Abstract: A user device obtains sensor data from sensors included in the user device. A set of current state information is determined based on the sensor data. A tuner code associated with the current state information is identified. Tuning values associated with the tuner code are varied during a training stage to determine an optimized tuner code. One or more antennae of the user device are tuned for communication in accordance with the optimized tuner code.

Abstract: A test apparatus is configured to perform non-determinative testing of equipment. The test apparatus comprises a test computer arranged to automatically execute a non determinative test regime under the control of a test application. A network simulator connected to the test computer is provided with communication circuitry operable to communicate with the equipment under test. The network simulator is configurable into different network states according to the non-determinative test regime, and the test application is operable to control the network simulator to transition between a plurality of different network states. Data about unscripted communications between the network simulator and the equipment under test is monitored and can be analyzed to reach a test verdict.

Abstract: Various embodiments are described of devices and associated methods for processing a signal using a plurality of vector signal analyzers (VSAs). An input signal may be split and provided to a plurality of VSAs, each of which may process a respective frequency band of the signal, where the respective frequency bands have regions of overlap. Each VSA may adjust the gain and phase of its respective signal such that continuity of phase and magnitude is preserved through the regions of overlap. The correction of gain and phase may be accomplished by a complex multiply with a complex calibration constant. A complex calibration constant may be determined for each VSA by comparing the gain and phase of one or more calibration tones generated with each region of overlap, as measured by each of the VSAs.

Abstract: Method, apparatus, and computer program product example embodiments provide wireless charging detection. According to an example embodiment of the invention, a method comprises advertising by a wireless charging device, an availability for wireless charging over a wireless communication interface; scanning, by the wireless charging device, for wireless signals from one or more other wireless devices; providing, by the wireless charging device, information usable for characterizing charging capabilities of the wireless charging device; transmitting, by the wireless charging device, one or more wireless communication packets over the wireless communication interface, including the information usable for characterizing the charging capabilities of the wireless charging device, in response to receiving one or more wireless signals from the one or more other wireless devices; and providing, by the wireless charging device, power to the one or more other wireless devices over a wireless power interface.

Abstract: Disclosed are systems and methods for reducing filter insertion loss while maintaining out-of-band attenuation. In some embodiments, a system can be configured for processing of radio-frequency (RF) signals. The system can include a plurality of signal paths configured to accommodate multiple frequency bands, with each of the multiple bands having a passband. The system can further include a filter circuit disposed along each of the signal paths. At least one of the filter circuits can be segmented into two or more segments that substantially cover the passband corresponding to the filter circuit. The segmented filter circuit can be configured to provide a desired attenuation of out-of-band interferers and a desired insertion loss level. In some embodiments, the signal paths can include receive (Rx) paths.

Abstract: A state updating unit updates first information stored in a storage unit whenever the state of a control unit transitions from an idle state to an active state or from the active state to the idle state. A second power supply unit induces electric power from radio waves received by the antenna unit. An information acquiring unit operates after receiving the supply of electric power from the second power supply unit, acquires second information indicating whether electric power is supplied from the first power supply unit, acquires the first information from the storage unit, and transmits the acquired first and second information to the control device. A diagnosing unit diagnoses faults in the terminal device based on the first and second information transmitted from the information acquiring unit of the terminal device.

Abstract: Network analysis employs a band-limited multi-tone test signal having a tunable center frequency to test a device under test (DUT). A hybrid network analyzer includes a test signal source to provide the band-limited multi-tone test signal, and a local oscillator (LO) source to provide a tunable LO signal configured to track the tunable center frequency of the band-limited multi-tone test signal. The hybrid network analyzer further includes a receiver to convert into an intermediate frequency (IF) signal using the tunable LO signal one or both of the band-limited multi-tone test signal and a response signal from a device under test (DUT) produced in response to the band-limited multi-tone test signal. The test signal source is further configured to provide a tunable single-tone test signal and a broadband multi-tone test signal to test the DUT in various modes.

Abstract: A radio module for a field device, wherein the radio module contains a schedule, according to which process data, especially measurement data, are downloaded from the field device by means of the radio module and wirelessly transmitted to a superordinated unit. Based on the schedule, the radio module transmits to the field device control signals, which serve to control the power consumption of the field device.

Abstract: An information providing system provides delivery information using identification information of an object equipped with a wireless communication function. The information providing system includes a registering unit that registers in advance first link information linking the identification information of the object to the delivery information; a generating unit that generates second link information linking the identification information of the object to delivery information different from the delivery information of the first link information, based on the identification information of the object and identification information of a plurality of information terminals, acquired by communication with the information terminals, which can communicate with the object; and an information providing unit that delivers the delivery information linked by the second link information.

Abstract: A communication network includes an instructor wireless communication device and a plurality of student wireless communication devices, which may be conventional smartphones. The student devices do not communicate with the wireless service provider, but communicate with the instructor device in the classroom via a short-range communication network established between the student devices and the instructor device directly or via an access point. In one embodiment, communication with the cellphone network service provider is cut off by disabling the network transceiver in each student device. The instructor device can exchange question and answer data with the student devices. The system can be configured to provide security in student responses to prevent potential cheating. Student answers may be automatically collected, collated, and graded. The answers are accompanied by an ID that uniquely identifies each student.

Abstract: A method for controlling a portable device including first and second display units at opposing surfaces of the portable device. The method includes detecting one of a first unlock command for switching a state of the first display unit to an active state and maintaining a state of the second display unit in a locked state or a second unlock command for switching the state of the first display unit to the active state and switching the state of the second display unit to a ready-to-activate state; switching the state of the first display unit to the active state and switching the state of the second display unit to the ready-to-activate state when the second unlock command is detected; detecting an unlock trigger for switching the second display unit, which is in the ready-to-activate state, to the active state; and switching the second display unit, which is in the ready-to-activate state, to the active state according to the detected unlock trigger.

Abstract: A method for a wireless device capable of receiving and transmitting a signal includes receiving a reference signal from a second wireless device through a communication channel, estimating the communication channel, using the reference signal, selecting a pair of an analog digital converter (ADC) quantizer and an input distribution, based on the estimated communication channel, and sending information on the selected input distribution and the ADC quantizer to the second wireless device. A wireless device capable of wirelessly receiving and transmitting a signal includes a transceiver configured to receive a reference signal from a second wireless device through a communication channel, and a processor configured to estimate the communication channel, using the reference signal, selecting a pair of an ADC quantizer and an input distribution, based on the estimated communication channel, and sending information on the selected input distribution and the ADC quantizer to the second wireless device.

Abstract: A method envisions that a first device equipped with a wireless communication channel performs discovery operations and becomes discoverable on the wireless communication channel. The attributes of the devices detected during such operations are sent from the first device operating as a client, together with its unique system identification code, to a computer server that implements a detection service in proximity in a certified manner and is associated with a database comprising a list of attributes for devices registered with the service using such database. In addition, the server computer records, for example, in such database, the detections of such attributes of detected devices.

Abstract: A method for disguising the environment and thus the location in which a telephone is being used includes acquiring a disguised environmental sound from a storage device in response to a selection of a user, controlling a voice acquiring device to acquire voice of the user and actual undisguised environmental noise during a call. An environmental noise signal is removed and replaced by an environment-disguising sound signal. An ultrasonic signal can be generated and synthesized with the transmitted voice signal to indicate mis-use of a communication device notwithstanding the environment-disguising noises.

Abstract: A device comprises a plurality of distributed transceivers, a plurality of distributed beamformers, a baseband processor, and a network management engine. The distributed transceivers perform beamforming in a radio frequency band. The distributed beamformers, however, performs beamforming in an intermediate frequency band. Each of the distributed transceivers is coupled to a corresponding one of the distributed beamformers. Each transceiver-beamformer pair is coupled to the baseband processor utilizing a same communication medium such as a cable. For transmission, a data stream generated at baseband is converted to intermediate frequencies. With a low-power transmission, the distributed beamformers transmit the data stream wirelessly in the intermediate frequencies to a receiving device. With a normal-power transmission, the distributed transceivers transmit the data stream to the receiving device in the radio frequency band. The transceivers and the beamformers are turned OFF whenever not being used.

Abstract: A carrier wave is selected based on a state of a target device such as a vehicle. A polling signal is generated using the selected carrier wave for transmission from the target device for receipt by a portable controller. A sinusoidal carrier wave is selected when the target device is in a state that is more sensitive to electrical noise interference caused by the polling signal being generated using the carrier wave than to electrical energy consumed in generating the polling signal using the carrier wave. A non-sinusoidal periodic carrier wave is selected when the target device is in a state that is more sensitive to electrical energy consumed in generating the polling signal using the carrier wave than to electrical noise interference caused by the polling signal being generated using the carrier wave.

Abstract: Disclosed is an electronic device capable of near field communication (NFC) and of achieving high integration, size reduction, and good sensitivity. The electronic device includes an antenna chip provided inside a battery protection circuit package of a battery pack and having embedded an NFC antenna therein, and an extended antenna loop electrically connected to the antenna chip and provided outside the battery protection circuit package.

Abstract: A method and system detect directionality between two objects by measuring angles of signals incident on antenna arrays on at least one side to determine angle of incidence. The methods utilize Bluetooth Low Energy communications for both the control protocol and for providing updated information for deriving directionality. Directionality information is broadcast on selected BLE advertising or data channels, or broadcast using a hopping pattern over the BLE data channels, both at a specific interval duty cycle. If a hopping pattern is selected to transmit directionality information, then anchor information is simultaneously broadcast on the BLE advertising or data channels at a different, asynchronous duty cycle. In additional embodiments, signals incident on antenna arrays located on both target and tracking sides are used to determine angle of incidence, separate antennas are combined to form new antennas and antenna models are used to anticipate known antenna structure responses.

Abstract: A data transmitting/receiving method capable of effectively suppressing power consumption includes: establishing synchronization between a master device and a slave device based on predetermined synchronization information that is transmitted from the master device or the slave device; setting a contention access period (CAP) between the master device and the slave device at predetermined timing based on the established synchronization; starting data transmission/reception between the master device and the slave device within the CAP; and extending the data transmission/reception even after the CAP in a case where the data transmission/reception does not end within the CAP.

Abstract: An automatic wireless pairing method includes causing a base unit to wirelessly communicate with a number of wireless peripheral devices and wirelessly receive a peripheral device data signal from each of the wireless peripheral devices, wherein the peripheral device data signal received from each of the wireless peripheral devices is based on one or more measurements made by a sensor of the wireless peripheral device, analyzing in the base unit each of the peripheral device data signals, selecting in the base unit one or more of the wireless peripheral devices based on the analyzing of the peripheral device data signals, and responsive to the selecting step, establishing or maintaining wireless communication according to the wireless communications protocol between the base unit and the selected one or more of the wireless peripheral devices and not the wireless peripheral devices other than the selected one or more of the wireless peripheral devices.