Abstract: A usual setting state in accordance with a current in-house state and a device state is selected using an acquired in-house state and a device state from a plurality of setting states classified in advance in accordance with in-house states and device states. When the selected usual setting state and the acquired setting state differ from each other, a first notification that notifies a user of the difference is performed and a state of an information terminal is transitioned to a state where an input for remotely controlling a second device can be accepted.

Abstract: A preferred embodiment of the invention includes: an identification device (1) for receiving a first signal and transmitting a second signal, the device including: a receiving means (35) for receiving the first signal to generate a voltage; an integrated circuit (37) having a state selection means (41) for selecting whether the device (1) is in a. first state or a second state; a connection (39) between the receiving means (35) and the integrated circuit (37); a transmission means (45) for generating the second signal. The invention also includes a. system (50) that includes an interrogator (43) for interrogating a, plurality of the identification devices (1).

Abstract: A sound amplification apparatus (10) comprises one or more microphones (11) that convert collected sound into an audio signal and transmit the audio signal by radio and a sound receiving apparatus (13) that receives the audio signal transmitted from the microphone (11) and amplifies and outputs the sound based on the audio signal. The sound receiving apparatus (13) is configured to perform sound output control in an emergency mode upon receiving an emergency signal transmitted in response to operation of an emergency switch (12) of the microphone (11). With this configuration, it is possible to perform appropriate sound control in a dangerous situation such as intrusion of a suspicious person.

Abstract: Systems, methods and computer program products associated with wirelessly (e.g., RF) readable gaming chips are disclosed.

Abstract: A data management device configured to manage data stored in a contactless storage medium mounted to an electronic apparatus has a data storage unit that stores a plurality of data units including information of the electronic apparatus, a state detection unit that detects a state of the electronic apparatus, a data selection unit that, by referring to selection rules associating states of the electronic apparatus with types of the data, selects data comprising information conforming with the electronic apparatus under a state detected by the state detection unit from the data storage unit, and a data management unit that stores the data selected by the data selection unit in the contactless storage medium.

Abstract: A method is provided for reading data relating to a tire, in which the data is stored in an electronic device integrated into the tire, and in which the tire is identified by a serial number and a manufacturing week number. A storage unit of the electronic device includes a data storage zone having a storage range formed of a number of bits. The storage range is also referred to as a restricted range, and the number of bits of the restricted range is less than or equal to 38. According to the method, the data stored in the restricted range is read, and the data read from the restricted range is decoded in order to determine the serial number and the manufacturing week number of the tire.

Abstract: A sound transmitting apparatus, a sound receiving apparatus and a method for transferring data from the sound transmitting apparatus to the sound receiving apparatus using a sound signal are provided. In the method, a plurality of basic tones and control tones are defined by using a plurality of sound frequencies within a sound frequency range, in which each basic tone corresponds a character and each control tone corresponds an order of the basic tones. A plurality of characters in the data to be transferred are transformed into corresponding basic tones and the corresponding control tone is determined according to the order of the characters. The basic tones and the control tone are transmitted to the sound receiving apparatus. The sound receiving apparatus transforms the received basic tones into the characters and determines the order of the characters according to the received control tone, so as to recover the data.

Abstract: An open sign, including a body including a circuit in electrical communication with a lighting and an internet connector configured to send a store data, and a power supply in electrical communication with the lighting and the internet connector.

Abstract: A remote control for controlling a controllable device, including: an infrared transmitter that transmits information via infrared light; a wireless transceiver that transmits information by wireless communication via radio waves; a receiver that receives, from a user, control information to be transmitted to the controllable device; a wireless communication determination unit configured to determine whether wireless communication between the wireless transceiver and the controllable device is possible; and a control unit configured to select, based on a result of the determination by the wireless communication determination unit, one of the infrared transmitter and the wireless transceiver for transmission of the control information to the controllable device, and cause the selected one of the infrared transmitter and the wireless transceiver to transmit the control information to the controllable device.

Abstract: A method including receiving and storing a first signal strength threshold associated with obtaining access to a first access control device; receiving a first RF advertisement from the first access control device; obtaining a first received signal strength indication (RSSI) for the received first RF advertisement; determining that the first RSSI is greater than or equal to the first signal strength threshold; and transmitting, in response to the determination that the first RSSI is equal to or greater than the first signal strength threshold, a first RF message to indicate that the transmitting device is proximate to the first access control device.

Abstract: Method and systems for locating objects, in particular RFID tags, employ one or more RFID reading devices. The methods and/or systems make it possible to determine a distance between an RFID reading device and a deliberately selected RFID tag in a simple, robust manner. The RFID reading device determines a propagation time of a broadband signal by comparing the broadband signal with the scattered broadband signal. The RFID reading device determines a distance between the RFID reading device and the RFID tag from the propagation time difference.

Abstract: A reader (112) for reading a plurality of data, wherein each data in the plurality of data is associated with a respective source (16) and is carried by a respective data signal originating from the respective source (16), the reader (112) comprising processing means (118) and a storage means, the storage means having instructions stored thereon, whereby the processing means (118) is operable, under control of the instructions, to: receive and store in the storage means a representation of a combination of the respective data signals; process the representation to determine one or more data signals of the combination of the respective data signals of the representation; and to read the data of the determined one or more data signals.

Abstract: A communication station (1) is suitable for contactless communication with transponders and with further communication stations and has a first protocol-executing circuit (12) and a second protocol-executing circuit (13), the first protocol-executing circuit (12) being designed to effect communication between the communication station (1) and transponders under a station/transponder protocol and the second protocol-executing circuit (13) being designed to effect communication between the communication station (1) and further communication stations under a station/station protocol.

Abstract: A method used for a biomedical system is disclosed. The biomedical system includes an RFID apparatus and a reader apparatus communicating with the RFID apparatus. The RFID apparatus includes an electrode disposed adjacent to an acupuncture point and a motion monitor device including an accelerometer, a gyrocompass, or a pressure sensor. The method includes sending command information to the RFID apparatus from the reader apparatus; obtaining acupuncture impedance or bio-potential data through an electrode; providing nerve stimulation therapy by the RFID apparatus according to the command information, or using, by the RFID apparatus, the accelerometer, the gyrocompass, or the pressure sensor to obtain measurement data according to the command information; and submitting the acupuncture impedance/bio-potential data or the measurement data to the reader apparatus by the RFID apparatus.

Abstract: This invention relates generally to a method and system for storing, retrieving, and managing data for tags that are associated in some manner to any type of object. More particularly, the present invention writes data to these tags, reads data from these tags, and manages data that is written to and/or read from these tags.

Abstract: A wireless tag initialization device includes a reader and writer that weakens supply power to a first threshold value at which a wireless tag to be initialized is activated and other wireless tags are not activated, transmit a first command to invert a flag of the wireless tag to be initialized, increases the supply power to a second threshold value which is sufficient to write an initial value, and writes the initial value in the wireless tag with the inverted SL flag.

Abstract: A radio wave receiver includes a receiver controller that performs a signal capturing action in regular or irregular intervals to capture data transmitted on radio waves from a remote terminal in synchronization with the signal capturing action. The receiver controller includes a correctness determination unit and a capturing frequency setting unit. The correctness determination unit calculates an error rate or a correctness rate of the data captured by the receiver controller to determine the correctness of the captured data. The capturing frequency setting unit sets a capturing frequency indicating the number of times the signal capturing action is performed during a certain period in accordance with the correctness of the captured data.

Abstract: Systems and methods for an identification capable communication device are provided. The communication device or line is registered or associated with a primary unique ID that identifies a person. Furthermore, the unique ID is associated with a secondary unique ID (e.g., biometric information of that person, or a unique identification code only known by that person). The combination of the primary and the secondary IDs is registered with a server system that is capable of verifying the two IDs when a communication connection is initiated from the registered communication device or line.

Abstract: Methods and apparatus, including computer program products, for surreptitiously installing, monitoring, and operating software on a remote computer controlled wireless communication device are described. One aspect includes a control system for communicating programming instructions and exchanging data with the remote computer controlled wireless communication device. The control system is configured to provide at least one element selected from the group consisting of: a computer implemented device controller; a module repository in electronic communication with the device controller; a control service in electronic communication with the device controller; an exfiltration data service in electronic communication with the device controller configured to receive, store, and manage data obtained surreptitiously from the remote computer controlled wireless communication device; and a listen-only recording service in electronic communication with the device controller.

Abstract: A universal remote control allows dynamically programming the remote control according to location. The remote control includes a communication interface that allows the remote control to communicate with a remote database. A location is specified, and the remote control uses the location information to access corresponding programming information for the remote control. The remote control is then dynamically reprogrammed according to the location information to make the remote control suitable to the location.