Abstract: A system, method and program product for communicating a privacy policy associated with a RFID tag. The method includes defining in an tag a first identifier for uniquely identifying the object and a second identifier for uniquely identifying a privacy policy that indicates a proper and intended use and level of protection to be afforded data/information transmitted by the identification tag coupled to the object, associating the second identifier with the first identifier, each of the first identifier and the second identifier being coupled to the identification tag, and responsive to detection of a communication signal received from a receptor, transmitting the first identifier and the second identifier, which includes an accept-reject provision for controlling dissemination and usage of the data/information transmitted by the identification tag, where based on a response received to the accept-reject provision, the data/information is either transmitted or not transmitted to the recipient.

Abstract: In embodiments of the present invention improved capabilities are described for a composite RFID tag, where the composite RFID tag may include a plurality of individual tags that are arranged to respond to a reader as one tag.

Abstract: To estimate a tag read status of a passive RFID system in an actual operation environment. A method for estimating, by simulation, a tag read status of an RFID system comprises the steps of calculating the power supply activation status of each of one or more tags having IDs within a range in which the tag moves; and analyzing the operation of a collision avoidance protocol provided in the RFID system. The tag has a state parameter representative of the state of the tag. For a command signal in conformance with the collision avoidance protocol, the operation and state parameter of the tag are changed in accordance with the power supply activation status when the command signal is being processed in the tag.

Abstract: A method, communication terminal and system for processing a communication call are provided, the communication terminal including a reader configured to obtain tag information by reading a tag attached to an object the tag information comprising a terminating number; a communication unit configured to transmit a request for an originating call based on the terminating number; and a control unit configured to control the communication terminal to display termination display information corresponding to one of the obtained tag information and the transmitting of the request for originating the call, wherein the termination display information excludes the terminating number.

Abstract: A system comprising a clock board comprising a clock generator, a first board comprising an indicator and coupled to said clock board. The clock generator generates a clock signal, and the first board is configured to receive said clock signal. The first board further comprises a clock synchronizing unit that synchronizes a reference signal with said clock signal and generates a blink cadence signal based on said reference signal. The blink cadence signal is configured to drive the indicator of said first board. A failure by said first board to receive said clock signal causes the clock synchronizing unit of said first board to maintain the reference signal and generate said blink cadence signal based on said reference signal.

Abstract: A method for monitoring the status of a container for transporting goods, wherein the container includes sensors includes receiving data at a processing system within the container from at least one sensor within the container, implementing a controller within the processing system for comparing the received sensor data against a predetermined condition stored in a memory of the processing system, initiating a message from the controller in response to comparison between the received sensor data and the predetermined-condition related to the measured sensor data, and transmitting the initiated message as an RF signal from within the container to a satellite transceiver element outside the container, thereby initiating unprompted communication from inside of the container, wherein the RF signal is transmitted outside of the container via a passive antenna system.

Abstract: A control element for a sensor network having a set of different sensors. In operation, the control element transfers connections between the control element and the set of different sensors, where the transfer connections are compliant with respective sensor-specific protocols. A sensor controller element is provided for each sensor, and establishes transfer connections between the control element and new sensors in runtime. Information obtained in a sensor-specific protocol format from the sensors is converted into a common format in the sensor controller elements. The common format information is processed by a set of common control components of the control element. The control element provides a service based on the information in the common format to at least one consumer, and updates the service in accordance with the sensors present in the sensor network.

Abstract: A method and apparatus of identifying a plurality of devices connected along a common communications link is disclosed. A control station scans the devices by sending a succession of interrogation signals along the communication link, the interrogation signals including representation of the identification numbers of the devices. A first scan is carried out with interrogation signals identifying a first level of the range of identification numbers, and each device is programmed to generate, and to send to the control station, a response signal that includes its complete identification number and a checksum, upon receipt of a scan signal applicable thereto. Successive scans are carried out by the control station, adding the next higher level or the range of identification numbers, wherein upon completion of the scan that does not give rise to valid responses, the previously-paused scan is resumed.

Abstract: A radio frequency tag for a radio frequency identification system is provided that includes an antenna and a receiver coupled to the antenna. The receiver receives and demodulates a message received on at least one frequency. A retransmit controller receives the message, determines a retransmit status for the message, and if the retransmit status is positive, initiates retransmission of the message for reception by another radio tag.

Abstract: A traditional pedestrian signal housing with a video display screen mounted to a pedestrian side of the traditional pedestrian signal housing is disclosed. The video display screen is mounted to the pedestrian side of the pedestrian signal housing by way of a face plate. Tunnel visors may be attached to the traditional pedestrian signal housing to prevent cross traffic from being distracted by the visual images displayed on the video display screen. The information displayed on the video display screen may be advertisements, information, directions, etc. Local or national entities may pay for advertisements to generate revenues for the cities or governmental entities.

Abstract: The present disclosure includes a system and method for adjusting parameters associated with leakage signals. In some implementations, an RFID reader includes an RF antenna, a transmitter section, a receiver section, a control module and a cancellation noise reduction (CNR) section. The transmitter section is coupled to the RF antenna and operable to generate a transmit signal to be transmitted by the RF antenna. The receiver section is coupled to the RF antenna and operable to receive a receive signal from the RF antenna. In addition, the receiver section further includes a de-rotation module and a control module. The de-rotation module is operable to de-rotate, by ?, an in-phase signal and quadrature signal associated with the leakage signal. The control module is operable to generate control signals used to produce a signal for reducing the leakage signal in a receive path of the reader. The CNR section is operable to subtract from the reduction signal from the leakage signal.

Abstract: RFID method and system are provided. A reader transmits a reader signal to beacon tags and a listening tag. The beacon tags transmit beacon signals including a beacon identification and a beacon distance to the reader. The listening tag receives the beacon signals. Neighbor distances are calculated for the beacon tags based on when the beacon signals are received, when the listening tag receives the reader signal, and a constant processing time. The neighbor distances are the individual distances from the listening tag to the beacon tags. A list is stored including the beacon identification for the beacon tags, the beacon distance, and the neighbor distances. The listening tag transmits the list and a listening tag identification to the reader. A geographical position of the listening tag is calculated based on the beacon distance, beacon coordinates, and a listening tag distance which is from the reader to the listening tag.

Abstract: RFID tags, ICs for RFID tags, and methods are provided. In some embodiments, an RFID tag includes a memory with multiple sections, and a processing block. The processing block may map one of these sections, or another of these sections, for purposes of responding to a first command from an RFID reader. As such, an RFID tag can operate according to the data stored in the section mapped at the time. In some embodiments, a tag can even transition from mapping one of the sections to mapping another of the sections. This can amount to the tag exhibiting alternative behaviors, and permits hiding data on the tag.

Abstract: An apparatus system, and techniques for detecting temperature change are disclosed. The system includes a temperature sensitive antenna that can be included in an RFID tag device. The antenna is associated with a temperature sensitive material that, upon being exposed to a particular temperature level over a time interval, causes at least one of a change in the resonance frequency of the antenna and change in antenna signal strength (e.g., antenna gain). An RFID reader is also provided that sends commands to the tag device and determines the existence of a temperature change based on a comparison of signal strengths received on different frequencies from the antenna.

Abstract: A wireless tag device can communicate with an inquiry device includes: a local terminal storage unit storing local terminal identification information which can be discriminated from another wireless tag device; a reception detection unit detecting a signal transmitted from the inquiry device or another wireless tag device; an inquiry signal receiving unit receiving the detected inquiry signal if the inquiry signal is transmitted using a first frequency from the inquiry device; a reply signal transmitting unit transmitting a reply signal in response to the inquiry signal using a second frequency different from the first frequency; and a report signal transmitting unit transmitting a report signal including the local terminal identification information stored in the local terminal storage unit using a third frequency different from the second frequency if the inquiry signal transmitted from the inquiry device cannot be detected continuously in a specified time period in the reception detection unit.

Abstract: A commodity display position alert system includes commodity display shelves set in a selling floor space of a store, an RFID reader provided in each of the commodity display shelves, and a server as a system control unit. The RFID reader reads a commodity code from an RFID tag attached to a commodity. A server compares the commodity code of the commodity and display permission information stored in a database functioning as a shelf-rule storing unit and determines whether the read commodity code is a commodity code of a commodity that should be displayed on the commodity display shelf. When the server determines that a commodity other than the commodity that should be displayed on the commodity display shelf is displayed on the commodity display shelf, the server performs control for outputting a reporting signal for causing the PDA terminal to perform reporting operation.

Abstract: Disclosed herein is a method of preventing collisions between readers in an RFID system. The method includes a first step of RFID readers selecting transmitting channels by examining channels, a second step of transmitting signals via the selected transmitting channels, a third step of receiving signals via channels having the same frequencies as the selected transmitting channels; a fourth step of determining whether a collision has occurred by examining the status of the signals that are received via the transmitting channels; a fifth step of, if, as a result of the determination at the fourth step, it is determined that a collision between the readers has occurred, repeating the first to fourth steps after delays of random time periods based on a predetermined equation, and a sixth step of, if, as a result of the fourth step, no collision between readers is detected, communicating with the corresponding RFID tags.

Abstract: There is described method for using a mobile control device that serves for controlling a machine within an assigned effective range which is only partially delimited by one or more RFID transponders and has protective measures. Control commands of the control device are also executed when it does not receive any valid transponder data, but the controller has received a corresponding signal.

Abstract: An RFID device includes an analog block, a digital block, and a memory block. The analog block receives a radio frequency signal in order to output an operating command signal. The digital block outputs an address, an operating control signal, a temperature sensor activating signal, and a temperature compensating signal in response to the operating command signal. The memory block reads/writes data in a cell array having a plurality of nonvolatile ferroelectric capacitors. The memory block also has a temperature treating unit that sets a parameter value for temperature compensation in response to the temperature compensating signal, detects a temperature change state in an RFID tag in response to the temperature sensor activating signal, and compares the temperature change state with the parameter value. The parameter value is changed according to the comparison result and outputs a digital code value corresponding to the temperature change state.

Abstract: A method for sensing physical, chemical, and biological characteristics of an environment is provided. The method comprises using a radio frequency identification (RFID) sensor component having a predetermined range of power initiation levels and having predetermined resonant circuit parameters comprising the steps of activating the RFID sensor component and determining whether a range of power levels, needed for activating the sensor component, is below the predetermined range of power initiation levels; sensing at least one of the physical, chemical, and biological characteristics of the environment; quantifying the sensed characteristic of the environment using one or more selected resonant parameters, wherein the selection of parameters is based in part on the range of power levels needed to activate the sensor.

Abstract: A wireless transceiver includes: (a) a low power radio frequency (LPRF) communications component capable of powering down to conserve energy and capable of powering up in response to an electronic signal, the LPRF communications component including a transmitter and a first receiver; and (b) a second receiver that is configured to screen a radio frequency broadcast and provide, on the basis of specific data identified therein, the electronic signal to the LPRF communications component in order to power up the LPRF communications component. The second receiver is adapted to draw less current than the LPRF communications component while awaiting receipt of and listening for a radio frequency broadcast.

Abstract: In a method of processing data, an RFID signal (6) sent by a reader (3,5) via a field generated by the reader (3,5) is received at a passive RFID transponder (2). The transponder (2) comprises a dedicated receiver (28) for receiving a time signal (8), which is wirelessly sent By an external sender (4) and comprises information about the present time. The transponder (2) including the dedicated receiver (28) is powered utilizing the field such that the dedicated receiver (28) detects the time signal (8) and decodes the present time. Utilizing the transponder (2), the first data (7) contained in the RFID signal (6) is decoded and processed. Second data (9) which are time stamped by said transponder (2) utilizing said present time are generated, and a response signal (10) comprising the second data (9) is transmitted from the transponder.

Abstract: According to one embodiment, a radio communication apparatus includes a transmitting and receiving section, a preamble detecting section, a data detecting section, and a response-time setting section. The transmitting and receiving section transmits an inquiry signal to a radio tag and receives a response signal returned from the radio tag. The preamble detecting section detects, within a period set with reference to transmission timing of the inquiry signal, a preamble included in the response signal returned by the radio tag that receives the inquiry signal. The data detecting section detects, when the preamble is detected, data included in the response signal. The response-time setting section sets, according to a parameter peculiar to the apparatus, a response time from the reception of the response signal from the radio tag until the transmission of the next inquiry signal to the radio tag by the transmitting and receiving section.

Abstract: A radio tag reading device has a target tag storage unit, a non-target storage unit, and an antenna. The target tag storage unit stores the tag data of any radio tag held in a section from which to read data. The non-target storage unit stores at least the identification data of any radio tag existing outside sections and sections that surround the section. The target tag storage unit stores all tag data read from radio tags via the antenna, except the tag data containing the identification data stored in the non-target tag storage unit.

Abstract: A total number of transponders in an interrogation field is estimated or determined based on demodulated baseband direct and quadrature components from a plurality of collided responses from multiple transponders, including collided responses from which information encoded therein cannot be recovered, and would conventionally be discarded. A query or Q value may be set without an a priori knowledge of the actual number or even approximate number of transponders in the field of the interrogator or reader. Such may allow transponders to be quickly and efficiently singulated, for example in a single pass, and information read from and/or written to singulated transponders.

Abstract: Embodiments of the invention relate to the field of RFID interrogators, particularly RFID interrogators that combine low loss with high rates of communication from the interrogator to a tag. Further embodiments relate to the field of active RFID tags and general radio transmitters. We describe a transmitter comprising a resonant circuit and a driver coupled to drive said resonant circuit, wherein said resonant circuit includes a resonance regeneration system such that during amplitude modulation of a resonant signal in said resonant circuit when an amplitude of said resonant signal is reduced energy from said reduction is stored and when said amplitude is increased said stored energy is used to regenerate said resonance signal.

Abstract: RFID tags are configured to adjust their clock frequency in order to meet predefined limits for reply frequencies to conserve tag power. A deviation of computed tag reply frequency from a reader commanded reply frequency is used to determine an adjustment to the tag clock frequency. The tag clock frequency may be adjusted during backscatter and restored once backscattering is completed.

Abstract: There is provided an interrogator, transponder, and transponder identification method, which shorten processing time for identification. An interrogator that makes wireless communication with a transponder, comprising: a temporary number specify section that transmits a request for transmission of a unit bit string as a bit string having a predetermined length in a bit string expressing a temporary number owned by the transponder, receives a unit bit sting transmitted from the transponder in response to the request, and specifies the temporary number of the transponder, based on the unit bit string; and an identification information obtaining section that transmits, if a temporary number of a transponder is specified by the temporary number specify section, a request for transmission of identification information of the transponder to the transponder, and receives the identification information transmitted from the transponder, in response to the request.

Abstract: A vehicle transceiver module is provided for use in a synchronous communication system including the vehicle transceiver module and one or more key fobs, each of the key fobs including a key fob transceiver for transmitting and receiving signals. The vehicle transceiver module includes transceiver circuitry, a controller, a storage device and power control circuitry. The transceiver circuitry receives the signal transmitted by the key fob transceiver and provides it to the controller. The controller is coupled to the transceiver for determining an offset value associated with one of the key fobs in response to an offset time duration between a reception time of the signal from the key fob and a first expected reception time of the signal from the key fob. The storage device is coupled to the controller for receiving the offset value associated with the key fob from the controller and stores the offset value along with information identifying the key fob.

Abstract: Methods, systems, and apparatuses for RFID tags, RFID readers, communications algorithms, and RFID-related applications are described herein. In an aspect of the invention, an RFID tag is capable of storing data, receiving a signal from a reader, determining a response taking into account the tag mode and the data, and transmitting a response to the reader. The data includes a first plurality of bits and a second plurality of bits. The tag mode may be set by a current or a prior command by the reader. Depending on the tag mode, the response may be complete, or the second plurality of bits may be truncated, compressed, or encrypted. In an aspect of the invention, the response includes an implicit indication of whether the response is complete, truncated, encrypted, or compressed. In another aspect of the invention, a command from the reader indicates how many bits should be truncated, compressed, or encrypted.

Abstract: An authenticating method includes enabling a transponder to receive a read request that contains an authentication code, enabling the transponder to extract the authentication code from the read request, enabling the transponder to generate and wirelessly transmit a reply signal that contains the authentication code, and enabling a reader to authenticate the transponder based on the authentication code contained in the reply signal. An identification system, which includes the transponder and the reader is also disclosed.

Abstract: A method of operating a radio frequency identification (RFID) system is provided. The method interrogates RFID tags with an RFID reader and provides at least some of the collected tag data to a mobile device that is unable to communicate with RFID tags using the over-the-air interface. In some situations, the RFID system obtains the current location of the mobile device and determines the location of a target tag relative to the current location of the mobile device. Locating the target tag in this manner involves the interrogation of a reference tag located at the mobile device, along with the target tag, using one RFID reader. The position of the target tag relative to the reference tag is calculated in response to the tag response signals obtained from the target and reference tags. Moreover, location of the target tag can be independently determined relative to the location of a mobile reader, by using a reference tag attached to a fixed reader or to the mobile reader.

Abstract: A passive tag receiving a reader signal provided by a reader is disclosed. The passive tag includes an antenna, an oscillator circuit, and an internal chip. The antenna receives the reader signal. The reader signal is within an operation frequency band. The oscillator circuit is coupled to the antenna and generates a frequency signal. The internal chip processes the reader signal according to power provided by the reader signal and the frequency signal when the reader signal is received and the frequency signal is generated.

Abstract: In a tire sensor monitoring system for a motor vehicle, each of a plurality of tire sensors periodically emits an identifying signal and a parameter signal and the monitoring system receives and processes the identifying and parameter signals.

Abstract: Methods, systems, and products are disclosed for controlling an electronic device. A query is received at a remote control interface. A response to the query is determined. A random response interval of time is determined according to a collision avoidance mechanism. When the random response interval of time expires, then the response to the query is sent.

Abstract: An electronic device comprising a first node to be coupled to a first antenna, a second node coupled to a second antenna, a third node to be coupled to a third antenna, a first comparator coupled with a first input to the first node and with a second input to a second node, a second comparator coupled with a first input to the first node and with a second input to the third node, a third comparator coupled with a first input to the second node and with a second input to the third node. Each of the first, the second and the third comparators are configured to compare a first current and a second current at the first input and the second input.

Abstract: A method of operating a radio frequency identification (RFID) reader device is presented. The method begins by operating the RFID reader device in a read-only mode, during which the RFID reader device does not generate tag interrogation signals. The method continues by receiving a tag response signal generated from an RFID tag being interrogated by an interrogator device that is distinct and separate from the RFID reader device. The tag response signal is received by the RFID reader device while it is operating in the read-only mode. The method continues by determining a location of the RFID tag, wherein the location is determined based at least in part on information associated with the received tag response signal.

Abstract: A participatory athletic event timing system based on backscattering modulation in the UHF band and including wirelessly encoding writable data tags with participant's bib numbers or a calculated derivative thereof for timing participants in a participative athletic event, and attaching the data tags to the participant's bibs for distribution of the bibs and data tags to participants so as to eliminate the need for matching data tags with bibs and maintaining the sequenced order of the matched data tags and bibs. In a preferred embodiment, when participants register for the event, they are assigned an ID number and a bib printed with that number and having attached to the bib one or more data tag encoded in the tags memory the ID number or a calculated derivative thereof. Before the start of the event, the athlete pulls the data tag from the bib and attaches it to their shoe.

Abstract: A radio frequency identification (RFID) interrogator housed in a portable platform that includes at least one antenna, a transceiver for transmitting and receiving a radio frequency (RF) signal through the antenna, and a controller in communication with the transceiver for adjusting power and direction of the transmitted RF signal. The controller can be configured to adjust the antenna orientation, and can also selectively activate and deactivate one or more antennas.

Abstract: A media broker includes a communication interface communicatively coupling the media broker to one or more media storage devices and one or more renderers and a controller associated with the communication interface adapted to transmit a request for location information to one or more renderers, receive location information from each of the one or more renderers and determine, based upon the received location information, one or more viewing areas each comprising at least one of the one or more renderers. And then applying the media restrictions assigned to the renderers in those viewing areas, while still allowing media storage devices detected in any viewing area to record media of any rating.

Abstract: An RFID reader requires significant power supply current, upwards or beyond 0.5 amps. Much of this power is expended to activate the reader's radio frequency transmitter. For example, the reader's transmitter may constantly be active awaiting a RFID tag entering within its electromagnetic field. Sometimes an adequate power source, such as AC mains, is not available to provide continuous operation and instead a battery is powers the reader. This invention detects that a RFID tag is within reader range without using the reader's RF transmitter at full power. As a RFID tag is brought within range of a reader's antenna there is significant mutual inductance coupling between the tag antenna and the reader's antenna and this invention provides a sensitive detector of this mutual inductance. The detection of mutual inductance automatically triggers the reader's transmitter to a higher power which is necessary to fully activate the RFID tag.

Abstract: Transmission and reception of the identification number to/from an interrogator includes an interrogator that reads a recognition number from a responder by radio. When a clock pulse is modulated on a high-frequency carrier and transmitted to the responder from the antenna of the interrogator, there are a first case when the clock pulse interval is short and a second case when the clock pulse interval is long. By combining the clock pulse of the first case and the clock pulse of the second case so as to control the read of the recognition number from the interrogator, it is possible to realize reduction of the semiconductor chip size of the responder and suppress the cost of the semiconductor chip.

Abstract: RFID reader systems, readers, components, software and methods for causing RFID tags to backscatter a combination made from at least portions of a first code and a second code stored in tag memory, without transmitting any commands in the interim. In a number of embodiments, therefore, a separate command does not have to be sent for also reading the second code, thereby saving time in inventorying the tags. Plus, the combination can enable reading tag codes during tag manufacturing that are not otherwise readily available to read in the field.

Abstract: A wireless bidirectional communication system and method for tracking smart tags affixed to assets located within a defined area. Asset tracking is provided by a central processor operated by a user. The central processor combined with communication modules communicates with the system tags for deriving corresponding assets' locations. Communication is synchronized by way of broadcasting a clock generator signal over the communication link. The broadcasted clock signal is further used by the system for generating distinct time slots assigned to a tag by demand. Synchronizing the communication between the tags and the central processor is beneficial for maintaining reliable and short messages across the data link and maintaining low power draw from the tag battery.

Abstract: This disclosure discloses an RFID tag information communicating apparatus, comprising an apparatus antenna device; a command transmission portion that generates and transmits a command signal for reading information from an RFID circuit element; an information acquisition portion that attempts a reception of a reply signal transmitted from said RFID circuit element in response to said command signal; and an electrostatic-safe communication control portion that controls at least said command transmission portion and repeatedly transmit a plurality of times said command signal to said RFID circuit element so that information substantially unaffected by static electricity is acquired by said information acquisition portion.

Abstract: A system of electronic tag has developed for integrated processing by utilizing RFID technology, which comprises a reader for collecting information, processor for processing success failure, unsure state of instruction, and a terminal for submitting transaction and receiving the result of transaction to identify.

Abstract: The present invention relates to a physical audit system with radio frequency identification (RFID) and a method thereof, which perform physical audit by means of RFID. First, a plurality of electronic tags is set in a physical system and all the physical units included in the physical system, respectively. The plurality of electronic tags records physical configuration data related to the physical system and the physical units, respectively. A radio-frequency writer unit writes the physical configuration data of a newer version according to the physical system and the physical units. Then, a radio-frequency reader unit reads the physical configuration data of the plurality of electronic tags, and transmits the physical configuration data to an integrated data processing device for analyzing and comparing the physical configuration data. It is judged if the physical configuration is identical to comparison data in the integrated data processing device.

Abstract: A system and method is provided for taking digital photographs of subjects and for distributing digital images from the photographs according to subject identifiers transmitted from RFID tags held with the subjects. With a first embodiment, data from photographs taken of a number of groups of individuals, such as passengers on a cruise ship, are distributed only to individuals within the groups. With a second embodiment, the RFID tags are placed within or on objects likely to be stolen, so that the objects can be tracked by digital photographs automatically taken as the objects are moved past a camera unit.

Abstract: A method and apparatus for validating a distance output of a phase ranging RFID location system, based upon the phase readings included in data sets obtained from monitoring reply signals corresponding to interrogation signals at multiple frequencies and a common interrogation signal beam direction; by comparison of measured phase and frequency data sets with theoretical phases calculated with respect to the same frequencies over a range of positions corresponding to a beam extent of the interrogation signal. The distance output validated by comparison with theoretical threshold data processed to generate an extreme values distribution from which a cumulative distribution function is extracted and against which a confidence level is applied.

Abstract: A lane position detection system includes one or more RFID tags positioned at stationary locations along a traffic lane, and an RFID reader positioned and oriented near the traffic lane to interrogate the one or more RFID tags. A vehicle can be detected in the traffic lane when the RFID reader fails to receive a response from at least one of the RFID tags.