Abstract: A method of operating a radio frequency identification (RFID) tag assembly having a a predetermined operating frequency with a body composed of an absorbing material coupled to a first side of the an RFID semiconductor chip, absorbing a substantial amount of a received energy in the absorbing material body, receiving at a second side of an antenna coupled to the RFID semiconductor chip mounted a first portion of the radio energy as transmitted from a remote base station transceiver, the receiving being at the first side being oriented away from the operating surface, receiving at a second side of the two-sided planar antenna a second portion of the radio frequency energy transmitted from the base station transceiver following the absorbing, the second side being oriented towards the operating surface and towards the absorbing material body, and processing the received first and second portions of the radio frequency energy.

Abstract: Methods and systems for controlling wireless identification tag activation are disclosed. An example method includes controlling a first wireless identification read cell to activate a first set of wireless identification tags within a first communication range. Further, the method includes controlling a second wireless identification read cell to activate a second set of wireless identification tags within a second communication range during activation of the first set of wireless identification tags and subsequent to initially activating the first set of wireless identification tags. The first communication range overlaps with the second communication range.

Abstract: A system to identify a user in relation with television services comprising eyeglasses worn by said user, said eyeglasses having a pair of flexible temples taking on the shape of a portion of the circumference of the user's head, a television receiver device comprising a server module communicating wirelessly with sensors arranged on the eyeglasses. The system is characterized in that each of the flexible temples of the eyeglasses incorporates at least one sensor configured for measuring a value of deflection caused by the temple bending around a portion of the circumference of the user's head, said value being unique for each user is transmitted as biometric to the server module configured for determining the identity of the user according to the measured value of the portion of the user's head circumference.

Abstract: An aspect of the present invention provides an RFID tag, in which a null point is hardly generated. The RFID tag includes a long antenna provided in a rectangular surface. The antenna is accommodated in a tag case of the RFID tag, and the antenna extends in a direction oblique to sides constituting the rectangular surface of the tag case.

Abstract: A box contains a motorized latch for locking the lid of the box and a GPS device for determining a geo-location. The box also contains an electronic controller, which is programmed with a predetermined geo-location and is programmed for driving the latch and a display. The controller is programmed to cause the display to show distances to the predetermined geo-location in response to actuations of a push button mounted on the box. The controller is also responsive to respective current locations. The controller is programmed to disengage the latch If a distance indicated by the GPS device to the predetermined geo-location is less than a predetermined distance, revealing whatever treasures have been hidden inside the box.

Abstract: Data carriers for inventorying by means of a communication station, whereby the communication station and each data carrier are brought into communicative connection, and each data carrier brought into communicative connection with the communication station is configured to generate a response signal that renders possible an inventorying of the data carrier and is capable of delivering a generated response signal with the use of a transmission start moment that can be selected from a plurality of transmission start moments, each data carrier tests whether another data carrier is already giving its response signal. Each data carrier is configured to discontinue the generation or delivery of its response signal if another data carrier is already providing its response signal.

Abstract: The present disclosure relates to a method for controlling a smart key system for door lock of a vehicle configured with at least two modes, the method including selecting one of a first mode and a second mode, detecting an ON/OFF state of an engine of the vehicle and a key signal of a smart key, activating a door lock function performed outside of the vehicle, if it is confirmed through the key signal that the smart key is present outside of the vehicle, in case the first mode is selected, and deactivating a door lock function performed outside of the vehicle, if it is confirmed through the key signal that the smart key is present inside the vehicle or the engine is running, in case the second mode is selected.

Abstract: Disclosed are alternate embodiments of various components of a barrier operator system. and methods of operation, including of the mechanical drive subsystem with segmented and self-locking rail unit, rail mounting supports, belt and chain drive tensioning, and drive assembly carriage and interface; the electronics and software routines for controlled operation of the various barrier operator functions; wall console communications with the barrier operator; encryption and decryption of access codes; establishment and monitoring of travel limits and barrier speed and force profiles; thermal protection of barrier operator drive motors; and establishment and control of communications from the barrier operator to accessories by way of a wireless adapter.

Abstract: In a contactless communication system, a first storage unit stores a group of access control programs corresponding to plural types of noncontact information carriers, respectively. A second storage unit stores access reference information required to execute the group of access control programs. A program execution unit refers to the access reference information to select at least one program in the group of access control programs based on the reference result. The program execution unit executes the selected at least one program in the group of access control programs based on the access reference information.

Abstract: An RF telemetry receiver circuit for active implantable medical devices. The baseband binary signal (Db) is doubly modulated by a low frequency carrier (Fm) and by a high frequency carrier (Fc). The receiver circuit is a semi-passive non heterodyne circuit, devoid of a local oscillator and mixer. It comprises an antenna (104), a passive bandpass filter (108) centered on the high-frequency carrier (Fc), a passive envelope detector (120-126) and a, digital demodulator (116). The envelope detector comprises a first diode circuit (120) of non-coherent detection, an active bandpass filter (122) centered on a frequency (2.Fm) twice the low frequency carrier and having a bandwidth (2.Db) twice the baseband bandwidth, and a second diode circuit (124) of non-coherent detection, outputting a baseband signal applied to the digital demodulation stage (116).

Abstract: A method for controlling RF power within an RFID system according to one embodiment includes returning a first set of RFID tags that were successfully accessed at a first reader forward mode power level to a hibernate state; initiating a timer operation in each of the RFID tags within the first set of RFID tags, the timer operation defining a period of time; and preventing the first set of RFID tags from responding to an activation command at a second reader forward power level during the period of time, the second reader forward power level being higher than the first reader forward power level; and wherein a flag state stored in each of the RFID tags within the first set of RFID tags indicates whether the timer operation is active to prevent undesired activation at the second reader forward power level.

Abstract: A controller node for an entertainment control network, comprises controller logic arranged to be paired with at least one controlled device over a wireless interface. The controller logic is further arranged to provide pairing information for the at lease one controlled device with which it is paired to a further node within the entertainment control network.

Abstract: A biometric access control system, and a weapon rack. The system may include an identification station including a biometric reader, an equipment identification reader, and a user interface, and an equipment structure in communication with the identification station and including a plurality of locks corresponding to a plurality of storage locations. The weapon rack may include a plurality of storage locations individually storing a plurality of weapons, and including a plurality of weapon stock receiving and supporting pockets to secure the weapons, a plurality of clamps corresponding to the plurality of storage locations to additionally secure the weapons, and a plurality of sensors aligned with the plurality of clamps to indicate presence or absence of the plurality of weapons.

Abstract: An active RFID tag has an antenna inside RF-blocking enclosure having a port with a selected shortest dimension. An RFID reader located outside the enclosure at a reader position transmits a downlink RF signal through the port as a directional RF signal on a downlink carrier frequency corresponding to a downlink wavelength smaller than the selected shortest dimension. The port is selectively configured so that the directional downlink RF signal can pass through the port in an access mode during a selected access time interval and are attenuated by at least 60 dB in a restricted mode during a selected restricted time interval that does not overlap with the access time interval.

Abstract: A fence for establishing a secure marine perimeter includes an optic fiber net. The optic fiber net includes an optic fiber wire with an input end and an output end. A light transmitter connects to the input end to introduce an input optic signal into the optic fiber wire. A light receiver connects to the output end to receive an output optic signal from the optic fiber wire. A strength member is incorporated into the optic fiber wire to strengthen the optic fiber net. A processor is connected to the light receiver to generate an output signal based on the output optic signal. The processor compares the output optic signal with the input optic signal and generates an alarm if a difference between the input optic signal and the output optic signal exceeds a predetermined alarm threshold.

Abstract: A system and method for receiving signals from a tire pressure monitoring (TPM) system, a remote keyless entry (RKE) system, and a passive entry system in a manner that reduces the occurrence of signal interference includes transmitting at least a first signal to a receiver on the vehicle. The receiver is configured to have multiple channels for receiving the TPM signal, the RKE signal and/or the passive entry signal. The method also includes receiving the first signal on a first receiver channel. The method further includes selecting a second receiver channel for receiving at least a second signal when the second signal is or will be generated.

Abstract: A wireless output unit of a remote controller 2 having a touch pad 23 or a touch panel wirelessly outputs a coordinate value associated with a continuous contact input for the touch pad 23 to a television 1. A reception unit of the television 1 wirelessly receives the coordinate value associated with the continuous contact input output from the wireless output unit. A display processing unit displays on a display unit 14 a pointer 3 moving on the basis of the coordinate value received by the reception unit. An output unit outputs, when the continuous contact input is finished, acceptance information indicating that an input for an object T displayed on the display unit 14 is accepted at a final coordinate value for the pointer 3 displayed on the display unit 14.

Abstract: An RFID tag comprising a coil and an RFID chip having two inputs/outputs, each input/output being connected to the coil. The tag further comprises an electrical circuit connected to the inputs/outputs, the circuit being adapted to operate in one of two modes, one mode outputting substantially no signal whereby the RFID chip is allowed to operate and a second mode being a mode wherein a signal is output so that the operation of the RFID-chip is interrupted. Alternatively, the circuit may have a lower operating voltage than the RFID-chip and may thus starve the RFID-chip and prevent its operation when desired.

Abstract: A wireless unit for a wireless vehicle system includes a receiver for receiving a vehicle-originating signal, a transmitter for transmitting a reply signal, a received signal strength indicator (RSSI) for determining a received signal strength of the vehicle-originating signal, a memory for storing sensitivity data, and a control unit in electrical communication with the receiver, the transmitter, the RSSI and the memory. The receiver has a sensitivity, and the memory is for storing sensitivity data corresponding to the sensitivity of the receiver. The control unit is configured to communicate with the transmitter to direct the transmitter to transmit the reply signal. The reply signal includes received signal strength data used for determining a distance between the wireless unit and an associated vehicle-side transmitter on an associated vehicle. The received signal strength data is based on the received signal strength and the sensitivity data.

Abstract: One embodiment of the present invention provides a lock-and-key system for an electrical power plant. The system includes a plurality of locks and a smart key. A respective lock is installed with a standardized lock core, and the lock is associated with a lock identifier (ID). The smart key includes a key head that matches the standardized lock core; a lock-ID detector configured to detect the lock ID; a rotation stopper which, when enabled, is configured to prevent rotation of the key head while the key head is inserted into the standardized lock core; and a control module configured to disable the rotation stopper based on the detected lock ID, thereby facilitating the smart key to unlock the lock by rotating the key head.