state information measurement resource is determined by a UE according to an aperiodic CSI trigger signaling, so that a base station transmits a CSI-RS only when the UE needs to report the aperiodic CSI. Compared with transmitting a periodic CSI-RS by an existing base station, unnecessary transmitting of the CSI-RS is reduced, and energy of the base station such as an eNB is saved; and reducing the CSI-RS transmission may reduce resources occupied by the CSI-RS, thereby improving the spectrum efficiency of the system. In addition, reducing unnecessary CSI-RS transmission allows the interference in other cells by the base station being reduced; finally, CSI measurement resources are reserved only when the CSI needs to be fed back, the cost occupied by the CSI measurement resources is reduced. | 2015-08-27 |
20150244445 | RF ARCHITECTURE UTILIZING A MIMO CHIPSET FOR NEAR FIELD PROXIMITY SENSING AND COMMUNICATION - A re-configurable RF architecture includes both a 2×2 MIMO mode and a 1×2 MIMO mode. The 2×2 MIMO mode includes a first RF chain coupled with a first dual band antenna and configured to both transmit (Tx) and receive (Rx) using two different RF protocols. The 2×2 MIMO mode also includes a second RF chain coupled with a second dual band antenna and configured to both Tx and Rx using a single RF protocol. The first RF chain may be coupled with a third antenna configured for near field proximity sensing. The RF architecture is reversibly switchable from the 2×2 MIMO mode to the 1×2 MIMO mode when near field proximity detection is required. In the 1×2 MIMO mode the Tx/Rx capabilities of the second chain using the second dual band antenna are retained and the first chain is configured for Rx only capability using the third antenna. | 2015-08-27 |
20150244446 | ANTENNA PORT MODE AND TRANSMISSION MODE TRANSITIONS - A wireless communication device may autonomously transition from a multiple antenna port mode to a single antenna port mode. The wireless communication device may implicitly notify a base station about the autonomous transition from the multiple antenna port mode to the single antenna port mode. The base station may reallocate resources that were previously allocated to the wireless communication device but that are no longer being used by the wireless communication device. In some cases, the base station may configure the wireless communication device's antenna port mode via radio resource control signaling. | 2015-08-27 |
20150244447 | Method and Apparatus of Beam Training for MIMO Operation - The disclosed invention provides an efficient method for beam training to enable spatial multiplexing MIMO operation and spatial combining in a wireless network. The invention discloses a simple and efficient beam-training algorithm and protocol for MIMO operation that operates in high SNR condition for reliable MIMO operation. In one novel aspect, the best MIMO beam combinations are determined after TX sector sweeping and RX sector sweeping. In addition, the selection criteria includes not only signal quality, but also considers mutual interference and leakage among multiple MIMO spatial streams to improve overall MIMO performance. | 2015-08-27 |
20150244448 | METHOD AND APPARATUS FOR PERFORMING RELAY OPERATION IN WIRELESS LAN SYSTEM - A method and apparatus for performing a relay operation in a wireless LAN (WLAN) system are disclosed. A method for performing a relay operation by an entity of a wireless LAN (WLAN) system includes: transmitting a frame including information indicating whether the entity is a relay access point (AP) or a root AP to at least one station (STA), wherein, if the entity is the relay AP, the frame further includes a Medium Access Control (MAC) address of the root AP associated with the entity. | 2015-08-27 |
20150244449 | INSERTION OF SIGNALS BY AN INTERMEDIATE DEVICE - A method is performed by an intermediate device in a multi-hop wireless network. The method includes receiving a transmission to forward to another device and synchronizing with the transmission based on a format of the transmission. The method further includes selecting a resource portion of the transmission based on information included in the transmission or information previously received, and inserting a signal in the selected resource portion of the transmission. The method also includes forwarding the transmission that includes the signal to the other device. | 2015-08-27 |
20150244450 | ECHO CANCELLATION IN COMMUNICATION TRANSCEIVERS - A method includes, in a transceiver ( | 2015-08-27 |
20150244451 | AIRBORNE NETWORK EXTENSION CLUSTER - The object of the present invention is to provide an over-the-horizon communication system comprising at least two end nodes, the end nodes being configured to receive and transmit communication signals, and providing communication between the at least two end nodes. The system further comprises at least two, in the troposphere and/or stratosphere airborne, network extension nodes that are communicatively connected to the end nodes and wherein the end nodes are arranged for bidirectional or uni-directional communication with the network extension nodes and the network extension nodes are arranged for bidirectional or uni-directional communication between the individual network extension nodes and bidirectional or unidirectional communication with the end nodes. | 2015-08-27 |
20150244452 | Systems and Methods for Monitoring Individuals for Substance Abuse - A system for monitoring an individual for substance use includes at least one of a transdermal sensor and a body communications subsystem. When provided, the transdermal sensor is used to periodically test for consumption of a selected substance by the individual, the results of which are selectively logged for compliance review by monitoring authorities. When provided, the body communications subsystem uses the body of the individual as a communications path for signals transmitted by a transmitting device storing identification information for the individual to a receiving device for extracting the identification information and identifying the individual. | 2015-08-27 |
20150244453 | WSON RESTORATION - Dynamic restoration involves routing and bandwidth assignment of an unplanned restoration path in a wavelength switched optical network ( | 2015-08-27 |
20150244454 | FAST PROTECTION SWITCHING METHOD FOR PASSIVE OPTICAL NETWORK - A fast protection switching method for a Passive Optical Network (PON). When performing protection switching from an operation link (an operation network) to a protection link (a protection network) in a PON, the fast protection switching method enables rapidly updating Equalization Delay (EqD) values, even if the EqD values are different for Optical Network Terminals (ONTs) of varying distances. | 2015-08-27 |
20150244455 | CALCULATING TIME OFFSET - A slave device sends a first test signal via a downlink optical waveguide to a master device and recording a first transmission time, receives the first test signal looped back by the master device via the downlink optical waveguide and records a first reception time, and calculates a downlink delay time based on the first transmission and the first reception times. The slave device sends a second test signal via an uplink optical waveguide to the master device and records a second transmission time, receives the second test signal looped back by the master device via the uplink optical waveguide and records a second reception time, and calculates the uplink delay time based on the second transmission and the second reception times. Then, the slave device calculates a time offset between the master device and the slave device based on the downlink and the uplink delay times. | 2015-08-27 |
20150244456 | APPARATUS, METHOD AND COMPUTER PROGRAM OPERABLE TO DETERMINE ESTIMATES - An apparatus, a method and a computer program for determining estimates is disclosed. The apparatus determines estimates for transmitted symbols from received symbols of an optical signal affected by cross-Polarization Modulation (XpolM). The apparatus groups two or more subsequent received symbols from the optical signal into a group of received symbols and estimates an optical channel based on the group of received symbols and a hypothesis on the transmitted symbols. The apparatus further determines a reliability measure for a combination of the group of received symbols, the channel estimate, and the hypothesis, and determines the estimates for the transmitted symbols based on reliability measures for multiple hypotheses on the transmitted symbols. | 2015-08-27 |
20150244457 | Apparatus For Data Communications, Method Of Performing Data Communications - Apparatus and methods for data communications are disclosed. In a disclosed arrangement, there is provided an apparatus for data communications, comprising: a detector for detecting electromagnetic radiation; a decoder for obtaining information from the detected electromagnetic radiation; and a concentration stage for receiving and concentrating the radiation, prior to detection of the radiation by the detector, the concentration stage comprising a wavelength converting element configured to convert radiation to longer wavelength radiation. | 2015-08-27 |
20150244458 | Optical Communication Terminal - An optical communication terminal is configured to operate in two different complementary modes of full duplex communication. In one mode, the terminal transmits light having a first wavelength and receives light having a second wavelength along a common free space optical path. In the other mode, the terminal transmits light having the second wavelength and receives light having the first wavelength. The terminal includes a steering mirror that directs light to and from a dichroic element that creates different optical paths depending on wavelength, and also includes spatially separated emitters and detectors for the two wavelengths. A first complementary emitter/detector pair is used in one mode, and a second pair is used for the other mode. The optical components are arranged such that adjusting an orientation of the steering mirror aligns the terminal to communication over a given free space optical link using either the first or second complementary pair. | 2015-08-27 |
20150244459 | Vehicle to Vehicle Communication System - Exemplary embodiments of the present invention are directed to a vehicle to vehicle communication system for mounting to a vehicle including an emitter in communication with a receiver. The emitter includes an emf source configured to transmit a directional beam distal to the vehicle, wherein the beam is transmitted such that it has less than a pre-configured signal strength outside a configured width. The receiver is in communication with the emitter, the emitter configured to transmit the beam in response to signal input to the receiver from a distal vehicle to vehicle communication system. | 2015-08-27 |
20150244460 | Method and Device for Generating Electrical Signals Corresponding to a Wavelength, from Polychromatic Optical Signals - A method is provided for generating a plurality of electrical signals from polychromatic optical signals extracted from a set of optical fibers, a polychromatic signal including a plurality of predetermined wavelengths. An electrical signal is generated by using predetermined wavelengths. The method includes: grouping the extracted optical signals together into a polychromatic optical signal beam; separating the polychromatic signal beam into a plurality of monochromatic optical signal beams; and converting the plurality of separated monochromatic optical signal beams into the plurality of electrical signals. | 2015-08-27 |
20150244461 | COMMUNICATION SYSTEM FOR ANALOG AND DIGITAL COMMUNICATION SERVICES - A first and a second interconnection unit comprising a respective first and a second communication interface, a first and a second electro-optical converter, and a multiplexing unit, is disclosed. The first interconnection unit is adapted to receive electrically transmitted analog and digital information, convert said information into electrically transmitted information, and to multiplex the information so as to enable transmission over a bidirectional link. The second interconnection unit is adapted to receive and de-multiplex the transmitted analog and digital information, to convert it back into electrically transmitted analog and digital information, and to output said information. A system comprising the first and second interconnection units is also disclosed. The system is adapted for supplying both analog services and digital services with communication information over the bidirectional link. | 2015-08-27 |
20150244462 | Inline Optoelectronic Converter and Associated Methods - An inline optoelectronic converter configured to convert electrical signals to optical signals and to convert optical signals to electrical signals. The converter is external to the avionic computer and connected to the avionic computer at a location spaced apart from the avionic computer. The converter is configured to be integrated into an existing wiring bundle of the avionic computer. Also disclosed is a method of retrofitting an avionic computer by connecting an optoelectronic converter to the computer. The method comprises connecting the converter to an existing wiring bundle of the avionic computer at a location spaced apart from the avionic computer. | 2015-08-27 |
20150244463 | Mapping Information Centric Networking Flows to Optical Flows - A method implemented by an edge node in an optical network, the method comprising receiving one or more information centric networking (ICN) service flows, each of which is identifiable by a service label, determining at least one optical resource to be provisioned to the one or more service flows based on the one or more service labels, converting the one or more ICN service flows to one or more optical flows, and transmitting the one or more optical flows using the at least one optical resource. | 2015-08-27 |
20150244464 | Operating a Node in an Optical Transport Network - An optical transport network ( | 2015-08-27 |
20150244465 | OPTICAL COMMUNICATION MODULE - An optical signal emitter includes a transmitting lens; a lens supporting portion, extending from an edge of the transmitting lens to defined a containing space surrounded by the transmitting lens and the lens supporting portion; a lens carrier, for carrying the transmitting lens and the lens supporting portion, wherein a coupling surface is defined on the lens carrier and at least a part of the lens supporting portion is coplanar with the lens carrier with respect to the coupling surface; a light transmitter, disposed in the containing space and coaxially with the transmitting lens, so as to define an light transmission path for light passing through coupling surface by an alignment between the light transmitter and the transmitting lens; at least one engagement portion, disposed on the coupling surface; at least one magnet, disposed on the lens carrier. | 2015-08-27 |
20150244466 | OPTICAL SENDING CIRCUIT AND OPTICAL SENDING METHOD - In order to provide an optical sending circuit which has a small size and can carry out long haul transmission and which can reduce a stray light and an optical cross talk noise generated in an optical transmission line, the optical sending circuit includes: a first EA modulator whose reverse bias voltage is changed by a first data signal; a second EA modulator whose reverse bias voltage is changed by a second data signal; a first optical transmission line which inputs a light to be modulated, which is to be modulated by the first EA modulator, to the first EA modulator; a second optical transmission line which is connected with an output of the first EA modulator, and transfers an optical signal modulated by the first data signal; and a third optical transmission line which is connected with an output of the second EA modulator. | 2015-08-27 |
20150244467 | OPTICAL TRANSMISSION DEVICE AND OPTICAL RECEPTION DEVICE - An optical transmission device includes a division unit that divides transmission data into a plurality of data and outputs the plurality of data, a frequency conversion unit that shifts a frequency band of the divided transmission data so that the frequency bands of the divided transmission data do not overlap each other and outputs the divided transmission data whose frequency band is shifted as a modulation signal, and an optical modulation unit that modulates an optical carrier with a signal in which the modulation signals are added and outputs the modulated optical carrier as a signal light. | 2015-08-27 |
20150244468 | OPTIMUM MODULATOR BIAS SYSTEMS AND METHODS IN COHERENT OPTICAL TRANSMITTERS - A modulator bias selection method, a coherent optical transmitter, and optical modulator solve the problem of generating a correct constellation using the bias points with the minimum phase adjustment range. The optimum modulator bias systems and methods include a coherent optical transmitter with control of four (XI, XQ, YI, YQ) quadrature data signals via a transmitter (Tx) application specific integrated circuit (ASIC), with a modulator bias controller which implements an algorithm to find the optimum bias points. The optimum bias points yield a correct constellation with minimum phase/bias adjustment. An algorithm is used to find the optimum bias solution using fast, simple method, adjusting only one quadrature at a time and exploiting a control feature of the Tx ASIC. This algorithm is significantly simpler than a generalized search, is a local algorithm, and uses only DC power measurement at the transmitter. | 2015-08-27 |
20150244469 | OPTICAL RECEIVER AND DETECTION METHOD - The integrated optical receiver module includes a plurality of PDs each converting an optical signal to a current signal, and outputs a current signal selected from a plurality of current signals. The RSSI circuit converts the current signal into a voltage signal, outputs a first amplified signal obtained by amplifying the voltage signal by a first gain, and outputs a second amplified signal obtained by amplifying the voltage signal by a second gain larger than the first gain. The MCU outputs a first selection signal to the integrated optical receiver module to acquire intensity of the first amplified signal with respect to all of the current signals in a predetermined order, outputs a second selection signal to the integrated optical receiver module to acquire intensity of the second amplified signal with respect to all of the current signals in the ascending order of the acquired intensity of the first amplified signal, and derives intensity of each of the optical signals from the acquired intensity of the respective second signals. | 2015-08-27 |
20150244470 | COORDINATION SYSTEMS AND METHODS BETWEEN DATA CONTROL PLANE AND PHOTONIC CONTROL IN OPTICAL NETWORKS - A method, a system, and a network for coordination between a data control plane and photonic control in a network include operating the data control plane with photonic control messaging included therein, wherein the data control plane is configured to at least establish end-to-end paths between a plurality of network elements at Layer 1; transmitting a photonic control message in or by the data control plane responsive to a requirement for photonic layer information; processing, via the data control plane, the photonic layer information received from photonic control responsive to the photonic control message, wherein the photonic control is configured to adjust photonic hardware responsive to a change at a photonic layer; and performing an action by the data control plane considering the photonic layer information. | 2015-08-27 |
20150244471 | Control Device Update - A system and method for updating IR signal information remotely for control devices are disclosed. | 2015-08-27 |
20150244472 | METHOD AND SYSTEM FOR TRANSMITTING INFORMATION USING ULTRASONIC MESSAGES - A device includes an audio capture device for receiving an audio signal in an ultrasonic frequency range. The device includes a processor to determine whether the received audio signal corresponds to an ultrasonic message. The processor extracts a content of the ultrasonic message, when it is determined that the received audio signal corresponds to an ultrasonic message, automatically handles the ultrasonic message based on the extracted content, stores at least a portion of the content of the ultrasonic message, and displays the portion of the content of the ultrasonic message to a user of the mobile device at a time subsequent to a time of the receipt of the audio signal. | 2015-08-27 |
20150244473 | ACOUSTIC-ELECTRIC CHANNEL CONSTRUCTION AND OPERATION USING ADAPTIVE TRANSDUCER ARRAYS - A method for transmitting power, data, and instructions using acoustic-electric channels having one or more transducer arrays, and to compensate for imperfect alignment of transducer arrays. Transducer arrays each include multiple transducer elements coupled to a channel barrier. Each element can be independently controlled, and misaligned transducers are selectively deactivated to improve overall channel performance. Arrays are optimized by testing different combinations of elements, and the combinations which are the most effective or efficient are used for transmissions. The system and the optimization features can be used to communicate between surfaces which have relative movement, such as between water craft hulls. Optimization can be periodic or constant to compensate for movement within the channel. The arrays can be used with curved substrates. Methods of designing adaptable arrays are also provided. | 2015-08-27 |
20150244474 | INTERFERENCE CANCELLATION - A transceiver for full-duplex communication. The transceiver comprises: a transmitter and a receiver. The transmitter has a first oscillator circuit, for generating a transmit-carrier signal; and a first mixer, for up-converting a data signal to be transmitted by mixing it with the transmit-carrier signal, said data signal comprising a plurality of data symbols. The receiver has: a second oscillator circuit, for generating a receive-carrier signal; and a second mixer for down-converting a received signal by mixing it with the receive-carrier signal. The first oscillator and second oscillator are controlled such that there is a predetermined phase relationship between the transmit-carrier and receive-carrier signals at the start of each transmitted data symbol. The transceiver further comprises an interference cancellation circuit adapted to generate, based on the data signal to be transmitted and the predetermined phase relationship, an estimate of an interference component present in the received signal, and to compensate for the interference using the estimate. | 2015-08-27 |
20150244475 | RADIO COMMUNICATION APPARATUS AND INTERFERENCE DETECTION METHOD - A radio communication apparatus includes a discrete Fourier transformer that performs a frequency-domain transform on each of a plurality of reception signals received at a plurality of receiver chains and generates a plurality of frequency-domain signals, a covariance matrix calculator that calculates covariance of the plurality of frequency-domain signals, a deviation calculator that calculates a cumulative value of covariance in a first frequency range and a second frequency range and calculates deviation of the covariance in the plurality of frequency ranges, and an adjacent-channel interference determiner that determines presence or absence of adjacent-channel interference using the cumulative value of the covariance. | 2015-08-27 |
20150244476 | WIFI TEST CHAMBER - A system, method, and WiFi test chamber. The WiFi test chamber includes a case defining a number of isolation chambers. The case is configured to prevent radio frequency signals from entering the number of isolation chambers. The WiFi test chamber includes a number of wireless access points (WAPs) with one of the wireless access points in each of the number of isolation chambers. The WiFi test chamber includes interfaces extending from the exterior from the case and connected to the plurality of WAPs. | 2015-08-27 |
20150244477 | METHOD FOR TESTING MULTIPLE WIRELESS DATA PACKET SIGNAL TRANSCEIVERS USING SHARED TESTING RESOURCES - Method for testing multiple signal transceiver devices under test (DUTs), such as data packet signal transceivers, with a shared DUT testing resource, such as a tester having a single vector signal generator (VSG) and a single vector signal analyzer (VSA). Requests by the DUTs for access to tester resources (e.g., to receive signals from the signal generator or provide signals to the signal analyzer) are prioritized based upon tester availability and whether the requesting DUT requires sole access or can share access to the tester. If the tester is unavailable, DUT requests are queued according to their respective priorities to await tester availability. As a result, access to shared tester resources can be managed dynamically to minimize test time while testing multiple DUTs concurrently. | 2015-08-27 |
20150244478 | RADIO COMMUNICATION DEVICE AND METHOD OF CONTROLLING DIRECTIVITY - A radio communication device includes: a directivity control unit that configures each of directivities of a plurality of antennas; a directivity switching unit that switches between the directivities of the antennas; a reception quality estimation unit that measures a reception quality of a received signal received by the antennas; and a block error estimation unit that estimates a block error in reception data which is obtained by decoding the received signal. In the case where a block error occurs continuously for a predetermined number of times or longer and an amount of decrease in the reception quality is lower than a predetermined value, the directivity control unit re-adjusts a directivity to decrease the block error, based on a result of the estimation of the block error and a result of the measurement of the reception quality, the re-adjusted directivity being one of the directivities of the antennas. | 2015-08-27 |
20150244479 | APPARATUS AND METHOD FOR CONTROLLING COMMUNICATION - An electronic device is provided. The electronic device includes a measurement module configured to measure received signal strength indications from a signal transmitted by access device that the electronic device is connected to, a generation module configured to generate correction data using at least some of the received signal strength indications, and a control module configured to control the communication connection of the electronic device based on a change in the correction data. | 2015-08-27 |
20150244480 | EMERGENCY RESPONDER SYSTEMS AND METHODS - Systems and methods for aiding emergency responders are described. An exemplary system may include a primary device and a secondary device. The primary device may be configured to provide audio communication between the primary device and one or more of the plurality of secondary devices along a wireless communication path. The primary device may be configured to compress audio communication for transmission over a low bitrate band. The plurality of secondary devices may be configured as a network where each of the devices is configured to communicate with at least two other secondary devices. The secondary devices may also be configured to receive audio communication from the primary device and automatically transmit the received audio communication to one or more other of the secondary devices. | 2015-08-27 |
20150244481 | BROADCAST RETRANSMISSION - A wireless communication device configured to receive a first data packet identified as being of a broadcast packet type, the first packet comprising a first mesh network data packet that comprises a payload and a first lifetime value. A portion of the first packet may be compared against a record of mesh network data packets previously received by the device. If the record indicates that the first packet has not been previously received by the device and if the first lifetime value of the first packet is not equal to a predetermined threshold value, then form a second mesh network data packet that is unaltered from the first packet except that the first lifetime value is changed to indicate that the first packet has been received. The second packet may be transmitted within a second data packet that is identified as being of the broadcast packet type. | 2015-08-27 |
20150244482 | Magnetic Resonance Imaging Apparatus and Method for Measurement Signal Acquisition in a Magnetic Resonance Imaging Apparatus - A magnetic resonance imaging apparatus is provided. The apparatus includes a plurality of receiving antennas for receiving a plurality of reception signals. The apparatus also includes at least one first superposition device having at least one first and one second output, which in each case serve for providing a mode formed by superposition of at least two of the reception signals. The apparatus also includes at least one first frequency division multiplex device for transmitting input signal present at a first and a second input of the frequency division multiplex device via a first transmission link on different frequency bands to a receiving unit, wherein the first output of the first superposition device is connected to the first input of the first frequency division multiplex device and the second output of the first superposition device is connected directly or indirectly to a second transmission link. | 2015-08-27 |
20150244483 | METHOD FOR TRANSMITTING USEFUL INFORMATION BETWEEN TWO TERMINALS AND METHOD FOR GENERATING AN ASSOCIATION TABLE USED IN THE CONTEXT OF THE TRANSMISSION - A method for transmitting useful information between a transmitting terminal and a receiving terminal connected via a transmission channel. The transmitting terminal defines control information for the useful information, and searches in an association table, which is accessible from the transmitting terminal, for a frame-synchronization word associated with the control information. The transmitting terminal generates a frame of data from the useful information, and transmits, over the transmission channel, a data stream that includes the frame-synchronization word and the frame of data. | 2015-08-27 |
20150244484 | LATENCY MITIGATION - A network including a plurality of wireless communication devices capable of operating according to a wireless protocol that imposes no common timebase at the network level, the plurality of devices comprising: an initiator device configured to detect an event and in response transmit an event message having a payload comprising a time field; and a set of appliance devices configured to receive and automatically retransmit messages received from others of the devices, each appliance device being associated with an appliance supplementary to its wireless communication function and being configured to, on receiving an event message comprising a time field, cause their respective associated appliance to perform a function at a time indicated by the content of the time field in the received message. | 2015-08-27 |
20150244485 | WIRELESS COMMUNICATION SYSTEM, A BASE STATION AND A METHOD THEREIN - A method is implemented in a base station used in a wireless communications system that supports flexible-TDD (flexible-time division duplex) UL-DL (uplink-downlink) configuration. The method includes configuring a first type of user equipment (UE) with a first type of configuration; configuring a second type of UE with a second type of configuration; and receiving from a user equipment a HARQ-ACK (hybrid automatic repeat request-acknowledgement) signal according to a DL association set. The DL association set includes: a first DL association set for a UL-DL TDD configuration used by the first type of UE; and a second DL association set for a reference UL-DL TDD configuration including a third DL association set for PUCCH resource mapping used by the second type of UE. | 2015-08-27 |
20150244486 | TDMA ACCESS METHOD AND DEVICE BASED ON MULTIPLE ACCESS POINTS - The present invention relates to a TDMA access method and device based on multiple access points. According to the problems that the existing method cannot simultaneously satisfy the demands of timeliness and reliability in actual industrial application and has low resource utilization rate, the present invention takes full consideration of the transmission characteristics and industrial automation application characteristics of wireless networks, and provides a TDMA access method and device based on multiple access points. The main ideas of the method in the present invention are: the multi-access point redundant communication manner is adopted to improve system reliability, beacon frames of multiple access points are utilized to perform time synchronization so as to improve synchronization precision, confirmation messages are fed back with regard to reliable access points to reduce the number of retransmissions, and a modularized multi-access point device design method is adopted to lower the difficulties of device maintenance and management. | 2015-08-27 |
20150244487 | UPLINK INTERFERENCE MITIGATION BY ADAPTING OPEN CELL TRANSMISSION POWER - Methods and apparatus are disclosed for interference mitigation of an open-access node. The method includes determining, at the open-access node, whether uplink interference from a mobile entity is above a threshold. The method includes adjusting a transmission power to trigger a hand-in of the mobile entity in response to determining the uplink interference is above the threshold. The method includes handing-in the mobile entity from a first cell in response to adjusting the transmission power. The method includes redirecting the mobile entity to a second cell different from the first cell. | 2015-08-27 |
20150244488 | SIGNALING TO SUPPORT ADVANCED WIRELESS RECEIVERS AND RELATED DEVICES AND METHODS - Various devices and methods are provided that use signaling to support advanced wireless receivers. For example, a method includes receiving an input signal at a user equipment. The input signal includes a desired signal and an interfering signal, where the desired signal defines symbols using constellations. The method also includes obtaining information identifying a wireless channel used by the interfering signal and a modulation type used to modulate data in the interfering signal. The method further includes recovering the symbols from the desired signal using the information. | 2015-08-27 |
20150244489 | BASE STATION, NETWORK SYSTEM, AND COMMUNICATION METHOD - Embodiments of the present invention provide a base station, a network system, and a communication method. The base station includes: a control module, configured to connect to a control module of at least one other base station by using a first logical interface, and perform control plane interaction during inter-base station coordination; and a data processing module, connected to the control module, and configured to connect to a data processing module of the at least one other base station by using a second logical interface, and perform user plane interaction during the inter-base station coordination. The base station in this embodiment of the present invention is provided with the first logical interface and the second logical interface to respectively implement the control plane interaction and the user plane interaction between base stations, so that the inter-base station coordination can be implemented. | 2015-08-27 |
20150244490 | RECEIVING DEVICE - A receiving device includes: a propagation path compensation unit that compensates a signal by using a propagation path characteristic; a power arithmetic section that arithmetically operates power of a signal; a first reciprocal processing section that performs reciprocal processing on power to output a signal; an error arithmetic section that arithmetically operates an error of the compensated signal; a subtractor that subtracts the signal output from the first reciprocal processing section from the error; a second reciprocal processing unit that performs reciprocal processing on the signal output from the subtractor to output a signal; a first multiplier that multiplies the power and the signal output from the second reciprocal processing unit together to output a signal; and a second multiplier that multiplies the signal compensated by the propagation path compensation unit and the signal output from the first multiplier together to output a signal to an adder. | 2015-08-27 |
20150244491 | METHOD AND SYSTEM FOR GENERATING CHANNEL CODES, IN PARTICULAR FOR A FRAME-HEADER - A method for generating a channel code, in particular for a frame-header, wherein at least a code-word of the channel code is obtained by means of at least a concatenation of code-words of two constituent codes and such concatenation is performed on subsets of code-words of a first constituent code, having maximum length, with code-words of a second constituent code. | 2015-08-27 |
20150244492 | Apparatus and Manufacturing Method for an Integrated Multicast Switch, For Use in Reconfigurable Optical Add-Drop Networks - In one embodiment, each of the output/input ports of each one of a plurality of optical splitters is connected to one of a plurality of optical switches by means of optical fibers without any fusion splicing in a majority of the optical fibers, and each of the input/output ports of each one of the switches is connected to one of the optical splitters by means of the optical fibers without any fusion splicing in a majority of the optical fibers. Each of the output/input ports of each one of the optical splitters may be directly connected to the ferrule and one of the input/output ports of one of the switches by the optical fibers. The optical splitters may be implemented in at least one planar lightwave circuit (PLC) chip. Optionally, at least one fiber holder defining a plurality of channels therein may be used to hold the optical fibers each of which is aligned with a corresponding output/input port of one of the optical splitters. | 2015-08-27 |
20150244493 | CHANGING THE SPECTRAL POSITION OF A LIGHTPATH - A method of changing the spectral position of a lightpath between a source node and a destination node of an optical network. The optical network uses a flexible grid for spectral allocation and the lightpath has been allocated first spectral resources at a first spectral position. The method comprises, at the source node, reserving additional spectral resources for the lightpath which are contiguous in frequency with the first spectral resources. The method comprises re-tuning a light source at the source node such that the lightpath moves in frequency from using the first spectral resources at the first spectral position to using second spectral resources at a second spectral position, wherein the second spectral resources comprise at least some of the additional spectral resources. The method comprises releasing at least some of the first spectral resources. The source node continues to send traffic over the lightpath during the re-tuning. | 2015-08-27 |
20150244494 | Passive Optical Network and Optical Line Terminal - A passive optical network comprises at least two optical line terminals (OLTs), a remote node (RN), and a plurality of optical node units (ONUs). Each OLT has a WDM working port, the RN has a number M WDM ports and a number N distribution ports, and each ONU has a communication port. Each OLT WDM working port is connected to a dedicated RN WDM port by a respective working feeder fiber, and each ONU communication port is connected to a dedicated RN distribution port by a respective distribution fiber. The RN comprises a passive optical filter device having a spectral and spatial filter property of an M×N arrayed waveguide grating and defining the M WDM ports and the N distribution ports. Each OLT communicates to a respective ONU using optical channel signals at a downstream wavelength defined by the passive optical filter device making up the RN. | 2015-08-27 |
20150244495 | APPARATUS AND METHOD FOR TRANSMITTING JAMMING SIGNAL - A node device is provided. The node device includes forming a jamming signal generation unit configured to generate a jamming signal for a target signal which is transmitted from a base station to an intended receiving device supposed to receive the signal and an unintended receiving device not supposed to receive the signal, a beamforming vector determination unit configured to determine a beamforming vector of the jamming signal based on an amplitude of a received power of the jamming signal at the intended receiving device, and a transmission unit configured to transmit the jamming signal based on the determined beamforming vector. | 2015-08-27 |
20150244496 | BIT CODING DEVICE, BIT DECODING DEVICE, TRANSMISSION DEVICE, RECEPTION DEVICE, BIT CODING METHOD, BIT DECODING METHOD, TRANSMISSION METHOD, RECEPTION METHOD, AND PROGRAM - A bit coding device that creates a coded bit sequence by performing error correction coding on an input bit sequence that is input, includes a coding unit that creates a first bit sequence by performing the error correction coding on the input bit sequence, an extraction unit that extracts a second bit sequence from the first bit sequence, and an information compression unit that creates a third bit sequence by performing lossy compression on the second bit sequence, in which coded bits include at least a portion of the third bit sequence. | 2015-08-27 |
20150244497 | METHOD AND SYSTEM FOR ERROR CORRECTION IN TRANSMITTING DATA USING LOW COMPLEXITY SYSTEMATIC ENCODER - A systematic encoder such as a systematic polar encoder for channel encoding to ameliorate the effects of noise in a transmission channel. The codeword carries a data word to be transmitted transparently, and also carries a parity part derived from the data word and a fixed word. Implementations advantageously reduce coding complexity to the order of Nlog(N), wherein is the dimension of a matrix of the nth Kronecker power associated with a matrix effectively employed by the encoder. | 2015-08-27 |
20150244498 | Data Alignment over Multiple Physical Lanes - High speed communication networks divide data traffic into multiple physical lanes. For example, the IEEE standard 40G/100G supports sending Ethernet frames at 40/100 gigabits per second over multiple 10/25 Gb/s lanes. Techniques are disclosed for aligning the data across the physical lanes. | 2015-08-27 |