Abstract: A technique for mitigating excessive operations attacks in a wireless communication network includes receiving message requests from stations, detecting an excessive operation attack, checking if a received request is a first request or a retry request, and ignoring any first requests. The method can also include saving information about the first request, and wherein if checking reveals that the received request is a retry request, the method further confirms that the retry request and the saved information about the first request meet matching conditions, whereupon the retry request is further processed as normal. Since attacks rarely utilize retry requests, this technique effectively ignores attack messages.

Abstract: A technique for on-demand power wake up for digital signage includes providing 400 a detector operable to detect an envelope of a digital signal, receiving 402 an extended length packet by the detector, wherein the packet consists of a same, repeated data symbol, detecting 404 the extended length packet in the detector to provide an output signal, comparing 406 the output signal against a reference threshold, and providing 410 a wake up signal if the output signal exceeds the reference threshold. This can then be followed by receiving 416 information to display on the sign.

Abstract: In an electro-optical reader, an aiming or a scanning laser has an internal laser chip and a monitor photodiode. A controller deenergizes the chip in a deenergized state, and energizes the chip to emit a laser beam with an output power in an energized state. A positive voltage power supply forward biases and maintains the photodiode at a substantially constant positive voltage below a threshold voltage, to support a substantially constant photodiode leakage current in both states. A signal processor supports a total current comprised of a main photodiode current indicative of the output power of the laser beam in the energized state and of the leakage current which flows opposite to the main current, and removes the leakage current from the total current to output only the main current in the energized state.

Abstract: A method and apparatus for powering a handheld device. The method includes measuring a current withdrawn by the handheld device from a USB port of the handheld device. The handheld device can include a barcode reading arrangement for reading a barcode on a target object. The method also includes withdrawing a supplementary current from an energy storage element in the handheld device if the current withdrawn from the USB port reaches a threshold current value.

Abstract: A technique for inventory monitoring using complementary modes for item identification includes; storing items in known locations within a defined area; tracking a user in the defined area; detecting that the user has removed an item from its known storage location; ascertaining a first identity of the item using first means; scanning the item to obtain a second identity of the item using second means different than the first means; correlating the results from detecting, ascertaining and scanning to determine if there is a discrepancy, and providing an alert if there is a discrepancy. If there is no discrepancy, checkout can proceed.

Abstract: A method and apparatus for using in an imaging scanner. The apparatus includes a solid-state imager, an imaging lens assembly comprising a base lens and a MEMS lens, and an electric circuitry operative to transfer the image captured by the solid-state imager to a decoding circuitry. The imaging lens assembly is configured to focus light reflected from the target object onto the array of photosensitive elements in the solid-state imager by passing the light reflected from the target object through the base lens followed by the MEMS lens.

Abstract: An optical code reading system includes an imaging engine having an illuminating assembly for illuminating a potential target area; an imaging assembly including an imaging sensor for acquiring a native image of a potential target area; and circuitry for converting the native image of a potential target area to a data signal and outputting the data signal. The data signal includes potential target area data indicative of low and high resolution representations of the native image; and at least one processor that includes means for receiving the data signal and separating the potential target area data included within the data signal into at least first and second groups of pixels indicative of the low and high resolution representations. The processor may also receive intermediate resolution representations. A corresponding imaging engine and processors capable of implementing the method of separating the high, low and intermediate resolution representations are also disclosed.

Abstract: An arrangement for, and a method of, controlling image exposure in an imaging reader for reading symbols, employ an illuminating light assembly for illuminating a symbol with illumination light, a solid-state imager for capturing return light from the symbol over a field of view, and a controller for successively exposing the imager over a first exposure time period to capture the return light from, and to optimally image, a first area of the symbol, and over a second exposure time period to capture the return light from, and to optimally image, a second area of the symbol. The first and the second areas have different light intensity levels. The first and the second exposure time periods are different in duration. The controller is operative for combining the optimally imaged first and second areas to read the symbol.

Abstract: A headset comprises an arrangement and a display. The arrangement is situated at least partially on a head of a user. The display is coupled to the arrangement and capable of displaying a pointing device to the user. The headset is coupled to a mobile device which includes a sensor. When the mobile device is moved, the sensor detects a direction of the movement to generate corresponding direction data. The display displays to the user a corresponding movement of the pointing device which is determined as a function of the corresponding direction data.

Abstract: A method for security and monitoring within a worldwide interoperability for microwave access (WiMAX) network includes monitoring, by one or more sensors, communications activity on one or more channels; analyzing, by either one or more sensors directly or a server provided with reports of the monitored communication activity for detection of one or more system incidents; and triggering, in response to detection of one or more incidents, an incident notification.

Abstract: A multi-window scanner (10) and method (500) of operating multi-window scanner for imaging a target object (44) and auxiliary object (204) includes a housing (16) supporting a first window assembly (22) for scanning a target barcode (42). The scanner also comprises a first scanning system (34) having one of an imaging camera (208/209) and a laser light source (38) positioned within the housing defining a field of view for reading the target barcode upon the target object. The scanner further comprises a second window assembly for reading auxiliary data (206) from an auxiliary object (204) relating to one or more target objects being scanned and a second scanning system (202) positioned within the housing for imaging the auxiliary data from the auxiliary object through the second window assembly (28).

Abstract: The present disclosure concerns a bar code reader 10 that can both interpret bar codes and image documents. The bar code reader includes a housing including a vertical and a horizontal transparent window H, V and defining a housing interior region. As a target object is swiped or presented in relation to the transparent windows an image of the target object is captured. Cameras C1-C6 have image capture sensor arrays positioned within the housing interior region for capturing an image of an object within a camera field of view. Two specific cameras can capture the front and back images from a document such as a check 100 placed on the horizontal transparent window.

Abstract: A method of improving the performance of an imaging reader includes (1) illuminating a symbol by projecting illuminating light on the symbol from the imaging reader, (2) capturing return light form the symbol as pixel data over a two-dimensional field of view of a solid-state imager having a matrix of image sensors, (3) reducing the number of pixels to generate reduced pixel data, (4) transmitting the reduced pixel data to a decoding circuit.

Abstract: A system and method configures an electronic device. The method comprises detecting a coupling of a peripheral device to a host device. The peripheral device appears as a compound device including an interface device and a communications device. The method comprises identifying a protocol utilized by the communications device. The method comprises generating a communications link between the communications device and the host device when the protocol is compatible with a driver of the host device.

Abstract: A method utilizing an imaging-based bar code reader to identify a desired acquisition area within a captured image frame, the desired acquisition area including a target bar code and an extent of the desired acquisition area bounded by a border featuring: identifying a region of the captured image frame corresponding to an image of the target bar code; determining a reference point within the imaged target bar code; determining a reference point within an image of the desired acquisition area; searching for an image of the border of the desired acquisition area; identifying the imaged border of the desired acquisition area; and saving in memory a portion of the captured image frame corresponding to an image within the imaged border.

Abstract: An imaging module or reader for electro-optically reading both far-out and close-in, one-dimensional symbols located at variable working distances from the module or reader, includes a solid-state imager having a linear array of image sensors arranged in a single row for capturing return light from the symbols, and an imaging lens assembly for adjustably focusing the return light onto the linear array of image sensors to enable the symbols to be read.

Abstract: A system comprising a transmitter element creating an interrogation signal and transmitting the interrogation signal and a receiver element receiving a reflection signal of the interrogation signal and combining the reflection signal and a feedback signal to cancel at least a portion of radio frequency echo signals in the reflection signal.

Abstract: Described is a system having a mobile station and an access point which connects the mobile station to a network. The mobile station has a first mode of operation and a second mode of operation. In the first mode of operation, the mobile station transmits a data packet intended for a further mobile station to the access point and the access point transmits the data packet to the further mobile station. In the second mode of operation, the mobile station transmits the data packet intended for the further mobile station directly to the further mobile station.

Abstract: The present disclosure describes a system for tracking store-items placed in a storage space. The system includes a plurality of wireless RFID readers distributed within the storage space such that at least one store-item, having an RFID tag attached, is within an interrogation range of at least one of the wireless RFID reader. The system further includes a monitoring server operative to communicate wirelessly with the a plurality of wireless RFID readers to obtain information collected by the plurality of wireless RFID readers from the RFID tag attached to the at least one store-item.

Abstract: A substantially uniform distributed illumination pattern of light is generated on and along a symbol to be read by image capture. A solid-state imager is mounted on a tilted printed circuit board in a tilted handle of an ergonomic reader. An imaging lens assembly captures return light over a field of view from the symbol along an imaging axis, and projects the captured return light onto the imager. An illumination light source is mounted on the board for emitting illumination light at an acute angle of inclination relative to the imaging axis. An optical component includes a first lens portion with a polynomial incident surface for intercepting, bending and aligning the emitted illumination light to generate the pattern in a scan direction along the symbol, and a second lens portion with a toroidal or cylindrical aspherical surface for collimating the aligned illumination light to generate the pattern in a transverse direction.