A secure wireless data device is disclosed and configured as at least one of a passive, semi-passive, or active RFID or NFC enabled device. In at least one embodiment, the data device provides a memory, an antenna and an at least one access sensor. The memory is configured for storing select wireless data therein. The antenna is in selective wireless communication with a compatible reader. The at least one access sensor is configured for automatically switching between an enabled state—wherein the wireless data is capable of being accessed by the reader—and a disabled state—wherein the wireless data is prevented from being accessed by the reader—based on an at least one measurable physical parameter that is detectable by the at least one access sensor.

A flexible sensing system includes: a flexible tag device including a first antenna, first sensor and second sensors, first modulation transistor and second modulation transistors connected to both ends of the first antenna, first ring oscillator that drives the first modulation transistor together with the first sensor, and a second ring oscillator that drives the second modulation transistor together with the second sensor; and a reader device that is flexible and includes a second antenna that is inductively coupled with the first antenna, extracts an output signal of the tag device for each frequency bandwidth, and corrects an output signal change of the tag device according to a coupling change between the first antenna and the second antenna.

A fluid line connector and assembly provides remote securement detection capabilities and is hence equipped for initial assembly, subsequent quality inspection, and subsequent service techniques that are automated, robotic, and/or autonomous. The fluid line connector includes a body, a radio-frequency identification (RFID) tag, one or more actuator members, and one or more switches. The body has a passage for fluid-flow therethrough. The RFID tag can communicate with an RFID interrogator. The actuator member(s) changes the state of the switch(es) when the actuator member(s) actuates. The switch(es) is electrically coupled with the RFID tag.

A Usage, Condition and Location System (UCLS) tag is provided, which is an active RFID tag that, in addition to location, is configured to determine the usage state and operating condition of a device. The UCLS tag includes sensors that measure physical activity of the associated equipment (vibration, magnetic activity, temperature, etc.). Algorithms may use the information obtained from the UCLS tags to map the measured sensor data to a contextual usage state and operating condition of the device.

A method for streaming sensor data from a set of radio-frequency identification (RFID) tags includes determining an initial communication approach to be performed with respect to each RFID tag. The method also includes managing access to the RFID tag by refining the initial communication approach based on records of successes and failures of the initial communication approach. A radio-frequency identification (RFID) system is also disclosed, the system comprising one or more processors and a memory system comprising one or more non-transitory computer-readable media storing instructions that, when executed by at least one of the one or more processors, causes the system to perform operations for streaming sensor data from one or more RFID tags to one or more RFID readers.

Remote measuring and sensing. Some example embodiment related to optical energy harvesting by identification device, such as infrared identification device (IRID devices). Other embodiments relate to RFID device localization using low frequency source signals. Yet still other embodiments related to energy harvesting by RFID in electric fields in both conductive and non-conductive environments.

A first object and a second object are movable in relation to one another. The first object includes a transponder using an integrated circuit having two terminals which may or may not be shorted. The presence or absence of a short circuit between the two terminals is detected. This is accomplished at least partly by the second object depending on the relative positioning of the first and second objects. The transponder transmits, to a module having a contactless reader function, positioning information corresponding to said relative positioning using a contactless communication protocol.

A method of incorporating a second conductor into a RFID strap device and the resulting device in multiple embodiments is disclosed. The second conductor adds functionality via coupling between the strap conductor and the second conductor. The functionality added can be a secondary antenna operating at a different frequency than the first antenna that is driven by the strap pads, a sensing capability, a drive for an emissive device such as an LED, or an interface to one or more semiconductor devices mounted onto the second conductor.

A system for event notification based on editing a transponder identifier is disclosed herein. The system may include a sensor system, a transponder, a transponder reader, and a controller. The system may detect an event associated with a sensor. The system may identify a transponder associated with the sensor. The system may cause the transponder to store an event identifier in a memory location of an identifier, of the transponder, to form an edited identifier. The event identifier may be associated with the event. The system may determine that the transponder responded to the query from the transponder reader. The system may store a confirmation that the event identifier was provided to the transponder reader via the transponder.

An RFID transponder including a Bluetooth® compatible transceiver is described a (BLEET). The Bluetooth® compatible transceiver may be configured to set data that is transmitted via one or more RFID transceivers in the transponder and to return data received by the RFID transceiver(s) to a client application running, for example, on a user's smart phone. The BLEET may be used for electronic vehicle tracking or tolling. Vehicle occupancy data may be set by the user with the client application via a Bluetooth® connection in connection with high occupancy vehicle tolling and express lane incentive programs.