Abstract: A user equipment in wireless communication system is provided. The user equipment includes an antenna unit including a plurality of antennas, a control unit for grouping the plurality of antennas into a predetermined number of antenna groups and controlling separately transmission power of each of the predetermined number of antenna groups, and a transmitting unit, connected to the control unit, for transmitting at least one of data and control information to a base station via at least one of the predetermined number of antenna groups.

Abstract: Techniques are provided for use with implantable medical devices or trial medical devices for wirelessly connecting the devices to external instruments such as tablet computers or smartphones. In an example where the medical device is an implantable neurostimulator, the neurostimulator passively detects wireless wake-up signals generated by the external instrument, i.e. the neurostimulator “sniffs” for advertisement signals generated by the external instrument. In response to passive detection of a wake-up signal, the implantable neurostimulator determines if a response is warranted and, if so, the neurostimulator activates its wireless transmission components to transmit an acknowledgement signal to the external instrument so as to complete a wake-up and handshake protocol.

Abstract: A method of self-test for a near-field communication (NFC) radio frequency (RF) front-end unit comprising one antenna driver and at least one unit from a group comprising one reader and one card emulator, the RF front-end unit being connected to a digital front-end unit, wherein the antenna driver and the unit are interconnected through a first connection line via their respective first input-output interface and are also interconnected through a second connection line via their respective second input-output interface, the digital front-end unit being connected to the second connection line, the method comprising: activating the antenna driver and the unit based on control signals; —generating a first signal onto the first connection line by modulating a respective first bitstream; —retrieving a second bitstream from the second connection line, by demodulating the first signal; and, —determining an outcome of the self-test by monitoring the demodulated signal.

Abstract: A method and apparatus for exchanging information between a source and an aircraft. In response to a request to exchange the information between the aircraft and the source, a number of aircraft is identified to send microwave signals between the source and the aircraft to form a number of identified aircraft based on a location of the aircraft and a location of the source. The number of identified aircraft is configured to send the microwave signals between the source and the aircraft to form a number of configured aircraft. The number of configured aircraft forms a mobile network. The microwave signals are sent between the source and the aircraft using the number of configured aircraft. The information is exchanged between the aircraft and the source using the microwave signals sent through the mobile network.

Abstract: A mobile communication device that includes: a storage unit configured to store therein image data; an address book storage unit configured to store therein communication party information associated with the image data; and an output control unit configured to display, when a sent mail that is transmitted by the mobile communication device is selected by selection of transmission destination information that corresponds to the sent mail, image data together with the transmission destination information, wherein the transmission destination information comprises communication party information pertaining to the sent mail, the image data being associated with the transmission destination information such that the image data is displayed together with the transmission destination information upon selection of the transmission destination information, and wherein the image data was previously stored in the storage unit and not attached to the sent mail when it was sent.

Abstract: Shared filters may be used for both transmit and receive paths. In an exemplary design, an apparatus (e.g., a wireless device, an integrated circuit, or a circuit module) may include a filter and a switch. The filter operates as a transmit (TX) filter for a first band and as a receive (RX) filter for a second band. The filter may receive and filter an output radio frequency (RF) signal when operating as the TX filter and may receive and filter a received RF signal when operating as the RX filter. The switch is coupled to the filter and receives and passes the output RF signal to the filter or an input RF signal from the filter. The apparatus may further include a second filter operable as a TX filter for multiple bands and/or a third filter operable as an RX filter for multiple bands.

Abstract: An NFC-enabled device including tag emulation circuitry and reader emulation circuitry operates so as to provide a signal strength meter function. The signal strength meter function, in tag emulation mode, measures and reports on how well the tag is coupled to a third party reader field. In reader emulation mode, the signal strength meter function measures and reports how well the reader of the NFC-enabled device couples to a tag that is being read. One exemplary method includes detecting an NFC reader field, operating reader receiver circuitry at the NFC-enabled device so as to at least determine the strength of a signal received from the reader field, generating information representative of the determined strength of the signal received from the reader field at a first time, and performing one or more predetermined actions based at least in part on the one or more signals representative of the determined strength.

Abstract: An adaptive scheme for interference removal in compressive signal detection and reconstruction in real time. When an input signal is composed of a mixture of multiple signals, the signals are detected sequentially according to the signal strength in an iterative way. After one signal is detected, a set of resources is allocated to isolate and process that signal. The isolated signal is removed from the input as interference. The detector proceeds to process the cleaner input and detect another signal, which is also removed. The process continues until all signals are removed. The individual signals which are removed may be subjected to signal processing for analysis purposes.

Abstract: Systems, methods, and computer-readable media, for facilitating identification of antenna ports. In some embodiments, the method includes receiving a test signal transmitted through a physical path to an antenna port. Upon receiving a test signal, a response can be provided that includes an indication of the antenna port that received the test signal. Such a response signal can be provided in any number of manners.

Abstract: An amplifier circuit that amplifies a carrier wave that a transmitting and receiving part has received, and includes a superimposition wave generation part that generates a superimposition wave to be superimposed onto the carrier wave; an amplifying part that adds the carrier wave and the superimposition wave to obtain an amplified carrier wave and outputs the amplified carrier wave; and an amplitude detection part that detects, based on a change in an amplitude value of the carrier wave, that the carrier wave is a predetermined carrier wave that carries a predetermined communication signal. The amplifier circuit outputs the amplified carrier wave when having detected the predetermined carrier wave.

Abstract: A channel estimating apparatus includes a receiver that receives reference signal groups that are respectively transmitted from wireless communications units and that each include a reference signal that is allocated a common channel resource allocated to a reference signal in another reference signal group; a first estimating unit that based on a reference signal that is in a first reference signal group among the received reference signal groups and that is allocated a unique channel resource not allocated to a reference signal in another reference signal group, estimates a reference signal that is in the first reference signal group and allocated the common channel resource; and a second estimating unit that based on the reference signal estimated by the first estimating unit, estimates a reference signal that is in a second reference signal group among the received reference signal groups and that is allocated the common channel resource.

Abstract: Provided are a tethering providing system and method using short distance communication. More particularly, second short distance communication tethering between a vehicle terminal device and a communication terminal device is set in accordance with whether first short distance communication is established, activated when the vehicle terminal device and the communication terminal device are re-connected through the first short distance communication, and deactivated when the first short distance communication is terminated, thereby providing high-speed data connection through the second short distance communication tethering while reducing battery consumption of the communication terminal device.

Abstract: A light weight transmission device providing an identification signal is disclosed. In one aspect, the device comprises a gating device for controlling the transfer of information to the transmitter, a data retaining device, in communication with the gating device, receiving and storing the information for a known period of time, and a controller, in communication with the gating device, providing a signal to the gating device to enable transfer of the retained information to the transmitter at a known time and for a known period of time.

Abstract: A wireless communications device that produces phase-synchronized local oscillator (LO) signals. The device includes a first transceiver chain to receive a first timing signal and a second transceiver chain to receive the first timing signal and a second timing signal. The first transceiver chain includes a first frequency divider to convert the first timing signal to a first LO signal. The second transceiver chain includes a multiplexer to select one of the timing signals based at least in part on a mode select signal. A second frequency divider in the second transceiver chain converts the selected timing signal to a second LO signal, and a phase alignment circuit aligns a phase of the second LO signal with a first alignment signal. The first alignment signal is activated, for a limited duration, in response to a change in state of the mode select signal.

Abstract: A switch-mode RFPA driver includes first and second field-effect transistors (FETs) arranged in a totem-pole-like configuration. The switch-mode RFPA driver operates to generate a switch-mode RFPA drive signal having a generally square-wave-like waveform from an input RF signal having a generally sinusoidal-like waveform. To maximize high-frequency operation and avoid distorting the switch-mode RFPA drive signal, the switch-mode RFPA driver is designed so that its output can be connected directly to the input of the switch-mode RFPA to be driven, i.e., without using or requiring the use of an AC coupling capacitor. The first and second FETs of the switch-mode RFPA driver are designed and configured to limit and control the upper and lower magnitude levels of the switch-mode RFPA drive signal to levels suitable for switching the switch-mode RFPA directly, obviating any need for DC biasing at the input of the switch-mode RFPA.

Abstract: Adaptive channel estimation technique selection for coordinated multipoint (CoMP) cellular communication in a wireless user equipment (UE) device. A channel estimation technique according to which to perform channel estimation may be determined, from at least two possible channel estimation techniques, for each respective cell of a plurality of cells. Channel estimation may be performed on each respective cell of the plurality of cells according to the determined channel estimation technique for the respective cell. Multipoint channel state information may be generated based on the channel estimates for the plurality of cells. The multipoint channel state information may be transmitted to a first cell in a wireless manner. The multipoint channel state information may be used to select a CoMP joint transmission cluster for the UE.

Abstract: A wireless docking station for enabling a wireless secured communication between at least one first slave device (a1-aN) and a first master device comprises: a second master device for pairing with the at least one first device (a1-aN) using a pairing protocol implemented on the at least one first device (a1-aN), at least one relayed slave device (b1-bN) which corresponds to the at least one first device (a1-aN), and which is adapted to pair with the first master device using a secured protocol, and a radio module for sending to the first master device information about the at least one relayed slave device (b1-bN).

Abstract: A mobile device is bonded to a controllable device by reading a code on the controllable device, banding the mobile device to the controllable device by use of the code, and transmitting a remote control signal from the mobile device to control a controllable function of the bonded controllable device so that only the bonded controllable device responds to the remote control signal by performing the controllable function.

Abstract: The present specification discloses an incoming/outgoing-talk unit having an ear-hook unit, a cartilage conduction vibration unit that makes contact with ear cartilage in a state where the hook unit is hooked to the ear, an outgoing-talk unit, and a unit for performing short-range wireless communication with the mobile telephone. Further disclosed is an incoming-talk unit having an ear-hook unit, and a cartilage conduction vibration unit for transmitting cartilage conduction from outside of ear cartilage in a state where the hook unit is hooked to the ear. Also disclosed is an incoming-talk unit having a three-dimensional viewing adjustment unit, a temple having a unit for adjusting contact of eyesight-adjusting eyeglasses with the temple when the unit is superposedly mounted on the eyesight-adjusting eyeglasses; and an audio information output unit provided to the temple.

Abstract: A system for automatically activating a function of a mobile device with a remote device is described. The system includes a first device having an illumination component for generating illumination having a signature. A second mobile device includes a display and a light sensor. A function of the second mobile device is activated in response to the light sensor receiving the illumination having the signature.