24th week of 2015 patent applcation highlights part 61 |
Patent application number | Title | Published |
20150162951 | APPLICATION OF SEQUENCE HOPPING AND ORTHOGONAL COVERING CODES TO UPLINK REFERENCE SIGNALS - Methods and apparatuses are provided for transmitting and receiving references signals. A method includes receiving first and second cell specific parameters; receiving a third UE specific parameter; acquiring a first reference signal for a PUSCH, based on the third parameter; acquiring a second reference signal for a PUCCH, based on the first parameter; and transmitting at least one of the first reference signal and the second reference signal. Sequence hopping and group sequence hopping are disabled for the first reference signal, regardless of values of the first parameter and the second parameter, if the third parameter indicates that the sequence hopping and the group sequence hopping are disabled. The group sequence hopping is applied to acquire the second reference signal, if the first parameter indicates that the group sequence hopping is enabled and the third parameter indicates that the sequence hopping and the group sequence hopping are disabled. | 2015-06-11 |
20150162952 | CROSSTALK ANALYSIS METHODS USING SUPERPOSITION - System, methods and apparatus are described that facilitate communications circuit design. A first response of a channel to a first signal transmitted through the channel and a second response of the channel to a second signal transmitted through a neighboring channel are determined and a first signal analysis based on the first response and the second response is calculated. A modified second response is determined after modifying the magnitude or timing of the second response to simulate a change in a characteristic of the second signal. A second signal analysis performed using the first response and the modified second response may identify differences in the effects of the second signal and the modified second signal on the first signal. A physical relationship between a pair of connectors of a circuit may be modified based on the magnitude of a scaling factor or phase difference used to obtain the second response. | 2015-06-11 |
20150162953 | NETWORK COUPLING DEVICE AND NETWORK COUPLING SYSTEM - A network coupling device includes a transformer module for transmitting a network signal from a network system, and a power processing module coupled to the transformer module and configured to transmit a direct current power signal from the network system. The transformer module and the power processing module satisfy a relation | 2015-06-11 |
20150162954 | Emulation of Multiple Devices in an NFC Device - A method in a signal generating unit ( | 2015-06-11 |
20150162955 | NEAR-FIELD CONNECTIVITY FOR HOSTED PAYLOADS - A system and method for wirelessly communicating between a host bus of a spacecraft and a secondary payload. In one configuration, the host bus and secondary payload each include a wireless interface for establishing a radio or optical communications link thereby allowing for the elimination of a complex wiring harness connected between the host bus and the secondary payload. | 2015-06-11 |
20150162956 | NEAR FIELD COMMUNICATION BASED DATA TRANSFER - Various embodiments of systems and methods for near field communication based data transfer are described herein. Initially an NFC tag receives dynamic data from a data management system. Next the NFC tag forwards the received dynamic data to a portable electronic device. Based on the forwarded dynamic data, the NFC tag receives data update from the portable electronic device. Finally, the NFC tag updates the data management system with the data update. | 2015-06-11 |
20150162957 | Scanning station utilizing passive near-field communication RF coupling system for scanning RFID tags - A system and method for scanning medical items having RFID tags in a medical care facility using a passive Near-Field Communication (“NFC”) RF coupling system within a scanning station. The RF coupling system forms a communications link between a primary NFC device acting as an RFID reader, such as a mobile device, and a secondary NFC device, an RFID tag attached to a medical item. The RF coupling system has a primary NFC antenna and a secondary NFC antenna connected by a transmission line. Using the RF coupling system, the scanning station relocates the active scanning area from the back of the mobile device to the secondary NFC antenna. The RF coupling system enables an effective distance between the primary and secondary NFC devices on the order of meters, corresponding to the wavelength of passive NFC devices operating at 13.56 Mhz, instead of 2-4 centimeters. | 2015-06-11 |
20150162958 | WIRELESS BUS FOR INTRA-CHIP AND INTER-CHIP COMMUNICATION, INCLUDING EMBODIMENTS WITH ADAPTABLE LINKS - Embodiments of the present invention are directed to a scalable wireless bus for intra-chip and inter-chip communication. The scalable wireless bus includes a plurality of wireless-enabled components (WECs). In an embodiment, the scalable wireless bus may have at least one of the number of links among WECs and the capacity of said links adapted based on one or more factors. For example, the number of links and the capacity of the links may be adapted according to one or more of, among other factors, expected activity level over the wireless bus, desired power consumption, delay, and interference levels. | 2015-06-11 |
20150162959 | Cross Cell Beam Persistence In A Massive Multiple-Input, Multiple Output (MIMO) Environment - In wireless operating environments, wireless user devices are often within the coverage area of multiple base stations. The base station providing the best uplink for the user device may be different than the base station providing the best downlink for the user device. Systems and techniques for asymmetric uplink and downlink communications for a user device are provided. In embodiments, the user device initially synchronizes with a base station. Both the uplink and downlink are initially served by this base station. A determination is then made whether to handoff the downlink for the user device to another base station. When a determination is indicated, the downlink is handed off to the second base station. Thereafter, periodic measurements are made. The determinations whether to handoff the uplink and downlink for the user device are made independently. | 2015-06-11 |
20150162960 | MIMO WIRELESS COMMUNICATION METHOD AND SYSTEM - The present invention discloses a MIMO wireless communication method functioning through a main wireless communication device and comprising: acquiring a transmission opportunity; issuing an distributed MIMO initiation frame including a transmission duration, a number Ns1 of transmission spatial stream(s), and a number Nr1 of reception spatial streams which an intended receiver is operable to process; receiving an initial portion which an attendant wireless communication device sends in response to the distributed MIMO initiation frame, or issuing the initial portion after reaching a time limit; and transmitting a distributed MIMO packet to the intended receiver while the attendant wireless communication device is allowed to transmit another distributed MIMO packet to the intended receiver or another intended receiver concurrently, wherein the sum of the number Ns1 and a number Ns2 of transmission spatial stream(s) of the attendant wireless communication device is equal to or less than the number Nr1. | 2015-06-11 |
20150162961 | Base Station Simultaneously Servicing Legacy Cellular and Massive Multiple-Input, Multiple-Output - As wireless networks evolve, network providers may utilize legacy LTE devices as well as devices that support massive multi-input, multiple output (M-MIMO). Systems and methods for simultaneously servicing legacy LTE devices and M-MIMO devices are provided. In embodiments, a transmission zone for M-MIMO communications is defined within a legacy, non M-MIMO radio frame. The location of the M-MIMO transmission zone is transmitted to user devices. For example, an identification of the location of the M-MIMO transmission zone is transmitted in a system information message. In a further example, the location of the M-MIMO transmission zone is transmitted in the downlink control information. The location of the M-MIMO transmission zone may be defined dynamically based on a variety of criteria. In addition or alternatively, a set of pre-defined transmission zones may be utilized. | 2015-06-11 |
20150162962 | BEAMFORMING USING BASE AND DIFFERENTIAL CODEBOOKS - Embodiments of methods and apparatus for determining and/or quantizing a beamforming matrix are disclosed. In some embodiments, the determining and/or quantizing of the beamforming matrix may include the use of a base codebook and a differential codebook. Additional variants and embodiments are also disclosed. | 2015-06-11 |
20150162963 | METHOD FOR GENERATING CODEBOOK, METHOD AND APPARATUS FOR DATA TRANSMISSION - A method for generating a codebook and a method and an apparatus for data transmission are provided. The method includes: receiving a label of a codeword sent by a User Equipment (UE); selecting the codeword identified by the label from the codebook for eight-antenna; and coding data to be sent by using the codeword. The codebook for eight-antenna includes at least one rank-8 codeword for eight-antenna. The rank-8 codeword for eight-antenna is generated by multiplying an inverse matrix of a rotation matrix for eight-antenna with an eight-dimensional matrix formed by rank-4 codewords for four-antenna; or generated by extending rank-4 codewords for eight-antenna, where the rank-4 codeword for eight-antenna is generated according to codewords for four-antenna. Therefore, the codeword in the codebook for eight-antenna is applicable to scenarios including dual-polarization strong correlation, dual-polarization weak correlation, single-polarization strong correlation, and single-polarization weak correlation, etc. | 2015-06-11 |
20150162964 | METHOD AND APPARATUS FOR TRANSMITTING REFERENCE SIGNAL - The present invention relates to a wireless communication system, and more specifically, to a method and an apparatus for transmitting an RS (Reference Signal) from a transmission end. The present invention relates to an RS transmission method and an apparatus therefore, comprising the steps of: confirming RS resources which are defined according to each layer; and transmitting the precoded RS for the layers to a receiving end through a multiple antenna, wherein the RS resource includes a 1 | 2015-06-11 |
20150162965 | METHOD AND APPARATUS FOR TRANSMITTING UPLINK SIGNALS USING MULTI-ANTENNA - A method and apparatus for allowing a UE to transmit uplink signals using a MIMO scheme are disclosed. In order to maintain good Peak power to Average Power Ratio (PAPR) or Cubic Metric (CM) properties when the UE transmits uplink signals using the MIMO scheme, the UE uses a precoding scheme based on a precoding matrix established in a manner that one layer is transmitted to each antenna in specific rank transmission. | 2015-06-11 |
20150162966 | METHOD AND DEVICE FOR REPORTING CHANNEL STATE INFORMATION IN WIRELESS COMMUNICATION SYSTEM - A method of reporting channel state information (CSI) on a terminal in which a plurality of CSI processes are configured in a wireless communication system according to an embodiment of the present invention includes: measuring a channel based on a CSI reference signal (RS) resource related to one of the CSI processes; measuring interference based on a CSI-interference measurement (IM) resource related to the CSI process; determining CSI based on the measured channel and the measured interference; and reporting the CSI through an uplink channel, wherein a codebook for reporting the CSI, which is used for determining the CSI, is one of two or more codebooks that correspond independently to each of the CSI processes. | 2015-06-11 |
20150162967 | METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING CHANNEL QUALITY INFORMATION IN A WIRELESS COMMUNICATION SYSTEM - A method and apparatus for transmitting and receiving CQI in a wireless communication system are provided. The method includes receiving, by a mobile station, CQI report resource information, CQI period information, and Discontinuous Reception (DRX) cycle information; discontinuously monitoring, by the mobile station, a channel based on the DRX cycle information; and reporting a CQI to a network, based on the CQI report resource information, the CQI period information, and the DRX cycle information | 2015-06-11 |
20150162968 | MEASUREMENT SUPPORT FOR A SMART ANTENNA IN A WIRELESS COMMUNICATION SYSTEM - A method for taking measurements with a smart antenna in a wireless communication system having a plurality of STAs begins by sending a measurement request from a first STA to a second STA. At least two measurement packets are transmitted consecutively from the second STA to the first STA. Each measurement packet is received at the first STA using a different antenna beam. The first STA performs measurements on each measurement packet and selects an antenna beam direction based on the measurement results. | 2015-06-11 |
20150162969 | PHYSICAL LAYER HEADER WITH ACCESS POINT IDENTIFIER - Certain aspects of the present disclosure provide methods and apparatus for utilizing a physical layer (PHY) header comprising an identifier for an access point (AP) or a Basic Service Set (BSS). A station (STA) that is assigned an order in a sequential response sequence may count only frames with PHY headers that contain the correct identifier. A STA may terminate its sequential access procedure when it receives a frame with a PHY header that specifies a different identifier for the AP or BSS that assigned the sequence. In this manner, the STA may prevent partly synchronizing to an overlapping network and avoid accessing the wireless medium at the wrong time. | 2015-06-11 |
20150162970 | Narrowband OFDM (NOFDM) Transceiver for Powerline Communications (PLC) - The present invention provides a narrowband OFDM (NOFDM) system with frequency diversity redundant transmission and receiver diversity selection and combining scheme. The communication channel is segmented into independent plurality of sub-channels. The sub-channels can be used in an aggregated mode to transmit different data on every sub-channel or in a number of redundant modes, where the same data is sent on multiple sub-channels to achieve maximum robustness of communication. Redundant modes may include channel selection diversity and/or weighted channel combining diversity. | 2015-06-11 |
20150162971 | ANTENNA SWITCHING DEVICE - An antenna switching apparatus of an embodiment can perform wireless communication with another wireless communication apparatus. The antenna switching apparatus includes: an antenna unit which switches a polarized wave and a beam direction in the wireless communication and which radiates the polarized wave to the other wireless communication apparatus in the beam direction; a communication controller which acquires a communication characteristic corresponding to the polarized wave and the beam direction from the other wireless communication apparatus; an antenna detector which determines an antenna of the other wireless communication apparatus based on the acquired communication characteristic corresponding to the polarized wave and the beam direction; and an antenna switcher which switches the polarized wave and the beam direction in the wireless communication with the other wireless communication apparatus depending on the determined antenna of the other wireless communication apparatus. | 2015-06-11 |
20150162972 | METHOD AND DEVICE FOR IMPROVING PERFORMANCE OF ANTENNA - A method of communicating with a plurality of bands by using an electronic device including a plurality of antennas, an antenna system, and an electronic device is provided. The method includes providing a first or second band signal received via a first antenna to a first transceiver; receiving a first diversity signal for the second band signal via a second antenna and providing the received first diversity signal to a combiner via a signal divider connected to a second transceiver and the combiner; receiving a second diversity signal for the second band signal via a third antenna and providing the received second diversity signal to the combiner; and combining the first diversity signal and the second diversity signal in the combiner and providing the combined signal to a third transceiver connected to the third antenna. | 2015-06-11 |
20150162973 | RELAY APPARATUS AND COMPUTER-READABLE RECORDING MEDIUM - Even if a relay apparatus such as a mobile router indicates the radio wave reception intensity as low, medium, and high levels, a user using the relay apparatus such as a mobile router cannot recognize that the communication quality is lowered because the radio wave reception intensity is too high. A relay apparatus that relays wireless communication between a communication terminal and a base station is provided, the relay apparatus comprising: a first communication quality acquiring unit that acquires first communication quality of communication with the base station; a first communication quality indicating unit that indicates the first communication quality acquired by the first communication quality acquiring unit; a reception intensity acquiring unit that acquires reception intensity of a radio wave received from the base station; and a reception intensity indicating unit that indicates that the reception intensity acquired by the reception intensity acquiring unit has exceeded a predetermined threshold. | 2015-06-11 |
20150162974 | RAPID DEPLOYMENT AIRBORNE REPEATER - A compact, portable repeater system is disclosed. In an implementation, the system includes a receiver configured to receive a first signal via an antenna during a first time interval, a transmitter configured to transmit a second signal via the antenna during a second time interval, and a communication isolator coupled to the transmitter and the receiver. The communication isolator is configured to communicatively isolate the transmitter from the receiver to allow the transmitter and the receiver to utilize the antenna. The transmitter, the receiver, and the receiver are enclosed within a vault. The communication isolator has a vertically stacked configuration for allowing the communication isolator to be enclosed within the vault. The portable repeater system is configured to be deployed at the same height as the antenna to at least substantially eliminate antenna transmission line signal losses. | 2015-06-11 |
20150162975 | METHOD AND APPARATUS FOR IMPROVED NON-GEOSTATIONARY COMMUNICATIONS - The present disclosure presents a method and an apparatus for communications in a non-geostationary orbit (NGSO) satellite network. For example, the method may include receiving data, at a relay node, from a first NGSO satellite of the NGSO satellite network, wherein the relay node is located at a boundary or a common beam area associated with the first satellite and a second satellite of the NGSO satellite network, and wherein the data is received at the relay node in response to identifying by the first NGSO satellite that an internet point of presence (IPP) is not available in at least one of a plurality of beams associated with the first NGSO satellite, and relaying the data from the relay node to a second NGSO satellite of the NGSO satellite network, wherein an IPP is available in at least one of a plurality of beams associated with the second NGSO satellite. As such, communications in a non-geostationary orbit (NGSO) satellite network may be achieved. | 2015-06-11 |
20150162976 | INTEGRATED CIRCUIT FOR SATELLITE SIGNAL RECEPTION - An integrated circuit for satellite signal reception includes a position calculation part and has a volume of 9.33 mm | 2015-06-11 |
20150162977 | METHOD AND APPARATUS FOR CONTROLLING SATELLITE COMMUNICATION NETWORK, AND METHOD OF COMMUNICATION BY VSAT CENTRAL STATION - A control method of a satellite communication network controller is provided. The satellite communication network controller registers terminals included in a plurality of satellite communication networks. The satellite communication network controller receives first data transmitted by a first terminal from a first central station included in a first satellite communication network. The satellite communication network controller searches from the terminals, a second terminal which is a destination of the first data. The satellite communication network controller determines a second central station to receive the first data by using registered information of the second terminal. The satellite communication network controller transmits the first data to the second central station. The second central station is included in the second satellite communication network. | 2015-06-11 |
20150162978 | Method and Apparatus for Increasing Capacity of Air Interface - The disclosure provides a method and an apparatus for increasing the capacity of an air interface. The method comprises the following steps that: after a traffic channel is established on a base station side, a base station transmitting a ⅛ rate frame to the air interface in a continuous transmission mode if not capturing a traffic channel frame prefix from a terminal, so as to ensure that the terminal can receive a forward frame of the base station; the base station only reducing the transmission of the ⅛ rate frame after capturing the prefix from the terminal; and the terminal keeping calling and does not release the call if continuous good frames are received during the demodulation of forward traffic frame from the base station. Through the disclosure, the interference between forward channels is reduced, and the capacity of the air interface is increased. | 2015-06-11 |
20150162979 | APPARATUS FOR TRANSCEIVING SIGNALS USING A TDD (TIME DIVISION DUPLEX) FRAME STRUCTURE IN A WIRELESS COMMUNICATION SYSTEM AND METHOD THEREOF - A method of transceiving a signal by a base station using a TDD frame structure in a wireless communication system, includes transceiving the signal using a TDD frame in accordance with the TDD frame structure, wherein the TDD frame comprises a static downlink subframe region, a static uplink subframe region and a dynamic region changeable into a downlink subframe or an uplink subframe, wherein the TDD frame is configured in a manner that at least one of the static downlink subframe region, the status uplink subframe region and the dynamic region is assigned to a user equipment in consideration of a location of the user equipment in a cell, and wherein the signal is transceived with the user equipment via at least one region assigned in the TDD frame. | 2015-06-11 |
20150162980 | METHOD AND APPARATUS FOR CONFIGURING AN OPTICAL PATH - An optical path for transmission of data from a source node to a destination node comprises an optical channel for parallel transmission of non overlapping frequency carriers. The frequency separation of the carriers is lower than the baud rate. The optical path is configured by (a) determining a path OSNR (OSNR | 2015-06-11 |
20150162981 | Remote Sensing Device and Monitoring Apparatus - A remote sensor device comprises at least one sensor that produces an output signal indicative of the value of a measure, and a reflective display that is positioned such that it is visible along a line of sight from a remote location, the reflective display comprising at least two retro-reflective assemblies, each of which is arranged to reflect a variable fraction of radiation incident upon the reflective assembly back towards a source in response to respective control signals applied to the reflector assemblies. Each of the reflector assemblies preferentially reflects one wavelength of the incident radiation or preferentially removes at least one wavelength of the incident radiation that is not preferentially reflected or removed by the other reflector assembly. The device further comprises modulating means for modulating the control signals applied to the reflector assemblies as a function of the value of the output signal from the sensor so as to modulate the fractions of incident light reflected by the display. | 2015-06-11 |
20150162982 | FIBER OPTIC ASSEMBLIES FOR TAPPING LIVE OPTICAL FIBERS IN FIBER OPTIC NETWORKS EMPLOYING PARALLEL OPTICS - A fiber optic assembly for supporting optical connections in a fiber optic network employing parallel optical configurations is described. In one embodiment, the fiber optic assembly includes at least two live multi-fiber components and at least one tap multi-fiber component. Optical signals are routed from one live multi-fiber component to another in a parallel optical connection configuration, with each group of optical signals corresponding to a respective group of fiber positions on each live multi-fiber component. Each group of optical signals is also routed to one of the first and second groups of fiber positions of the at least one tap multi-fiber component in a parallel optical connection configuration. In this manner, fiber optic signals can be simultaneously provided and monitored within an active fiber optic network using a parallel optical configuration without the need for interrupting network operations. | 2015-06-11 |
20150162983 | APPARATUS FOR THE OPTICAL TRANSMISSION OF DIGITAL DATA - The invention relates to an apparatus for the optical transmission of digital data having a signal source ( | 2015-06-11 |
20150162984 | OPTICAL SIGNAL PROCESSING APPARATUS AND DECODING METHOD FOR OPTICAL SIGNAL RECEPTION CONTROL DEVICE - The present invention provides an optical signal processing device and a decoding method for an optical signal reception control device. The optical signal processing device includes one of the following: a power control apparatus, where the power control apparatus is configured to control power-on and power-off of a power supply according to an optical signal, or, a clock apparatus, where the clock apparatus is configured to store time of opening and closing a door; or, a charging apparatus, where the charging apparatus is configured to charge an optical signal transmitting apparatus. The present invention can control power-on and power-off of a power supply automatically and save electric energy effectively. | 2015-06-11 |
20150162985 | 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. | 2015-06-11 |
20150162986 | OPTICAL COMMUNICATION SYSTEMS AND METHODS - Systems and methods presented herein provide for optical communications with a remotely located laser. In one embodiment, a communication system includes an optical link and a communication hub comprising the laser optically coupled to a first end of the optical link and operable to transmit light along the optical link. The communication system also includes a communication node comprising an optical modulator optically coupled to a second end of the optical link, wherein the optical modulator is operable to receive a signal, to modulate the light from the laser with the signal, and to propagate the modulated light to the communication hub. | 2015-06-11 |
20150162987 | MULTI-RATE TRANSPARENT MUX FOR OPTICAL COMMUNICATIONS NETWORKS - Bit-transparent muxing of an input signal for transport through an optical communications network. A fixed length container of the optical communications network is defined, which includes an overhead and a payload. A stuffing ratio (α) is based on a line rate of the input signal and a data rate of the container. A number (N | 2015-06-11 |
20150162988 | QUASI-OPTICAL COUPLER - A quasi-optical coupling system launches and extracts surface wave communication transmissions from a wire. At millimeter-wave frequencies, where the wavelength is small compared to the macroscopic size of the equipment, the millimeter-wave transmissions can be transported from one place to another and diverted via lenses and reflectors, much like visible light. Transmitters and receivers can be positioned near telephone and power lines and reflectors placed on or near the cables can reflect transmissions onto or off of the cables. The lenses on the transmitters are focused, and the reflectors positioned such that the reflected transmissions are guided waves on the surface of the cables. The reflectors can be polarization sensitive, where one or more of a set of guided wave modes can be reflected off the wire based on the polarization of the guided wave modes and polarization and orientation of the reflector. | 2015-06-11 |
20150162989 | OPTICAL TRANSMITTER - An optical transmitting unit comprises an integrated optical transmitter module including an LD, a TEC configured to heat or cool the LD, a thermal sensor configured to sense a temperature of the LD, and a package configured to house the LD, the thermal sensor, and the TEC, an MCU, and a temperature detection circuit configured to detect a temperature outside the package. The thermal sensor is thermally coupled with the TEC and is also thermally coupled with the outside of the package, and the MCU defines data output from the temperature detection circuit as an internal temperature when the LD is being energized, and estimates the data of internal temperature on the basis of the temperature detected with the thermal sensor and the data when the LD is not being energized. | 2015-06-11 |
20150162990 | 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. | 2015-06-11 |
20150162991 | RECEIVER FOR COHERENT OPTICAL TRANSPORT SYSTEMS BASED ON ANALOG SIGNAL PROCESSING AND METHOD THEREOF - The present invention discloses a receiver for coherent optical transport systems based on analog signal processing and the method of recovering transmitted data by processing signals in electronic domain. In the present invention, high-speed electrical signals obtained from optical-to-electrical converters which carry transmitted data information in a coherent transport system are jointly processed in analog domain itself without converting these signals to the digital domain using high speed ADCs. Different processing steps which may include carrier phase & frequency offset recovery and compensation, polarization mode dispersion and/or chromatic dispersion, clock & data recovery and deserialization may be performed while keeping the information signals in analog domain itself. | 2015-06-11 |
20150162992 | CIRCUIT ARRANGEMENT AND METHOD FOR RECEIVING DIGITAL OPTICAL SIGNALS - In order to be able to receive any digital optical signals in the bandwidth range from zero bits per second to the high Gbits/second range with as little circuit complexity as possible and to be able to process said signals with the least possible energy requirement for reprocessing, the invention proposes a circuit arrangement as well as a method for receiving digital optical signals by means of at least one light-receiving component connected upstream of at least one signal input port, particularly by means of at least one photodiode, wherein the unipolar current signal coming from the light-receiving component through the signal input port is transformed into a bipolar current signal by means of a compensation current provided by at least one current source, the value of said current being defined by means of at least one digital register. | 2015-06-11 |
20150162993 | Graphene-based Plasmonic Nano-Transceiver employing HEMT for Terahertz Band Communication - A communication element includes a high electron mobility transistor including a gate layer. A graphene layer is disposed on the gate layer. A communication system includes a signal source, a plasmonic transmitter, a first plasmonic antenna, a second plasmonic antenna, a plasmonic receiver and a signal detector. The signal source generates a transmitted signal. The plasmonic transmitter generates a first surface plasmonic polariton wave signal corresponding to the transmitted signal. The first plasmonic antenna generates an electromagnetic signal corresponding to the surface plasmon polariton wave signal. The second plasmonic antenna generates a second surface plasmon polariton wave signal corresponding to the electromagnetic signal. The plasmonic receiver generates a received signal corresponding to the second surface plasmon polariton wave signal. The signal detector detects the received signal. | 2015-06-11 |
20150162994 | PAIRING ELECTRONIC DEVICES USING BODY AREA NETWORK - A wireless device, such as a mobile device, for example, pairs with a peripheral device, such as a wristlet, for example, worn by the user. One or both of the wireless device and the peripheral device, each of which contact the user's skin, determine whether the other is in contact with the body of the same user. If both devices are in contact with the same body, the devices will pair with each other. | 2015-06-11 |
20150162995 | Hearing Assistive System With Low Power Interface - A communications interface provides for communications between a wireless communication device and a hearing assistive device. The communications interface converts a signal, including an audio signal, received from the wireless communication device into a format recognizable by a hearing assistive device. The communications interface generates a communication signal including the audio signal based on the converted signal and transmits the communication signal to the hearing assistive device using a low power radio frequency transmission protocol. The hearing assistive device converts the communication signal received from the communications interface into a usable format, extracts an audible signal from the communication signal, and manipulates the extracted audible signal according to a criterion associated with a user of the hearing assistive device. | 2015-06-11 |
20150162996 | Method and Arrangement for Supporting Calibration of Correlated Antennas - Method and arrangement for supporting calibration of correlated antennas. The method involves determining a timing difference τ between the correlated antennas based on variations in carrier signal strength over frequency in at least one direction from the correlated antennas and providing the determined timing difference τ for use in calibration of the correlated antennas. | 2015-06-11 |
20150162997 | METHODS FOR STREAMING RADIO CONTENT - Streaming radio content includes providing radio content to a stream agent. A playlist is arranged corresponding to the content, which includes optionally modifying portions thereof. The stream agent transmits firstly, multiple streaming radio channels to a server cluster, each of which corresponds to part of the content, based on the arranged playlist and including the optionally modified content. The server cluster transmits secondly, the first-transmitted radio streaming channel to websites and/or mobile applications, which are configured to play it. A DJ may modify the content and arrange the playlist. | 2015-06-11 |
20150162998 | SATELLITE SIGNAL FREQUENCY TRANSLATION AND STACKING - An outdoor satellite receiving unit (ODU) receives several independent satellite signals, selects two signals with a switch matrix, downconverts the two signals to a bandstacked signal with a high and a low band signal, and outputs the bandstacked signal on the same cable to receiver units. Several satellite signals can be selected in groups of two or more and output to independent receiver units. Signal selecting is performed at the received radio frequency (RF) and bandstacking is performed with a single downconversion step to an intermediate frequency (IF). Channel stacking on the same cable of more than two channels from several satellites can be achieved by using frequency agile downconverters and bandpass filters prior to combining at the IF output. A slow transitioning switch minimizes signal disturbances when switching and maintains input impedance at a constant value. | 2015-06-11 |
20150162999 | Systems and Methods for Delivering Contextually Relevant Media Content Stream Based on Listener Preference - The present disclosure provides a system for delivering contextually relevant streaming media content embodied in a mobile device, wherein the media stream includes one or more media content segments content selected from a plurality of media content segments content based on the current location of the mobile device and received listener preferences. | 2015-06-11 |
20150163000 | METHOD AND DEVICES FOR SYNCHRONIZATION USING LINEAR PROGRAMMING - This invention relates to methods and devices for synchronization using linear programming, especially over packet networks using, for example, the IEEE 1588 Precision Time Protocol (PTP). Timing protocol messages are exposed to artifacts in the network such as packet delay variations (PDV) or packet losses. Embodiments of the invention provide a two-dimensional linear programming technique for estimating clock offset and skew, particularly from two-way exchange of timing messages between a master and a slave device. Some embodiments include a skew and offset adjustable free-running counter for regenerating the master time and frequency at the slave device. | 2015-06-11 |
20150163001 | INTERFACE CIRCUIT FOR TRANSMITTING AND RECEIVING DIGITAL SIGNALS BETWEEN DEVICES - A video signal and an audio signal are TMDS transmitted from a source device to a sink device. Through a reserved line and a HPD line provided separately from a TMDS transmission line, an Ethernet™ signal is bidirectionally transmitted, and also, a SPDIF signal is transmitted from the sink device to the source device. The Ethernet™ signal bidirectionally transmitted between Ethernet™ transmitter/receiver circuits is differentially transmitted by an amplifier and is received by the amplifier. The SPDIF signal from a SPDIF transmitter circuit is common-mode transmitted from an adder and is received by the adder to be supplied to the SPDIF receiver circuit. | 2015-06-11 |
20150163002 | Wireless Fire System with Idle Mode and Gateway Redundancy - A method and apparatus that includes the steps of providing a plurality of wireless nodes including at least one parent node and at least one child node, a control panel sending instructions to and receiving data from the plurality of nodes through a primary gateway and a wireless subsystem of the gateway, the primary gateway synchronizing the plurality of nodes by periodically transmitting a synchronization signal and one of the plurality of nodes detecting failure of the gateway and transmitting an idle synchronization signal for so long as the one of the plurality of nodes detects failure of the gateway. | 2015-06-11 |
20150163003 | COMMUNICATION APPARATUS, COMMUNICATION SYSTEM, COMMUNICATION CONTROLLING METHOD, AND PROGRAM - Techniques for synchronizing a clock of a first apparatus and a clock of a second apparatus in communication with the first apparatus via a network. The techniques include communicating first data between the first apparatus and second apparatus via a network, communicating, while at least a portion of the first data is being communicated via the network, a synchronization packet between the first apparatus and the second apparatus, and communicating second data between the first apparatus and the second apparatus after synchronization between the first apparatus and the second apparatus has been established. | 2015-06-11 |
20150163004 | MULTIPLE CO-LOCATED MULTI-USER-MIMO ACCESS POINTS - A wireless communication system may include a plurality of N co-located Wi-Fi access points, each configured to communicate with at least one user equipment. The system may further include a beamformer coupled to each of the access points and coupled to at least one antenna array. The antenna array may include a plurality of antenna elements and may be configured to provide a plurality of M spatially uncorrelated beams for a coverage area of each of the N access points. | 2015-06-11 |
20150163005 | METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING CONTROL INFORMATION TO RANDOMIZE INTER-CELL INTERFERENCE IN A MOBILE COMMUNICATION SYSTEM - Methods and apparatuses are provided for transmitting and receiving information. A User Equipment (UE) obtains a sequence based on a Zadoff-Chu sequence and e | 2015-06-11 |
20150163006 | METHOD AND APPARATUS FOR TRANSMITTING AND RECEIVING CONTROL INFORMATION TO RANDOMIZE INTER-CELL INTERFERENCE IN A MOBILE COMMUNICATION SYSTEM - Methods and apparatuses are provided for transmitting and receiving information. A User Equipment (UE) receives information related to a cyclic shift value α transmitted from a Node B. The UE obtains a reference sequence based on a Zadoff-Chu sequence and e | 2015-06-11 |
20150163007 | METHOD FOR DETERMINING IMPULSIVE INTERFERENCE APPLICABLE TO ORTHOGONAL FREQUENCY DIVISION MULTIPLE ACCESS SIGNAL RECEIVER AND RECEIVER THEREOF - A method for determining impulsive interference applicable to an orthogonal frequency division multiple access (OFDMA) signal receiver is provided. The receiving method includes calculating a subcarrier noise of a first symbol, calculating a subcarrier noise of a second symbol, calculating a first ratio of the subcarrier noise of the first symbol to the subcarrier noise of the second symbol, determining whether the ratio is greater than a first threshold, and recognizing that the first symbol suffers from impulsive interference when the first ratio is greater than the first threshold. | 2015-06-11 |
20150163008 | METHOD AND APPARATUS FOR CELL DISCOVERY - A terminal measures quality of a radio link by using at least one first orthogonal frequency division multiplexing (OFDM) symbol among OFDM symbols excluding an OFDM symbol including a channel state information (CSI)-reference signal (RS). | 2015-06-11 |
20150163009 | Channel establishment method and device - A channel establishment method and device are provided. The method includes: establishing a media channel between a first node and a second node; establishing a signal channel between a third node and a fourth node after the media channel is established, the signal channel passes a frequency slot matrix of one or more intermediate nodes between the third node and the fourth node and a traffic engineering link between any two nodes; and allocating frequency spectrum to the signal channel from available frequency spectrum of the traffic engineering link, wherein the frequency spectrum allocated includes multiple split 50 GHz frequency spectrums which bear one optical channel and each of which only includes single optical carrier. The solution addresses the problem of how to effectively plan and manage frequency spectrum for an introduced flexible grid technology, improves waveband spectrum efficiency and achieves the compatibility to 50 GHz transmission technology of existing DWDM systems. | 2015-06-11 |
20150163010 | BURST SIGNAL RECEIVING APPARATUS AND METHOD, PON OPTICAL LINE TERMINAL, AND PON SYSTEM - The present invention relates to a receiving apparatus | 2015-06-11 |
20150163011 | TIME/WAVELENGTH-DIVISION MULTIPLEXED PASSIVE OPTICAL NETWORK (TWPON) - The present invention discloses a time/wavelength-division multiplexed passive optical network (TWPON), which has an optical splitter ( | 2015-06-11 |
20150163012 | Signal Detection in the Presence of a Jamming Signal - A signal is detected and an unwanted jamming signal is removed from the detected signal. Respective first, second and third correlations between a received signal and signals at first, second and third frequencies are determined over a plurality of taps. The second frequency is higher than the first frequency and lower than the third frequency, and is equally spaced from the first and third frequencies. The second frequency is adapted to a frequency of the received signal such that peaks in the first and third correlations after corresponding adaptation of the first and third frequencies have substantially equal magnitudes. A difference is determined between non-peak magnitudes of the first and third correlations; and at least one of the correlations is compensated for the effects of the jamming signal, based on said difference. | 2015-06-11 |
20150163013 | METHOD AND APPARATUS OF TRANSMITTING PILOT SIGNAL FOR FREQUENCY SHARED BROADCASTING - Disclosed is a method of transmitting, by a transmission device, broadcast signals in a frequency-shared terrestrial broadcast system. The method includes generating the broadcast signals including pilot signals arranged at a physical layer frame based on a group identification (ID) defined according to a broadcast service, and transmitting the generated broadcast signals to a reception device, wherein the positions of the pilot signals arranged at the physical layer frame are different by group IDs. | 2015-06-11 |
20150163014 | LANE ERROR DETECTION AND LANE REMOVAL MECHANISM TO REDUCE THE PROBABILITY OF DATA CORRUPTION - Method, apparatus, and systems for detecting lane errors and removing errant lanes in multi-lane links. Data comprising link packets is split into a plurality of bitstreams and transmitted over respective lanes of a multi-lane link in parallel. The bitstream data is received at multiple receive lanes of a receiver port and processed to reassemble link packets and to calculate a CRC over the data received on each lane. The link packets include a transmitted CRC that is compared to a received CRC to detect link packet errors. Upon detection of a link packet error, per-lane or per transfer group CRC values are stored, and a retry request is issued to retransmit the bad packet. In conjunction with receipt of the retransmitted packet, per-lane or per transfer group CRC values are recalculated over the received data and compared with the stored per-lane or per transfer group CRC values to detect the lane causing the link packet error. | 2015-06-11 |
20150163015 | SIGNAL COMPENSATION IN HIGH-SPEED COMMUNICATION - A receptor of wireless signal in a wireless communication system can be configured to correct for degradations of signal quality. The reception apparatus can include a filter which is configured to create a filtered signal by make corrections to a reception signal which carries a symbol. Based on the created filtered signal, a symbol can be decided and weighted to evaluate the error of the original reception signal. Using the weighting information, a parameter of the filter can be updated to more accurately correct the reception signal. | 2015-06-11 |
20150163016 | ADDITIONAL ERROR PROTECTION FOR WIRELESS TRANSMISSION - Certain aspects of the present disclosure provide methods and apparatus for enhancing error protection for wireless transmissions. | 2015-06-11 |
20150163017 | METHOD AND APPARATUS FOR SPACE DIVISION MULTIPLE ACCESS RECEIVER - Methods and systems consistent with this invention receive a plurality of transmitted signals in a receiver having a plurality of receive elements, wherein each transmitted signal has a different spatial location. Such methods and systems receive the plurality of transmitted signals at the plurality of receive elements to form a plurality of receive element signals, form a combined signal derived from the plurality of receive element signals, and detect each of the plurality of transmitted signals from the combined signal by its different spatial location. To achieve this, methods and systems consistent with this invention generate a plurality of arbitrary phase modulation signals, and phase modulate each of the plurality of receive element signals with a different one of the phase modulation signals to form a plurality of phase modulated signals. Such methods and systems then combine the plurality of phase modulated signals into a combined signal, generate expected signals, and cross-correlate the combined signal with the expected signals to form correlation signals. Such methods and systems then store the correlation signals in a correlation signal memory and analyze the correlation signals to extract information from the transmitted signals. | 2015-06-11 |
20150163018 | METHOD AND APPARATUS FOR BROADCASTING WITH SPATIALLY DIVERSE SIGNALS - A transmitter broadcasts a signal having a different code characteristic for each of several directions. A receiver receives the broadcast signal from one of the directions and generates an expected signal for that direction based on the code characteristic for that direction. The receiver detects the broadcast signal from the direction based on the expected signal for that direction. | 2015-06-11 |
20150163019 | EFFICIENT LINK LAYER RETRY PROTOCOL UTILIZING IMPLICIT ACKNOWLEDGEMENTS - Methods, apparatus, and systems for implementing a link layer retry protocol utilizing implicit ACKnowledgements (ACKs). Peer link interfaces are configured to facilitate confirmed error-free delivery of link-layer packets through use of implicit ACKs, while also providing retransmission of packets for which errors are detected and guaranteeing the link control data is either successfully received or data transfer over the link is prevented. In conjunction with transmitting packets, reliable packets are copied into sequential slots in a replay buffer. Each link interface tracks the slot at which each reliable packet is buffered, and in response to detection of an error, a retry request is sent to the transmit-side to retransmit the errant packet. The previously buffered copy of the errant packet is retrieved from the replay buffer and retransmitted. Through use of a link roundtrip detection mechanism, absence of a retry request by the time a replay buffer has returned to the slot of a reliable packet (plus a predetermined number of additional transfer cycles, if applicable) provides an implicit ACK that the packet was received without error. | 2015-06-11 |
20150163020 | Method And Arrangement For Retransmission Using HARQ - The present invention relates to a method and device for enhancing coverage of a power-limited mobile terminal by sending information relating to a single Hybrid Automatic Repeat Request (HARQ) process from the mobile terminal to a base station using several transmission time intervals. | 2015-06-11 |
20150163021 | RELAY NODE AND METHOD FOR RELAY NODE OPERATION WITH IMPROVED DATA THROUGHPUT FOR CELL-EDGE USERS - A combination of repeaters and relays is used to improve the data throughput for user equipment (“UE”) near the cell edge in a LTE network. Amplify-and-forward repeaters and decode-and-forward relays enhance the down-link and up-link, respectively. Relay assistance on the up-link occurs when the evolved Node B (“eNB”) requests a retransmission (HARQ) from the UE at which point the UE and relay transmit simultaneously in a cooperative fashion. The quality of the up-link signal received by the eNB is improved due to a favorable channel through the relay. An analysis shows that relay assistance improves the throughput for a cell-edge user when the average delay per data transport block is allowed to increase. | 2015-06-11 |
20150163022 | Method and Network Node for Allocating Resources of an Uplink Subframe - It is presented a method of allocating resources of a first uplink subframe being part of a radio frame, each resource being a combination of a frequency range, and a time slot and a code. The method is performed in a network node and comprises: determining a first set of resources allocated for Hybrid Automatic Repeat Request, HARQ, feedback in the first uplink subframe; determining a second set of resources allocated for HARQ feedback in a second uplink subframe being part of the radio frame; identifying free resources in the first uplink subframe by identifying resources of the second set of resources which have no correspondence in the first set of resources; and allocating when a free resource is found, at least part of the free resources to a use other than HARQ feedback. A corresponding network node is also presented. | 2015-06-11 |
20150163023 | RADIO FREQUENCY COMMUNICATION - A method of characterising a radio frequency traffic channel comprising a transmitter and a receiver is disclosed. The method comprises:
| 2015-06-11 |
20150163024 | TIMES-SLICED DESIGN SEGMENTATION - Systems and methods for multi-channel signal processing by a series of single processing core logic circuitries in time-slicing. A first logic circuitry is configured to process multiple data streams from multiple channels in a first cycle-based time-sliced schedule. A time slice in the first cycle-based time-sliced schedule comprises a predetermined number of clock cycles allocated to a corresponding data stream. A second logic circuitry is coupled to the first logic circuitry and configured to process the data streams in a first fragment-based time-sliced schedule. A time slice in the first fragment-based time-sliced schedule is determined based on a predetermined boundary associated with the data fragment and is allocated to process a data fragment of the data streams. | 2015-06-11 |
20150163025 | METHOD AND APPARATUS FOR INFORMATION TRANSMISSION IN A RADIO COMMUNICATION SYSTEM - A method of transmitting, by a transmitter, information in a wireless communication system, the method includes generating first and second symbols; generating first and second transmit vectors on the basis of an Alamouti code from the first and second symbols; and transmitting the first transmit vector through a first antenna and transmitting the second transmit vector through a second antenna. The first transmit vector consists of a first transmit symbol and a second transmit symbol. The second transmit vector consists of a third transmit symbol and a fourth transmit symbol. The first, second, third, and fourth transmit symbols are transmitted based on first and second resource indexes. The first symbol is a first modulation symbol for first information, and the second symbol is a second modulation symbol for second information. | 2015-06-11 |
20150163026 | Cooperative Communication Method and System, Access Network Device, and User Equipment - Embodiments of the present invention provide a cooperative communication method and system, an access network device, and a user equipment. The method includes, when a access network device receives downlink data belonging to a first user equipment UE, if it is determined that a supporting UE in a support list of the first UE cannot serve as a current supporting UE of the downlink data, establishing a cooperative communication relationship between a second UE and the first UE, that is, setting the second UE as the current supporting UE of the first UE. The second UE is another UE except the first UE and the supporting UE in the support list of the first UE. The downlink data is sent to the second UE, so that the second UE sends the downlink data to the first UE. | 2015-06-11 |
20150163027 | METHOD AND APPARATUS FOR PROVIDING COMMUNICATION SERVICE TO MOBILE STATION BY MULTIPLE BASE STATIONS IN COOPERATION IN WIRELESS COMMUNICATION SYSTEM - A method and an apparatus for providing a service to a Mobile Station (MS) by a plurality of Base Stations (BSs) operating in cooperation in a wireless communication system are provided. The method includes configuring, by a master BS, a first cooperative cell including at least one slave BS, sending a resource request message for requesting resource allocation to the at least one slave BS included in the first cooperative cell, receiving, from each of the at least one slave BS, a resource request response message including resource approval control results for the resource allocation request, changing member BSs constituting the first cooperative cell based on the resource request response message, and allocating resources to an MS that is served in the first cooperative cell. | 2015-06-11 |
20150163028 | METHODS AND APPARATUS FOR WIRELESS COMMUNICATION UTILIZING EFFICIENT SIGNAL FIELD DESIGN IN HIGH EFFICIENCY WIRELESS PACKETS - In one aspect, a method of high efficiency wireless (HEW) communication comprises generating a packet comprising one of a first value, a second value, a third value and a fourth value in a packet type field, the first value indicating a single-user multiple-input multiple-output (SU-MIMO) packet, the second value indicating a multiple-user multiple-input multiple-output (MU-MIMO) packet, the third value indicating an orthogonal frequency division multiple access (OFDMA) packet, and the fourth value indicating a multi-portion packet comprising at least a first MU-MIMO or OFDMA portion and a second MU-MIMO or OFDMA portion. The method further comprises allocating a plurality of bits of a first portion of the packet to each of a plurality of subsequent fields based at least in part on the value in the packet type field, wherein a second portion of the packet is the same for all of the first, second, third and fourth values. | 2015-06-11 |
20150163029 | METHOD OF DEMODULATING MODULATION SIGNALS - A method of demodulating a plurality of multiplexed modulation signals is provided, including: i) inputting the plurality of multiplexed modulation signals, each of which being outputted from a plurality of outputs of a communication partner, wherein each modulation signal in the multiplexed modulation signals includes a pilot symbol sequence consisting of a plurality of pilot symbols used for demodulation, ii) estimating respective channels of the multiplexed modulation signals based on one or more of the pilot symbol sequences; and iii) demodulating said each modulation signal in the plurality of multiplexed modulation signals based on the channel estimation. Each of the pilot symbol sequences is inserted at a same temporal point in said each modulation signal among the multiplexed modulation signals. The pilot symbol sequences are orthogonal to each other with zero cross correlation among the modulation signals in the multiplexed modulation signals, and each pilot symbol has a non-zero amplitude. | 2015-06-11 |
20150163030 | APPLICATION OF SEQUENCE HOPPING AND ORTHOGONAL COVERING CODES TO UPLINK REFERENCE SIGNALS - Methods and apparatuses are provided for transmitting and receiving references signals. A method includes receiving a first parameter and a second parameter, which are cell specific parameters; receiving a third parameter, which is a UE specific parameter; receiving a cyclic shift indicator (CSI) indicating a cyclic shift for a sequence and an orthogonal covering code; acquiring the reference signal for a physical uplink shared channel (PUSCH), based on the third parameter and the CSI; and transmitting the reference signal on the PUSCH. Sequence hopping and group sequence hopping are disabled for the reference signal, regardless of values of the first parameter and the second parameter, if the third parameter indicates that the sequence hopping and the group sequence hopping are disabled. The sequence hopping includes hopping between two sequences in a group, and the group sequence hopping includes hopping among different groups. | 2015-06-11 |
20150163031 | METHOD AND APPARATUS FOR TRANSMITTING SRS IN LTE TDD SYSTEM - A method and apparatus are provided for transmitting and receiving an uplink Sounding Reference Signal (SRS). The method includes determining a number of single-carrier frequency division multiple access (SC-FDMA) symbols in an uplink pilot time slot (UpPTS); receiving index information for a sounding reference signal (SRS); determining an SRS offset, based on the index information; and transmitting the SRS, based on the SRS offset. If the index information includes an integer from 0 to 9, if the UpPTS includes two SC-FDMA symbols, a first symbol is indicated by SRS offset 0 and a second symbol is indicated by SRS offset 1, and if UpPTS includes one SC-FDMA symbol, the first symbol is indicated by the SRS offset 1. If the index information includes the integer from 0 to 9, the SRS offset indicated by the index information is based on: | 2015-06-11 |
20150163032 | METHOD AND APPARATUS FOR TRANSMITTING SRS IN LTE TDD SYSTEM - A method and apparatus are provided for transmitting and receiving an uplink Sounding Reference Signal (SRS). The method includes receiving index information for an SRS; determining an SRS offset and an SRS period, based on the index information; and transmitting the SRS, based on the SRS offset and the SRS period. If the index information includes an integer from 10 to 644, the SRS period is selected among 5 ms, 10 ms, 20 ms, 40 ms, 80 ms, 160 ms, and 320 ms. If the index information includes an integer from 0 to 9, the SRS is transmitted twice in a period of 5 ms, and the SRS offset indicated by the index information is based on: | 2015-06-11 |
20150163033 | METHOD AND APPARATUS FOR TRANSMITTING SRS IN LTE TDD SYSTEM - A method and apparatus are provided for transmitting and receiving an SRS. The method includes determining a number of SC-FDMA symbols in an UpPTS; receiving index information for an SRS; determining an SRS offset and an SRS period, based on the index information; and transmitting the SRS, based on the SRS offset and the SRS period. If the index information includes an integer from 0 to 9, the SRS is transmitted twice in a period of 5 ms, and if the UpPTS includes two SC-FDMA symbols, a first symbol is indicated by SRS offset 0 and a second symbol is indicated by SRS offset 1, but if the UpPTS includes one SC-FDMA symbol, the first symbol is indicated by the SRS offset 1. If the index information includes an integer from 10 to 644, the SRS period is selected among 5 ms, 10 ms, 20 ms, 40 ms, 80 ms, 160 ms, and 320 ms. | 2015-06-11 |
20150163034 | METHOD AND APPARATUS FOR TRANSMITTING SRS IN LTE TDD SYSTEM - A method and apparatus are provided for transmitting and receiving an SRS. The method includes determining a number of single-carrier frequency division multiple access (SC-FDMA) symbols in an uplink pilot time slot (UpPTS); receiving index information for an SRS; determining an SRS offset, based on the index information; and transmitting the SRS, based on the SRS offset. If the index information includes an integer from 0 to 9, if the UpPTS includes two SC-FDMA symbols, a first symbol is indicated by SRS offset 0 and a second symbol is indicated by SRS offset 1, if the UpPTS includes one SC-FDMA symbol, the first symbol is indicated by the SRS offset 1. If the index information includes the integer from 0 to 9, the SRS is transmitted twice in a period of 5 ms and the SRS offset indicated by the index information is based on an offset index table. | 2015-06-11 |
20150163035 | METHOD AND APPARATUS FOR TRANSMITTING SRS IN LTE TDD SYSTEM - A method and apparatus are provided for transmitting and receiving an SRS. The method includes determining a number of SC-FDMA symbols in an UpPTS; receiving index information for an SRS; determining an SRS offset and an SRS period, based on the index information; and transmitting the SRS, based on the SRS offset and the SRS period. If the index information includes an integer from 10 to 644, the SRS period is selected among 5 ms to 320 ms. If the index information includes an integer from 0 to 9, the SRS is transmitted twice, the SRS offset is based on an offset index table, and if the UpPTS includes two SC-FDMA symbols, a first symbol is indicated by SRS offset 0 and a second symbol is indicated by SRS offset 1, if the UpPTS includes one SC-FDMA symbol, the first symbol is indicated by the SRS offset 1. | 2015-06-11 |
20150163036 | High Resolution Channel Sounding for FDD Communications - A method includes scheduling a selected UE operating in a FDD mode to transmit sounding information on a downlink carrier frequency using selected resource(s) from a downlink radio frame, and communicating using the downlink radio frame by transmitting to UEs in resources other than at least the selected resource(s) and by receiving the sounding information on the downlink carrier frequency from the selected UE in the selected resource(s). Another method includes scheduling a selected UE operating in a FDD mode to receive sounding information on an uplink carrier frequency using selected resource(s) from an uplink radio frame, and communicating using the uplink radio frame by receiving from UEs in resources in the uplink radio frame other than at least the selected resource(s) and by transmitting the sounding information on the uplink carrier frequency to the selected UE in the selected resource(s). Apparatus and computer program products are also disclosed. | 2015-06-11 |
20150163037 | METHOD FOR DEVICE-TO-DEVICE COMMUNICATION IN WIRELESS COMMUNICATION SYSTEM, AND APPARATUS THEREFOR - Disclosed is a method for a device, communicating device-to-device, for receiving a signal in a wireless communication system. Specifically, the method comprises the steps of: receiving, from another device, a signal via device-to-device communication during a first sub-frame; and receiving, from a base station, a signal during a second sub-frame, wherein the signal is received via device-to-device communication when the first sub-frame and the second sub-frame overlap. | 2015-06-11 |
20150163038 | COMMUNICATION METHOD USING A CARRIER AGGREGATION AND APPARATUS THEREFORE - A method for a base station to receive an uplink transmission from a user equipment configured with multiple uplink component carriers in a wireless communications system. The method according to one embodiment includes transmitting, to the user equipment, Radio Resource Control (RRC) configuration information for a Sounding Reference Signal (SRS), the RRC configuration information including information for periodically receiving the SRS from the user equipment; transmitting, to the user equipment, Layer 2 (L2) control information indicating states of the plurality of uplink component carriers; and performing a procedure for periodically receiving the SRS from the user equipment on a corresponding uplink component carrier in use of the RRC configuration information. According to whether the corresponding uplink component carrier is in an available state or a non-available state at a time for receiving the SRS, the SRS or no SRS is received from the user equipment, respectively. | 2015-06-11 |
20150163039 | CHANNEL QUALITY INFORMATION FEEDBACK TECHNIQUES - Various embodiments are generally directed to improved channel quality information feedback techniques. In one embodiment, for example, an evolved node B (eNB) may comprise a processor circuit, a communication component for execution by the processor circuit to receive a channel quality index for a physical downlink shared channel (PDSCH), the channel quality index associated with a defined reference resource, and a selection component for execution by the processor circuit to select a modulation and coding scheme (MCS) for transmission over the PDSCH of user equipment (UE) data in one or more resource blocks, the selection component to compensate for a difference between a cell-specific reference signal (CRS) overhead of the defined reference resource and a CRS overhead of the one or more resource blocks when selecting the MCS. Other embodiments are described and claimed. | 2015-06-11 |
20150163040 | COMMUNICATION DEVICE AND COMMUNICATION METHOD - In MIMO communication, a communication device is provided that transmits a transfer rate request signal while reducing it and reducing the interference and power consumption when the transfer rate request signal is transmitted substantially without lowering the transmission efficiency. A modulation encoding unit encodes and modulates transmission data transmitted to a communication partner and the transfer rate request signal is the plurality of transmission antennas. A transmission unit and a transmission antenna transmit a signal from the modulation encoding unit. A transmission control unit controls transmission of a signal transmitted from the transmission antenna and transmits a transfer rate request signal of one transmission antenna via the transmission antenna according to a comparison result between a difference of the transfer rate request signal in the respective transmission antenna of the communication partner and a predetermined value. | 2015-06-11 |
20150163041 | RESTRICTIONS ON TRANSMISSIONS OF CONTROL PLANE DATA WITH CARRIER AGGREGATION - The disclosure describes apparatus and methods for communicating control plane data with a mobile device in a Long Term Evolution (LTE) network employing carrier aggregation. A network apparatus, such as an enhanced NodeB (eNodeB) or a mobility management entity (MME), can be configured to evaluate a measurement report (MR) received from a mobile device for one or more radio frequency (RF) conditions associated with a primary network cell and one or more RF conditions associated with a secondary network cell. Then, based on the evaluation, the network apparatus can determine to communicate the control plane data with the mobile device via the primary network cell, the secondary network cell, or both. The control plane data can correspond to non-access stratum (NAS) information, radio resource control (RRC) information, or a hybrid automatic repeat request (HARQ) retransmission of previously transmitted control plane data. | 2015-06-11 |
20150163042 | COMMUNICATION CONTROL APPARATUS, COMMUNICATION CONTROL METHOD, AND PROGRAM - There is provided a communication control apparatus including an acquisition section configured to acquire first information related to communication quality of a wireless channel through which target data to be distributed to a terminal apparatus is transmitted to the terminal apparatus, and second information related to data among the target data, the data being accumulated in the terminal apparatus, and a control section configured to perform control over transmission of the target data to the terminal apparatus on the basis of the first information and the second information. | 2015-06-11 |
20150163043 | METHOD AND APPARATUS FOR ALLOCATING CHANNEL IN WIRELESS LOCAL AREA NETWORK - A method and apparatus for allocating a channel in a wireless local area network (WLAN) is disclosed. The method includes receiving a first frame including scheduling information with respect to a first interval from a second access point, generating a second frame including resource related information required for transmission and reception during a second interval which is continuous to the first interval, and transmitting the second frame to the second access point. Accordingly, performance of the WLAN can be improved. | 2015-06-11 |
20150163044 | Enhancing Isolation and Impedance Matching in Hybrid-Based Cancellation Networks and Duplexers - Multi-port hybrid-based cancellation networks may be used to enable simultaneous transmit and receive in one or more co-existent communication systems. A multi-port hybrid-based cancellation network may include a first and second quadrature hybrid, a first and second two-port network, and other circuitry components. The second quadrature hybrid may be distinct from the first quadrature hybrid. The first two-port network may include a first filter or a first amplifier connected between the first and the second quadrature hybrids. The second two-port network may include a second filter or a second amplifier that is distinct from but essentially the same as the first filter or the first amplifier connected between the first and the second quadrature hybrids. The other circuitry components may be connected between or connected to a connection between one of the quadrature hybrids and one of the two-port networks. These other circuitry components may have a configuration that minimizes signal return loss at least one of the ports of the multi-port hybrid-based cancellation network. They may in addition or instead have a configuration that maximizes signal isolation between at least two of the ports of the multi-port hybrid-based cancellation network. | 2015-06-11 |
20150163045 | ADAPTIVE PAUSE TIME ENERGY EFFICIENT ETHERNET PHY - An energy efficient Ethernet physical layer (PHY) device including an EEE control module configured to generate a control signal to transition the PHY device into a low power consumption mode based an operating condition, and a pause frame generator module responsive to the control signals to generate a pause frame. The pause frame generator module is configured to send the pause frame to a media access control (MAC) device to reduce an incoming flow of data packets from the MAC device to the PHY device for a pause time duration. In operation, the pause frame generator module generates the pause frame including a pause time indicating the length of time for the PHY device to be in the low power consumption mode. The value of the pause time for each pause frame is determined adaptively based on the type of data traffic to be transmitted from the PHY device. | 2015-06-11 |
20150163046 | CLOCK FOR SERIAL COMMUNICATION DEVICE - Versatility and flexibility of integrated circuits can be accomplished by remote control via a serial interface, such as SPI. Read/write accesses to the SPI slave node can be achieved according to SPI protocol by the master node. Additionally, a state machine associated to the slave node SPI needs a local clock to exercise the control of the analog functions following a write access. The serial protocol defines a serial data word transfer to comprise a number of reserved clock cycles that are not assigned for communicating a data bit value of the data word. The slave device comprises a clock unit coupled to the serial clock line for providing a derived clock based on reserved clock cycles. The derived clock is used internally in the slave device to perform internal synchronous operations. | 2015-06-11 |
20150163047 | HTTP-BASED SYNCHRONIZATION METHOD AND APPARATUS - An HTTP-based synchronization method includes obtaining a first response sent by a source server or a cache in response to an HTTP request for obtaining a file; determining a time when the first response is sent in local time at the source server, according to a value of a Date field and a value of an Age field in the first response; determining a time when the first response is sent in local time at a client, according to the client time of an event related to the first response; and determining a time offset between the source server time and the client time according to: the time when the first response is sent in local time at the source server and the time when the first response is sent in local time at the client, and setting up a synchronization relationship between the client time and the source server time. | 2015-06-11 |
20150163048 | METHOD AND APPARATUS FOR MITIGATION OF PACKET DELAY VARIATION - An apparatus for mitigation of packet delay variation, PDV, in a packet-based network, comprising an ingress port to receive event messages, each message being timestamped with a local ingress timestamp at the instant of reception of the message using a local internal clock; an extraction unit to extract a timestamp embedded in the received message; a computation unit to calculate a time offset between the extracted embedded timestamp and the local ingress timestamp of the received event message to record the calculated time offset as a maximum observed delay, if the calculated time offset exceeds a previously recorded maximum observed delay, the computation unit adjusting an internal transmission delay time before onward transmission of the event message from an egress port depending on a time difference between recorded maximum observed delay and calculated time offset of the event message to minimize the packet delay variation, PDV, at the egress port. | 2015-06-11 |
20150163049 | TIME DOMAINS IN A PON - An Optical Line Termination (OLT) is connected to an Optical Network Unit (ONU) over an Optical Distribution Network (ODN), wherein the OLT transmits multiple time domains to the ONU over the ODN for synchronizing client equipment connected to the ONU with different time domains. The multiple time domains are transported in one or more OMCI messages, and each OMCI message comprises a single Managed Entity. | 2015-06-11 |
20150163050 | CLOCK RECOVERY CIRCUIT, DATA RECEIVING DEVICE, AND DATA SENDING AND RECEIVING SYSTEM - A clock recovery circuit for recovering a clock signal from a clock-embedded data signal, a data receiving device for recovering a clock signal and a data signal from a clock-embedded data signal, and a data transmitting and receiving system for improving the protocol of a clock-embedded data signal. The data transmitting and receiving system includes a data transmitting device configured to transmit a clock-embedded data signal in which an embedded clock signal is embedded in a data signal; and a data receiving device configured to recover a clock signal corresponding to the embedded clock signal from the clock-embedded data signal. | 2015-06-11 |