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: A system includes a terminal, a wireless access network, a multimedia core network and a network device, which connects the wireless access network to the multimedia core network, expanded location updating to the registration procedure of the multimedia core network, and performs double registration of the user to the multimedia core network. The terminal performs expanded location updating relaying the registration point identity of the multimedia core network, the user's phone number and the private user identity to the network device in connection with normal location updating signaling. In the double registration performed by the network device, two addresses are registered for the user of the terminal, one of which is associated with the domain name of the terminal in question or a numeric IP address, and the other to a domain name of the network device or a numeric IP address.

Abstract: Processing a transponder signal received from a transponder may include providing a first signal that is in-phase with the transponder signal and a second that is off-phase with the first signal. A first transformed signal is generated using the first signal, where the first transformed signal has a first characteristic equal to the first characteristic of the first signal and a second characteristic different from the second characteristic of the first signal. A second transformed signal is generated using the second signal, where the second transformed signal has a first characteristic equal to the first characteristic of the second signal and a second characteristic different from the second characteristic of the second signal. Information incorporated in the transponder signal is obtained using a combination of the first transformed signal and the second transformed signal.

Abstract: A tamper-resistant certification device receives a certified digital time stamp from a trusted third party, resets a time function and produces a time stamp receipt in an on-line mode; The tamper-resistant certification device receives a digital file from a mobile computing device, and produces a certified digitally signed digital file including a copy of the digital file, time stamp receipt and temporal offset in an off-line mode to evidence the content of the digital file within a defined tolerance of a day and/or time. A processor may be portioned into tamper and non-tamper resistant portions.

Abstract: A wireless communication system having a terminal unit operates in a reduced noise state during receipt of a wireless transmission from a control unit. The terminal unit includes terminal circuitry, a radio and noise management circuitry. The noise management circuitry partially or fully disables operation of the terminal circuitry during a receipt by the radio. Noise management circuitry may disable a terminal processor, disable interrupts, buffer interrupts and otherwise modify operation of the terminal circuitry to reduce generated radio noise that would otherwise interfere with receipt of data by the radio. The wireless communication system includes noise management circuitry located in a control unit that operates in conjunction with noise management circuitry in a first terminal unit and a second terminal unit to schedule transmissions from the control unit. These scheduled transmissions allow the terminal units to perform required processing functions outside of the reduced noise period.

Abstract: One embodiment of a method for identifying a codeword as an erasure in a Quick Response code (QR code) captured by a bar code reader includes, identifying the scrambling mask used for encoding the data in the QR code. A location of the codeword in the QR code corresponds with a portion of the scrambling mask. The codeword comprises multiple codeword bits and the portion of the scrambling mask comprises multiple mask bits. The method further includes, generating an unscrambled codeword by performing a logical operation between each of the multiple codeword bits and each of the multiple mask bits, generating a reference matrix by applying the scrambling mask to a uniform matrix, and/or comparing the unscrambled codeword with the reference matrix to determine whether the codeword is the erasure.

Abstract: An automated ticketing and boarding (ATB) device may replace both legacy boarding pass printers and gate readers, without reconfiguring existing departure control systems (DCSs). The replacement ATB device may create a virtual magnetic stripe in memory from the formatted flight and/or passenger information received from the DCS, and may extract portions of the virtual magnetic stripe to form a boarding pass with an optical machine-readable symbol instead of a magnetic stripe transparently to the DCS.

Abstract: A thermal printer includes a capacitor and a power converter operable to step a voltage of a power source, and coupled to charge the capacitor. Printing is controlled based at least in part on a charge state of the capacitor. Delays in charging the capacitor may be avoided where a current line of print data is blank. Operation may be curtailed where the voltage of the power source is below a threshold.

Abstract: A radio frequency identification system comprises a radio-frequency identification substrate and an interrogator. In one embodiment, the radio-frequency identification substrate comprises a plurality of radio-frequency identification devices. In one embodiment, a first radio-frequency identification device on the substrate monitors an indication of a response of a second radio-frequency identification device on the substrate to an interrogation signal and selectively responds to the interrogation signal based on the monitoring of the indication.

Abstract: A carrier structure has a plurality of cells. A corresponding plurality of objects having data carriers, such as radio frequency identification (RFID) tags, is placed in each cell. Each cell has an indicator associated therewith and is defined by walls that substantially prevent waves (such as RF waves) from propagating between cells. A control module is coupled to the carrier structure and is operative to selectively activate individual ones of the indicators. An automatic data collection device (such as an RFID reader) interrogates the data carriers of the objects placed in the cells, and the data carriers can provide response signals to the data collection device. The control module also monitors the response signals using an antenna present in each cell. If the data collection device selects a particular one of the responsive data carriers, the data collection device provides a notification signal to the control module to notify the control module of the selection.

Abstract: A system and method of scanning machine-readable symbols with a signal source modulated by a local oscillator to create by heterodyne mixing upconverted signals at the sum and difference frequencies of the local oscillator frequency and the frequency of the time-varying reflectance off the scanned symbols is disclosed. The reflected heterodyned signal is detected by a receiver. Ambient noise is filtered out from the reflected signal, and the received signal at the sum and difference frequencies is processed.

Abstract: A RFID monitoring system, which can be used to track and identify RFID tags and tag readers as they are used, can include a computing device including an RFID tag database for storing a list of authorized RFID tags that have been licensed by an intellectual property owner or licensee. The monitoring system may be configured to receive transmitted RFID tag data relating to the location, date, and/or time of detection of tags and other devices. Based on a statistical analysis of this data, the system can determine whether RFID tags and devices are authorized by a rights holder. Other features and embodiments are also disclosed.

Abstract: Spatial antenna diversity is used with RFID tags to reduce sensitivity to multi-path fading. RFID tags can use a single multi-port chip or multiple multi-port chips. The ports of the chip or chips are coupled to separated feedpoints on one or more antennas.

Abstract: Obscured radio frequency identification (RFID) tags are indirectly read by an RFID reader. Other tags operate to relay the information associated with the obscured tags from one tag to another, until the associated information is ultimately received by the RFID reader from a tag in direct communication with the RFID reader. The tags may be adapted to store the received information associated with the obscured tags and then to encode this associated information and resident information in return signal(s) transmitted to the RFID reader and/or to other tag(s). The RFID reader is adapted to decode the received return signals to obtain the information encoded therein, and to process the decoded information to identify irrelevant tags and obscured tags.

Abstract: The invention provides a system and method for remotely diagnosing and repairing a plurality of device platforms. A remote service technician utilizes a computing system having browsing software that communicates with a network of platform devices.

Abstract: An improved computerized device and system for data collection and communication. The system can include component identification capability, multiple communication options, multiple optical reading and imaging options and multiple audio components. Further, the computerized can include a removable shock protection system. Multiple additional features and combinations of features are also disclosed.

Abstract: A content player receives a content carrier, which includes a first computer readable medium and a second computer readable medium, and determines whether a valid license exists for accessing content or a segment of content carried in the first computer readable medium. The first computer readable medium includes a first authorization token, and the second computer readable medium includes a second authorization token. The first and second authorization tokens or some portions thereof are associated with each other and are associated with the segment of content. The content player uses at least the first and second authorization tokens in determining whether to grant access to the segment of content.

Abstract: An automatic data collection device, such as a scanner-type device, is provided with an afocal optical element, such as an afocal lens, that operates in conjunction with a scanning mirror to scan a target machine-readable symbol using a scanning beam. The scanning mirror deflects a light beam into the afocal lens. The afocal lens operates to change a resolution or width of the scanning beam for far-field scanning, for example, where resolution is increased by the afocal lens. The afocal lens can also operate to change the resolution or width of the scanning beam for near-field scanning, for example, where resolution is decreased by the afocal lens.

Abstract: One or more media is provided for performing a method of utilizing location-based data to manipulate power states of one or more embedded devices on a mobile device. Initially, location-based data from a positioning system (GPS satellite) is received. Generally, the location-based data relates to a global position of the mobile device. The location-based data may then be applied to a set of positional rules, which includes comparing the position-based data against the one or more predefined positional coordinates. Accordingly, the appropriate power level of one or more embedded devices may be determined. Further, if the determination indicates that a present power level of the embedded devices conflicts with the determined appropriate power state, the power state of the conflicting embedded devices is manipulated consistent with the positional rule. As such, this configuration provides for a useful power-management scheme that preserves battery life.

Abstract: An optoelectronic reader for reading machine-readable symbol such as barcode symbols employs a detection subsystem having an RX concentrator. The detection subsystem may include an N-tuple RX concentrator. The RX concentrator may define an optical path for light to illuminate the machine-readable symbol.