Abstract: Systems, methods, apparatus, and computer program products are provided for identifying assets (e.g., mobile assets and/or personnel assets). In one embodiment, a mobile asset can be uniquely identified from RFID tags. In another embodiment, mobile assets and personnel assets can be identified from captured image data. After identification, it can be determined whether the asset (e.g., mobile asset and/or personnel asset) is authorized for one or more activities and a corresponding perceivable indication can be generated.

Abstract: Embodiments herein describe RFID systems that include multiple RFID tag readers that each use a different frequency to communicate with an RFID tag. For example, each of the tag readers may transmit a tag query command using different modulated frequencies. In one embodiment, the RFID tag includes multiple receivers each tuned to one of the different frequencies generated by the tag readers. For example, one receiver in the tag is tuned to receive 200 MHz signals while another receiver is tuned to receive 900 MHz signals. To provide location information, the RFID tag compares power values associated with the received signals to determine which of the RFID tag readers is closest to the tag. The RFID tag conveys this location information to the tag readers by selecting one of the frequencies of the tag readers to use when generating a reply message.

Abstract: In one embodiment the present invention comprises a smartphone and encoders for commissioning RFID transponders. The present invention further includes novel systems, devices, and methods for commissioning RFID transponders with unique object class instance numbers without requiring a realtime connection to a serialization database.

Abstract: Multiple sensing network units are deployed overhead in a venue, in which RFID tags of interest and RFID product tags are also deployed. Each unit supports an RFID locationing system for reading the product tags in a reading mode of operation with a set of reading parameters, for reading the RFID tags of interest in the venue, for changing at least one of the reading parameters in response to reading an RFID tag of interest that is proximal to a zone of interest, and for reading with emphasis the product tags that are in the zone of interest with the changed reading parameter.

Abstract: Techniques for mitigating data loss during autonomous system information (SI) reading by a user equipment (UE) are described. For autonomous SI reading, the UE may autonomously determine when to read system information from neighbor cells and may not inform a serving cell. In one design, the UE may autonomously select a SI reading gap for reading system information from a neighbor cell. During the SI reading gap, the UE may suspend reception of downlink transmission from the serving cell, receive system information from the neighbor cell, and maintain capability to transmit on the uplink to the serving cell. In one design, the serving cell may determine SI reading gaps autonomously selected by the UE for reading system information from neighbor cells. The serving cell may communicate with the UE by accounting for the SI reading gaps of the UE, e.g., may suspend communication with the UE during the SI reading gaps.

Abstract: An image information management system includes: a storage medium on which peculiar information is stored; a reading device which reads the peculiar information stored on the storage medium; an image imaging device which shoots a video of a vicinity of a place at which the reading device is provided when the peculiar information stored on the storage medium is read by the reading device; and a processing device which associates, with the peculiar information, image information shot with using the imaging device in a constant time including a time point at which the reading device reads the peculiar information, and registers them in a storage unit. The image information management system reads the peculiar information stored on the storage medium, and associates the peculiar information with the picture information to store them in the storage unit.

Abstract: Silent radio frequency identifier (RFID) state and restore back is described herein. An RFID tag enters a silent state by receiving a sleep command from an RFID reader. While the RFID tag is in the silent state, only an awake command will restore back normal operation of the RFID tag. Other received commands or interrogations from the RFID reader are ignored and responses are not transmitted to the RFID reader.

Abstract: A physiological parameter measuring system includes a parameter sensing device attachable to a body of the subject. The sensing device detects at least one physiological parameter when activated, and a reading device monitors a temperature variation over time and determines whether the parameter has been so stabilized as to be reliably detected. A stability indication flag can be stored in the system so that subsequent monitoring of the parameter is instantly performed.

Abstract: Methods and systems are described for authorizing an item with an RFID tag to leave a facility. In one embodiment, a mobile device receives or determines an exit code (EC) to write into the tag in response to providing authorizing information. The EC may be based on information stored in the tag such as the tag's item identifier or other tag information (collectively an item identifier or II), a ticket value, other information such as the OC, a mobile identity or location, or any other suitable information. Upon verification of the EC, the tagged item is allowed to leave the facility. In another embodiment, the mobile device stores an item identifier (II) associated with the tag and provides authorizing information. Upon verifying the authorizing information and confirming that the stored II corresponds to the tagged item's II, the tagged item is allowed to leave the facility.

Abstract: Apparatus, methods, and other embodiments associated with a key duplication machine are described. In one embodiment, an assembly for duplicating a master key includes an optical imaging device, a logic, a clamping assembly, and a cutting member. The optical imaging device is capable of capturing an optical image of at least a portion of the master key. The logic is capable of determining a key pattern of the master key from the optical image of the master key. The clamping assembly is capable of clamping a key blank and the cutting member is capable of cutting a key pattern into said key blank.

Abstract: A medical imaging system comprises at least an image plate, X-ray device for producing an image of an object on said image plate, and a reading device for reading image information held by the image plate. In connection with the image plate there is a tag containing information for controlling the arrangement in such a manner that when the arrangement has read the information in the tag the arrangement is adapted to perform at least one operation controlled by the information read.

Abstract: A method for identification (ID) verification using a device with embedded radio-frequency identification (RFID) functionality is disclosed. The method comprises capturing, by a camera associated with a client device, an image of an ID document having an embedded RFID chip. The image is transmitted to a server for optical character recognition to extract and recognize printed data associated with the ID document. The client device can receive the printed data from the server and use the printed data to unlock the RFID chip by an RFID reader. Digital data associated with the ID document can be retrieved from the RFID chip and compared to the printed data. If the digital data and the printed data match, the ID document is verified. Otherwise, the ID document is rejected.

Abstract: A washing machine control system includes a tag unit that includes a tag storage unit that stores model information; and a transmitting and receiving unit that transmits the model information based on a mobile device being tagged. The washing machine control system further includes a mobile device that includes a tag communication module that receives the model information based on being tagged by the tag unit; an internet module that receives, from a server, information about a plurality of operation courses associated with the model information; a display that displays information; and a control unit that controls the display to display an operation course list comprising the plurality of operation courses.

Abstract: A server may compare transmission reports received from mobile tag readers to a reporting rule. Each transmission report includes a reported location of the respective mobile tag reader when the respective mobile tag reader received a wireless transmission from a tag. Responsive to a determination that the transmission reports satisfy the reporting rule, an instruction may be generated that instructs a mobile tag reader to reduce how often tag transmission reports are sent to the server. Mobile tag readers may be selected to receive the instruction based on the reported location. The instruction may be sent to the selected mobile tag readers. The sending of transmission reports by tag readers may be reduced.

Abstract: A method for performing data transmission/reception using Near Field Communication (NFC) in a terminal includes loading a preset data transmission/reception policy upon recognizing a target device capable of communication using NFC; acquiring at least one sensing information used to determine a particular data transmission/reception operation; and determining the particular data transmission/reception operation based on the loaded data transmission/reception policy and the acquired sensing information.

Abstract: A codeset is described in a Public Codeset Communication Format (PCCF) as a format block including a plurality of fields having readily decipherable values, such as ASCII character values. One field is a mark/space information field that includes a sequence of mark time indicators and space time indicators for an operational signal of the codeset. A second field is a signal characteristic information field for the operational signal. Signal characteristic information may include carrier on/off information, repeat frame information, toggle control information, and last frame information. The PCCF is a codeset interchange format of general applicability.

Abstract: Systems and methods that use cloud-hosted control system back-up processing to replace the functionality of a failed control panel are provided. Systems can include a remote monitoring station, a remote control panel device, and a local control system installed in a region, the local control system including a local control panel and at least one device. When operating in a normal mode, the at least one device can communicate with the local control panel, the local control panel can communicate with the remote monitoring station, and the remote control panel device can be inactive. When operating in a back-up mode, the remote control panel device can be active, the at least one device can communicate with the remote control panel device, the remote control panel device can communicate with the remote monitoring station, and the local control panel can be inactive.

Abstract: A measuring device for measuring a response of a device under test to a carrier aggregation signal is provided. The measuring device comprises a signal generator configured to generate the carrier aggregation signal, which comprises a first carrier signal and/or a second carrier signal. The measuring device comprises a control unit configured to control the signal generator to user-selectably, individually and dynamically, activate and deactivate the carrier signals within the carrier aggregation signal.

Abstract: A method for near field authentication of sources using an audio transceiver computing device includes scanning a plurality of predetermined frequencies for a free frequency, selecting the free frequency from the plurality of predetermined frequencies, generating a periodic enclosed content message, generating a modulated carrier wave representing the periodic enclosed content message, and transmitting the modulated carrier wave at the free frequency. A method for near field authentication of sources using a microphone input of a receiving computing device includes scanning a plurality of predetermined frequencies to detect a signal using the microphone input, verifying, responsive to detecting the signal, that the signal includes at least one enclosed content message, and extracting a content from the enclosed content message.

Abstract: A system and method provide efficient, secure and highly reliable authentication for transaction processing and/or access control applications in which only biometric input is required from the user. A Personal Digital Key stores a biometric profile that comprises a representation of physical or behavioral characteristics that are uniquely associated with an individual that owns and carries the PDK. The PDK wirelessly transmits the biometric profile over a secure wireless transaction to a Reader for use in a biometric authentication process. The Reader compares the received biometric profile to a biometric input acquired at the point of transaction in order to determine if the transaction should be authorized.

Abstract: A communication apparatus performs wireless communication, determines whether an other communication apparatus is an apparatus that has received permission from a user, based on information written into a memory by the other communication apparatus via another type of wireless communication that differs from the wireless communication. The communication apparatus, in a case where it is determined that the other communication apparatus is an apparatus that has received permission from the user, performs the wireless communication with the other communication apparatus.

Abstract: The present invention is directed to an improved method, system and product to provide wireless ECG patient monitoring. Although embodiments make specific reference to monitoring electrocardiogram signal with an adherent patch, the system methods, and device herein may be applicable to any application in which physiological monitoring is used. The present invention also presents a reliable means for docking the interface while minimizing signal interference and user error. In addition, a novel means for transmitting and receiving a patient's ECG measurements is introduced which includes the use of an epidermal communication network (ECN) and an ECG enabled module for ECN communications and interface. Although embodiments make specific reference to the use of the ECN for ECG measurements, the system methods, and protocol herein may be applicable to any wearable device and/or other smart device which is ECN enabled.

Abstract: One feature pertains to an integrated circuit, comprising an access transistor and an antifuse. The access transistor includes at least one source/drain region, and the antifuse has a conductor-insulator-conductor structure. The antifuse includes a first conductor that acts as a first electrode, and also includes an antifuse dielectric, and a second conductor. A first surface of the first electrode is coupled to a first surface of the antifuse dielectric, a second surface of the antifuse dielectric is coupled to a first surface of the second conductor. The second conductor is electrically coupled to the access transistor's source/drain region. The antifuse is adapted to transition from an open circuit state to a closed circuit state if a programming voltage Vpp greater than or equal to an antifuse dielectric breakdown voltage is applied between the first electrode and the second conductor.

Abstract: A method and system for interrupt based NFC pairing is provided. In a passive NFC tag comprising a primary coil and a secondary coil, an electrical signal may be generated in the secondary coil when an NFC reader energizes one or both of the primary and/or secondary coils. The generated electrical signal may be filtered to remove any undesirable signal components such as noise. An interrupt signal, which may initiate pairing, may be generated based on the generated electrical signal. An NFC tag identifier, which comprises an address of the remote control, may be communicated from the NFC tag to the NFC reader and this may initiate the pairing on the NFC reader. The communicated NFC tag identifier may be utilized by the NFC reader for the pairing. The NFC tag identifier may be over-written with a new NFC tag identifier and the new NFC tag identifier may be locked.

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: The invention relates to a device for monitoring the integrity and soundness of a mechanical structure, such as an aircraft. The device comprises a control unit, a radio frequency transmission means, and an electric battery. The control unit recovers data from a set of digital and/or analog sensors. The radio frequency transmission means enables the control unit to transmit the data received from the sensors to a man/machine interface. The electric battery powers the device and is rechargeable. The device further comprises a module for recovering electromagnetic energy capable of converting the recovered electromagnetic energy into electric power so as to recharge the battery and/or directly power the device.

Abstract: An electronic baggage tag is self-reliant and self-regulating and provides the underlying foundation for a baggage tracking and management system, the center of which operates one or more tag service provider servers. The tag is attached to a baggage and is loaded with various data, including passenger itinerary, GPS data, and journey profile data. The tag has sensors, such for detecting different vibrations, electro-magnetic sensor, GPS, and others. As the baggage to which the tag is attached goes on its journey, the sensors detect stimuli and ascertain where in the journey the baggage is and use itinerary and other data to determine where the baggage should be. The tag service provider server communicates with the tag at various stages in the journey, providing up-to-date itinerary data to the tag. The tag automatically shuts off to be compliant with government regulations for devices in flight.

Abstract: A network control system includes a control apparatus and a controlled apparatus. The control apparatus includes: a first execution unit which executes a first application program for operating the controlled apparatus; a display unit which displays an operation screen; an operational command generation unit which generates an operational command in response to an input by a user to the operation screen; and a first communication unit which outputs the operational command. The controlled apparatus includes: a second execution unit which executes a second application program, and identifies an operation type of the controlled apparatus; an operation type information generation unit; and a second communication unit which outputs the operation type information. The first execution unit generates an operation screen corresponding to the operation type, and the display unit displays the generated operation screen.

Abstract: An electronic baggage tag is self-reliant and self-regulating and provides the underlying foundation for a baggage tracking and management system, the center of which operates one or more tag service provider servers. The tag is attached to a baggage and is loaded with various data, including passenger itinerary, GPS data, and journey profile data. The tag has sensors, such for detecting different vibrations, electro-magnetic sensor, GPS, and others. As the baggage to which the tag is attached goes on its journey, the sensors detect stimuli and ascertain where in the journey the baggage is and use itinerary and other data to determine where the baggage should be. The tag service provider server communicates with the tag at various stages in the journey, providing up-to-date itinerary data to the tag. The tag automatically shuts off to be compliant with government regulations for devices in flight.

Abstract: The a system for measuring distance between an RFID reader and tag, including an adaptive linear combiner, which is a tapped delay line with controllable weights on each tap, and outputs that are summed and subtracted from a reference to produce an error signal. After a sufficient number of cycles, the weight distribution indicates the delay of the received signal with respect to the reference, and by extension determines the distance between the tag and receiver.

Abstract: A system and method are provided for creating a computer program by building a physical structure with a plurality of objects in conjunction with an interactive surface that recognizes such objects and translates the physical structure into a computer program.

Abstract: A near field communication (NFC) operating mode of an image forming apparatus may be set by determining a type of a job to be performed in the image forming apparatus via NFC tagging of a mobile device, determining a first NFC operating mode corresponding to the determined type of the job from among a plurality of NFC operating modes supported by an NFC module, setting the determined first NFC operating mode as an operating state of the NFC module, and performing the job by tagging the mobile device via NFC by using the set first NFC operating mode.

Abstract: Disclosed are an RFID tag for an RFID service and an RFID service method thereof. The present invention includes a tag storage unit including a TID memory and a user memory; and a tag controller that inserts and stores a content name field including content name information related to an item attached with the corresponding tag in the user memory, wherein the tag controller inserts the content name information in a tag response signal according to the request of a peripheral RFID interrogator and transmits it or permits an access to the memory in which the content name field is inserted. The present invention includes and stores the content name information in the identification data stored in the RFID tag to allow a user to select only the desired tag when the interrogator simultaneously recognizes a plurality of tags and receive the desired contents through the network, making it possible to give convenience to a user and reduce time and the using fee of the network.

Abstract: A memory access arbiter (MAA) in an RFID tag is connected to an unique address space (UAS), which comprises a non-volatile memory (NVM), a transferred data memory (TDM) and a status-information memory (SIM) storing information on the status of the transferred data memory (TDM). The transferred data memory (TDM) and the status-information memory (SIM) are volatile memories, e.g. of the RAM type having a memory capacity of 16 bits or 32 bits according to the standard of an applied RFID communication. The RFID tag of the invention provides for a faster communication between an interrogator and an external logic element by one order of magnitude, which is due to fast volatile memories for transferred data as well as for corresponding status information. A still higher communication rate is achieved by introducing a command that has not yet been standardized.

Abstract: A latch, or tag that can be used on luggage, baggage, trunks, rail cars, trailers or any compartment that can be opened and closed that establishes profile data that is associated with the latch or tag and is adapted to store personal data and an identifier in the latch mechanism or on the tag. The profile data can be used to establish a risk factor with the luggage or compartment and/or a person associated with the luggage or compartment.

Abstract: An electronic baggage tag is self-reliant and self-regulating and provides the underlying foundation for a baggage tracking and management system, the center of which operates one or more tag service provider servers. The tag is attached to a baggage and is loaded with various data, including passenger itinerary, GPS data, and journey profile data. The tag has sensors, such for detecting different vibrations, electro-magnetic sensor, GPS, and others. As the baggage to which the tag is attached goes on its journey, the sensors detect stimuli and ascertain where in the journey the baggage is and use itinerary and other data to determine where the baggage should be. The tag service provider server communicates with the tag at various stages in the journey, providing up-to-date itinerary data to the tag. The tag automatically shuts off to be compliant with government regulations for devices in flight.

Abstract: A method on a server for logging and recalling data gathered from a buried asset location procedure is disclosed. The method includes receiving a group of buried asset data points corresponding to a particular buried asset, receiving at a different time a portable transmitter hookup definition associated with the group of buried asset data points, searching for buried asset data points that match, within predefined parameters, the portable transmitter hookup definition, storing the portable transmitter hookup definition in association with the matching points, creating a buffer zone around the portable transmitter hookup, and transmitting to a mobile device the buffer zone for the portable transmitter hookup.

Abstract: Radio Frequency Identification (RFID) tags may receive one or more encapsulated commands within the payload of an encapsulating command from an RFID reader. An encapsulated command includes at least a command code and an instruction. A tag may store the encapsulated command(s) or the instruction portion of the encapsulated command(s) for later execution. A sequence of encapsulated commands may be contained within one encapsulating command or spread across multiple encapsulating commands. The sequence of encapsulated commands, or the sequence of instructions associated with the encapsulated commands, may form a program. The tag may execute the instructions or program upon receipt, upon a trigger event, serially or in parallel, and/or may modify the instructions or program by adjusting parameters. The tag may later be told by a reader to execute the instructions or program via another command which, in some cases, may be sent prior to tag singulation.

Abstract: A system and method for verifying that an operator was sufficiently close to one or more items to be inspected during an inspection to actually inspect the components, and storing an indication to that effect in a memory accessible via a computer network. In addition to the indication, the memory can store other inspection related data, such as a starting time or ending time of the inspection, or maintenance information about the item that was input during the inspection. The system and method enable a third party application, such as an accounting program or a maintenance program, to access any of the inspection related data.

Abstract: The a system for measuring distance between an RFID reader and tag, including an adaptive linear combiner, which is a tapped delay line with controllable weights on each tap, and outputs that are summed and subtracted from a reference to produce an error signal. After a sufficient number of cycles, the weight distribution indicates the delay of the received signal with respect to the reference, and by extension determines the distance between the tag and receiver.

Abstract: A control vehicle for a road toll system on the basis of vehicle-mounted onboard units which can be polled via DSRC radio communications, with the control vehicle comprising at least one DSRC transceiver with at least two antenna systems, which are distributed with a mutual distance over the longitudinal direction of the control vehicle, for polling a passing on-board unit.

Abstract: A portable electronic parking permit tag for vehicles transporting disabled persons, which comprises (a) a memory module for storing data regarding the person(s) allowed to activate the tag, in which the stored data represents at least the personal biometric information of each of the person(s); (b) a biometric identification module for obtaining biometric data of the person trying to activate the tag; (c) a processing unit for operating the tag according to the obtained biometric data; (d) at least one display unit for indicating the status of the tag, whether activated or deactivated; (e) means for deactivating the tag; and (f) means for powering the tag.

Abstract: A radio frequency identification (RFID) tag and a method for operating the RFID tag are provided. The method includes steps of receiving a read command, generating a mode parameter, selecting a simulation situation from a situation group according to the mode parameter, and selectively generating a response signal according to the simulation situation. The situation group includes a first situation and a second situation. The response signal includes virtual identification (ID) information or virtual content information stored in the RFID tag.

Abstract: Various exemplary embodiments relate to an integrated circuit including: a RF interface; a wired interface connectable to a host; a volatile memory having a first block and a last block configured to store data transferred between the RF interface and the wired interface; and a memory controller configured to detect when the last block of the volatile memory has been written and to indicate that the volatile memory is ready to read. Various exemplary embodiments relate to a method performed by a tag including: determining that data is to be received on the first interface; blocking the second interface; writing data from the first interface to a volatile memory; detecting that the last block of the volatile memory has been written; unblocking the second interface; indicating that data is available for reading; blocking the first interface; and reading data from the volatile memory to the second interface.

Abstract: Certain exemplary aspects of the present disclosure are directed toward an apparatus in which a first circuit communicates with a plurality of different types of RFID transponders using radio frequency signals. A second circuit detects and communicates with the plurality of different types of RFID transponders via the first circuit, respectively using a command set for the type of RFID transponder that the first circuit is communicating with. The second circuit, in response to detecting an RFID transponder having configuration data for a new command set, accesses and uses the configuration data for the new command set to update a configuration of the second circuit to enable communication with the new type of RFID transponder.

Abstract: A system and method is disclosed for communicating with sensors/loggers in integrated radio frequency identification (RFID) tags. An RFID reader uses a Communicate With Data Logger Command to communicate with a data logger in an RFID tag. The RFID reader performs data access processes using an Index Register and a Data Register of the RFID tag. The RFID reader selects one of (1) Index Read access (2) Index Write access (3) Data Write access (4) Data Read access with parity and (5) Data Read access with cyclic redundancy check (CRC). The RFID tag performs the requested data access and then performs an error detection process.

Abstract: A wireless media player and a related system and methodology are disclosed. One aspect of the wireless media player system pertains to a virtual connector system, apparatus, and method for the automatic establishment of wireless connectivity with other electronic devices. In one embodiment, the media player device employs the use of integrated Radio Frequency Identification (RFID) technology to exchange communication settings, media capability, and other parameters with an external device that also has integrated RFID technology. The automatic exchange of settings and other information via a proximity-based RFID data exchange allows a media player to quickly establish a secure communication link with another device via a commonly supported wireless protocol such as Ultra Wideband (UWB) or Bluetooth. Another aspect of the media player system pertains to a method of using the captured media capability of the connecting device to customize certain menu options and software parameters in the media player.

Abstract: The subject disclosure provides a system and method for remote monitoring of a subject wearing a sports helmet. In one aspect, the system includes a safety helmet and a sensor integrated with the helmet for continuously gathering head acceleration force data, the head acceleration force data associated with the head movements of a subject. The system also includes a wireless transceiver coupled to the sensor for transmitting the head acceleration force data and a mobile device for receiving the head acceleration force data from the wireless transceiver. The system further includes a database engine for displaying the head acceleration force data to a user.

Abstract: A tag includes an integrated circuit thereon, including memory, antenna means for RF transmission of data acquired by the integrated circuit, a sensor sensing environmental conditions to which the sensor is subjected, the sensor providing signals based on the environmental conditions to the integrated circuit, a thermistor device of increasing the accuracy of the tag by confining on-board calculation data to a resistance domain and leaving conversion of the data to a temperature domain for an external device once the data is retrieved from the tag's memory.

Abstract: The invention relates to a method of operating a RFID system comprising at least one reader (1) and a plurality of wireless data carriers (2), each of which comprise at least one data processing element with slow response (5), wherein the method controls the at least one reader (1) to continuously communicate with one of the plurality of wireless data carriers (2), while at least another one of the plurality of wireless data carriers (2) is processing data with its at least one slow response element (5). The invention further relates to a RFID system comprising at least one reader (1) and a plurality of wireless data carriers (2), each of which comprises at least one slow response element (5), wherein the system is capable to continuously communicate with at least one of the plurality of wireless data carriers (2), while at least another one of the plurality of wireless data carriers (2) is processing data with its at least one slow response element (5).