Abstract: A settlement device includes a packing unit located near a reading unit to pack a commodity, a symbol of which is read by a reading unit, a measuring unit to measure the packed commodity, a light emitting unit, determining means for determining, using data of weight measured, whether the commodity, the symbol of which is read, is packed, and light-emission controller for, if determining that the commodity, the symbol of which is read, is packed, causing the light emitting unit to emit light in a first form and, if determining that the commodity, the symbol of which is read, is not packed, causing the light emitting unit to emit light in a second form.

Abstract: Slot scanners with wakeup systems are disclosed herein. An example slot scanner assembly includes a wakeup system having an infrared (IR) transmitter configured to project IR illumination through a window of the slot scanner and an IR receiver. The IR receiver has a second field-of-view (FOV) directed through the window that overlaps a first FOV of an imaging assembly of the slot scanner by at least 50% at the window and has a second central axis that is non-perpendicular to the window such that the second central axis is tilted downward from horizontal with the slot scanner assembly positioned in a vertical first configuration where the window is in a generally upright orientation. A controller of the slot scanner is configured to activate an illumination system when the IR receiver detects IR illumination reflected from an object in the second FOV of the IR receiver.

Abstract: A system or method can analyze symbols on a set of objects having different sizes. The system can identify a characteristic object dimension corresponding to the set of objects. An image of a first object can be received, and, a first virtual object boundary feature (e.g., edge) in the image can be identified for the first object based on the characteristic object dimension. A first symbol can be identified in the image, and whether the first symbol is positioned on the first object can be determined, based on the first virtual object boundary feature.

Abstract: In some embodiments, a depth map acquisition system, includes a housing, a light source for emitting light to illuminate objects in a scene subject to depth mapping, fixedly mounted to the housing, a mirror tilt actuator, fixedly mounted to the housing, for tilting a mirror fixedly mounted to the mirror tilt actuator, a mirror fixedly mounted to the mirror tilt actuator, for reflecting light from the light source to the objects, and a partially transparent photosensitive detector in the direct path of the light from the mirror to the objects.

Abstract: An optical information reader includes an imaging lens and a lens retainer retaining the imaging lens and assembled, in this state, into the holder. The lens retainer includes a flange bottom surface and end faces as a reference surface that is parallel to an optical axis of the imaging lens. The holder includes a top surface and edge faces as a guide surface. The guide surface is brought into surface contact with the flange bottom surface and the end faces when the lens retainer is assembled into the holder, and is brought into slidable contact with the flange bottom surface and the end faces when the lens retainer is moved along the optical axis. Thus, influence of one-sided blur is minimized in terms of variation in resolution which is measured when obtaining an optimal focus position by changing relative positions of the area sensor and the imaging lens.

Abstract: A reading device according to an embodiment includes a scanner configured to read code information indicated by a code symbol, a holder configured to detachably hold the scanner, a detecting unit configured to detect a first state in which the scanner is held by the holder and a second state in which the scanner is detached from the holder, and a setting-condition changing unit configured to, if the detecting unit detects the second state, set setting conditions relating to the reading by the scanner such that a reading distance of the scanner is shorter than the reading distance in the first state.

Abstract: A scan avoidance monitoring system detects instances in which a respective customer in a retail environment fails to properly scan or tally one or more retail items for purchase. To avoid generating false positives, such as flagging of events as scan avoidances when they really are not or likely are not scan avoidances, the scan avoidance system can be configured to require a level of confirmation by one or more other analyzers to flag a particular circumstance as a scan avoidance.

Abstract: Embodiments of the disclosure relate generally to flicker reduction in a multi-imager environment. Embodiments include methods, computer program products, and apparatuses configured for producing a near-field illumination using a near-field illuminator, the near-field illumination produced at a defined pulse train. A near-field image sensor may be exposed near the start of a near-field illumination pulse, and a far-field image sensor may be exposed between pulses of the near-field illumination. Some embodiments, additionally or alternatively, are configured for detecting an illuminator switch event, deactivating the near-field illuminator source, and producing, using a far-field illuminator source, a far-field illumination. Upon switching the illuminator source, some such embodiments are configured for exposing a far-field illuminator near the start of the far-field illumination pulse, and exposing a near-field image sensor near the start of the next available far-field illumination pulse.

Abstract: An image forming apparatus includes an image forming section, a receiving section, and a controller. The image forming section forms a plurality of images on a plurality of sheets. The receiving section receives a print job including a layout format indicating a layout of the images on the sheets. The controller controls the image forming section based on the print job. Each of the images indicates an image expressed by image data of a single page. The print job includes an instruction to form the images on the sheets according to a plurality of mutually different layout formats.

Abstract: An optoelectronic code reading apparatus is provided that has at least one camera-based code reader having an image sensor for recording image data from a reading zone, that has a control and evaluation unit that comprises a decoding unit for locating code zones in the image data and for reading their code content, and that has a filter unit to determine whether a multiple reading has taken place in which a plurality of codes were read. In this respect, the filter unit is furthermore configured to check the geometry of the code zones in the case of a multiple reading to identify a valid code.

Abstract: A system for generating a 3D image of a scene includes a transmitter, a receiver, a scanning system and a data processing computer. The transmitter includes a pulsed laser generating optical pulses for illuminating the scene, and the optical pulses have a pulse width of less than 20 nanoseconds and a pulse repetition frequency in the range of 20 kHz to 200 kHz. The receiver includes a sensor to detect light scattered and reflected from the scene, and the sensor comprises one or more arrays of Geiger-mode avalanche photodiodes. The scanning system allows the transmitter and receiver subsystem field-of-view (FOV) to interrogate a field-of-regard (FOR) of at least 30 degrees, with update rates faster than once per 5 seconds, resolution higher than 1 million resolution elements per second, and FOR aspect ratios of 1:10 to 1:1. The data processing computer continuously generates 3D point clouds with latency less than 5 seconds, and generates alarms indicating anomalous activity within the scene.

Abstract: A lidar system includes a light source, a scanner, and a receiver and is configured to detect remote targets located up to RMAX meters away. The receiver includes a detector with a field of view larger than the light-source field of view. The scanner causes the detector field of view to move relative to the instantaneous light-source field of view along the scan direction, so that (i) when a pulse of light is emitted, the instantaneous light-source field of view is approximately centered within the detector field of view, and (ii) when a scattered pulse of light returns from a target located RMAX meters away, the instantaneous light-source field of view is located near an edge of the field of view of the detector and is contained within the field of view of the detector.

Abstract: A scanning projector includes a programmable voltage source to provide a programmable voltage to a laser light source. A look-ahead circuit determines future voltage requirements by finding peaks in future pixel data. The programmable voltage may change for each frame of video, for each line of video, or multiple times within each line of video.

Abstract: Disclosed are a portable electronic device and an operation method thereof. The portable electronic device comprises a body, a barcode detector and a barcode decoder. In the barcode detector, a first image capturing module continually captures a barcode image when the portable electronic device is operating in the resting mode, a first buffering module temporarily stores the captured barcode image, and a first image processing module processes the stored barcode stored and counts a number of times when the barcode image has a predetermined pattern feature. When the number of times reaches to a threshold number, the barcode decoder is turned on to capture and decode the barcode image, and the barcode detector is switched to operate in a power-saving mode.

Abstract: A method and apparatus for an identity card having improved security features. The identity card can have a two-dimensional bar code or similar encoding of data allowing for verification of the authenticity of the identity card. The two-dimensional bar code can store security data such as codes or image data that can be decoded and cross-checked against the visible user data to ensure that the card has not been improperly modified.

Abstract: A reader includes a body and a scan member. The body includes a scan zone configured for placing at least one barcode and an electronic tag. The scan member is mounted on the body and is aligned to the scan zone. The scan member includes a barcode reading module and a RFID reader module. The barcode reading module reads barcode information from the barcodes; the RFID reader module reads electronic information from the RFID tag and writes the barcode information into the electronic tag.

Abstract: A code symbol reading system is provided. The code symbol reading system has an object detection subsystem that can be configured to detect only those objects that are positioned at a specified distance from the system. The object-detection subsystem thereby initiates the scanning process only when an object is detected at substantially the specified distance from the system.

Abstract: Various embodiments related to monitoring for optical faults in an optical system are disclosed. For example, one disclosed embodiment provides, in an optical system comprising a light source, a light outlet, and an optical element disposed between the light source and the light outlet, a method of monitoring for optical system faults. The method includes detecting, via a light sensor directed toward an interface surface of the optical element closest to the light source, an intensity of light traveling from the interface surface of the optical element to the light sensor, and comparing an intensity of light detected to one or more threshold intensity values. The method further includes identifying an optical system fault condition based on comparing the intensity of light detected to one or more threshold values, and modifying operation of the optical system.

Abstract: A method of decoding using an imaging scanner having multiple object sensors each associated with an object field of view. The method includes determining a moving direction of the object using at least two of the multiple object sensors. The moving direction of the object points from a first side to a second side of the imaging scanner. The method includes detecting whether a new object is presence with the object sensor located on the first side of the imaging scanner, and upon detecting the presence of the new object within the object field of view of the object sensor located on the first side of the imaging scanner, capturing an image of the new object in memory with the solid-state imager.

Abstract: An apparatus and methods are presented for improving image scanning. A point of sale terminal apparatus, including an imaging scanner, provides information to an operator indicating the optimal scanning position for an optical code for efficient first pass scanning by the imaging scanner. The information includes real-time video from an image capture device of the imaging scanner displayed on an operator's display device.

Abstract: A method of decoding using an imaging scanner having multiple object sensors each associated with an object field of view. The method includes determining a moving direction of the object using at least two of the multiple object sensors. The moving direction of the object points from a first side to a second side of the imaging scanner. The method includes detecting whether a new object is presence with the object sensor located on the first side of the imaging scanner, and upon detecting the presence of the new object within the object field of view of the object sensor located on the first side of the imaging scanner, capturing an image of the new object in memory with the solid-state imager.

Abstract: A method and apparatus for projecting illumination patterns from barcode readers. The apparatus includes a housing, an invisible illumination light source, and a visible illumination light source. The housing comprises a first window located in a generally horizontal plane and a second window located in a generally upright plane that intersects the generally horizontal plane. The invisible illumination light source is operative to project an invisible illumination pattern that is at least partially incident upon the first window or the second window after the invisible illumination pattern is projected out of the housing. The visible illumination light source operative to project a visible illumination pattern out of the housing, and the visible illumination pattern has a visible center ray propagating in a direction different from the invisible center ray of the invisible illumination pattern.

Abstract: A mobile device is described. The mobile device includes a housing having a pistol grip portion. A data acquisition device is positioned in the housing adjacent to the pistol grip portion. The data acquisition device is adapted to acquire data from an object. The data acquisition device generates an electrical signal that is representative of the data. A control activates the data acquisition device. A processor receives the electrical signal from the data acquisition device. A support is worn on a torso of a user. The support supports the housing by the pistol grip portion such that the data acquisition device is positioned to acquire data from the object when the object is located in front of the torso of the user. The support enables hands-free operation of the mobile device.

Abstract: This disclosure describes barcode scanning techniques for an image capture device. The image capture device may automatically detect a barcode within an image while the image capture device is operating in a non-barcode image capture mode, such a default image capture mode. In one aspect, the detection of the barcode within the image may be based on a combination of identified edges and low intensity regions within the image. The image capture device may configure, based on the detection of the barcode, one or more image capture properties associated with the image capture device to improve a quality at which the images are captured. The image capture device captures the image in accordance with the configured image capture properties. The techniques may effectively provide a universal and integrated front-end for producing improved quality images of barcodes without requiring significant interaction with a user via a complicated user interface.

Abstract: An apparatus for, and method of, imaging printed and electronic codes associated with transactions or objects to be processed, support a window on a housing, illuminate the codes through the window with illumination light from an energizable illumination system, capture return illumination light from the illuminated codes through the window with an array of light sensors looking at a field of view of a solid-state, exposable imager, and process the captured return illumination light. A printed code is read by exposing the imager for a first exposure time and by also energizing the illumination system during the first exposure time. An electronic code is read by exposing the imager for a second exposure time that is longer than the first exposure time and by also deenergizing the illumination system during the second exposure time.

Abstract: Systems and techniques for image based bar code scanning. A rotating spinner is positioned to reflect images to an imaging device within the scanner so that a field of view of the scanner encompasses images reflected by the spinner to the imaging device. The rotation of the spinner causes the field of view of the scanner to change. Mirrors positioned and oriented to reflect images to the spinner and from the spinner to the imaging device further shift the field of view of the scanner as the rotating spinner causes images reflected from different mirrors to be delivered to the imaging device so that both cashier and customer side imaging sensing may be employed. The image field may be automatically shifted from cashier side imaging to customer side imaging, shifted based on detection of customer presentation of an item in a customer presentation window field of view, or manually shifted by a cashier.

Abstract: Method of and system for reading code symbols a dual-laser scanning bar code symbol reading system having the capacity to automatically select in a user-transparent manner, and activate either a near-field source of laser illumination, or a far-field source of laser illumination, using an automatic object presence detection subsystem in the near-field portion of the laser scanning field.

Abstract: An automobile auction system to receive scanned automobile bar codes and function bar codes along with location data and to process the scanned bar codes. The system includes a first interface for receiving scanned bar codes, GPS coordinates, scanner ID, and time of scan from a custom scanning device. A second interface is to receive a map of an auto auction facility from a map source. A server is to process the bar codes and the GPS coordinates received from the scanning device and to associate the GPS coordinates to the map of the auto auction facility received from the map source. The system may process bar codes associated with functions, such as employees, shops or staging operations, specific tasks, and work orders. The function bar codes may, for example, assign scanners to employees, record tasks being performed, record employee performing the tasks, and record shop or staging operations opened/completed.

Abstract: An electro-optical imaging reader includes a chassis mounted in a housing, a window spaced from a rear wall of the chassis, an imaging module for capturing return light from a target through the window over an imaging field of view, a controller for operating the reader in a standby state in which no target is read, and for processing the captured return light to read the target during a reading state, and an object sensing assembly supported by the rear chassis wall and spaced from the window. The object sensing assembly senses the presence of an object bearing the target in front of the window by detecting return sensing light from the object through the window over a sensing field of view that at least partially overlaps the imaging field of view, and triggers the controller to change from the standby state to the reading state upon such detection.

Abstract: In a non-reading mode, a bar code is detected by irradiating it with a laser beam from a laser source, power consumption of which is reduced, and it is determined whether or not the detected bar code is correct. The mode is changed from the non-reading mode to a reading mode in which the laser source operates at substantially full power if it is determined that the code symbol is correct. The non-reading mode continues if it is determined that the code symbol is not correct. This enables an auto-trigger function that triggers reading of the bar code automatically. Therefore, it is possible to eliminate conventional parts and/or special-purpose circuits for realizing the auto-trigger function so that the optical-information-reading apparatus can be downsized.

Abstract: An electro-optical imaging reader includes a chassis mounted in a housing, a window spaced from a rear wall of the chassis, an imaging module for capturing return light from a target through the window over an imaging field of view, a controller for operating the reader in a standby state in which no target is read, and for processing the captured return light to read the target during a reading state, and an object sensing assembly supported by the rear chassis wall and spaced from the window. The object sensing assembly senses the presence of an object bearing the target in front of the window by detecting return sensing light from the object through the window over a sensing field of view that at least partially overlaps the imaging field of view, and triggers the controller to change from the standby state to the reading state upon such detection.

Abstract: A scan module in a reader for, and a method of, electro-optically reading symbols, include a light source for directing light at a symbol during reading, a light detector for detecting return light from the symbol during reading and for generating an electrical signal indicative of the detected return light, and an object sensor for sensing an object bearing the symbol and for generating a trigger signal for initiating the reading. The light source, the light detector and the object sensor are all supported by a common chassis.

Abstract: Laser power monitoring arrangements interrupt power to a laser used in electro-optical readers upon detection of operating conditions not conforming to preestablished standards. An auxiliary light detector independently monitors the output power of a laser beam, and directly receives a portion of the laser beam reflected from an optical assembly operative for optically modifying the laser beam.

Abstract: A hand-supportable digital image capture and processing system including a hand-supportable housing having an imaging window, and an area-type image formation and detection subsystem having image formation optics for projecting a field of view (FOV) through the imaging window and upon an object within the FOV, and forming and detecting 2D digital images of the object on an area-type image detection array. The system includes an object presence detection subsystem for automatically detecting an object within the FOV, and generating a first trigger event indicative of automatic object detection within the FOV. The system also includes an object targeting illumination subsystem for generating and projecting a visible targeting illumination beam within the FOV, in response to the generation of the first trigger event signal.

Abstract: In an imaging reader for reading a coded symbol located in a range of working distances from the reader, a solid-state imager captures light from the symbol over a field of view, and a controller automatically determines whether an image of the symbol is located entirely within the field of view of the imager, and processes the symbol only when the symbol image is located entirely within the field of view of the imager.

Abstract: A method and apparatus for reading a target object having areas of differing light reflectivity on the target such as a handheld bar code reader having a first illumination pattern, a detector for measuring a distance from the reader to a target object, a system threshold, and a comparator for evaluating the measured distance against the threshold. Should the reader's internal circuitry and/or software determine that the measured distance is greater than the threshold, a second illumination pattern is activated that has power effective illumination for increasing the operable reading distance between the reader and the target object. The second illumination pattern can be generated from a secondary illumination source or through a lens internal to the reader.

Abstract: A method of enabling anonymous communication between a user and an application server, via interaction of a sensing device with coded data disposed on a surface to generate interaction data, the method including the steps, performed in a computer system, of: identifying a first telecommunication address of the user from: an identity of the sensing device received or determined in the computer system; or the interaction data; associating a temporary telecommunication address with the first telecommunication address; sending the temporary telecommunication address and interaction data to an application; receiving information from the application addressed to said temporary telecommunication address; and forwarding the information from the application to the first telecommunication address.

Abstract: Described is a method and system for barcode decoding. The method comprises receiving an input signal corresponding to a reflection of light from a bar code. The input signal is divided into a predetermined number of segments. Each segment includes a plurality of samples. Each of the segments is represented using at least one of the samples therefrom. At least one sample from each segment is analyzed to determine a location the bar code within the input signal.

Abstract: An automatic digital image capturing and processing system for use in point of sale (POS) environments, comprising a plurality of coextensive area-type illumination and imaging stations, an object motion detection subsystem, a digital image capturing and buffering subsystem, a digital image processing subsystem, and a control subsystem, each being disposed in a system housing having an imaging window. Each coextensive area-type illumination and imaging station has an area-type imaging array having optics providing a field of view (FOV) on the area-type imaging array that projects into a 3D imaging volume definable relative to the imaging window.

Abstract: A method of waking up an in-counter bar code scanner from its standby mode comprises providing a sensor assembly attached to a touch plate. The sensor assembly comprises an oscillating magnet member affixed at one end and a permanent magnet attached at an opposite free end at the end of a flexible member. When a user touches the touch plate, the impact force exerted on the touch plate is transmitted to the oscillating magnet member causing the magnet to oscillate inducing an electrical signal in a pick-up coil provided near the magnet and wakes up the bar code scanner.

Abstract: A method, system, and computer program product for implementing presence detection is provided. The method includes a first mode of a tri-modal application that monitors a field-of-view via a presence detection function of a scanner. The method also includes implementing a second mode of the tri-modal application when a change to the field-of-view is detected and a specified threshold of change is met. The second mode includes activating selected system components of a terminal device, which in turn include a processor and the presence detection function. The second mode also includes fully activating the scanner and monitoring the field-of-view for determining a bar code image. The method further includes initiating a third mode of the tri-modal application when the bar code image is detected at the scanner.

Abstract: A digital image capturing and processing system comprising a plurality of coplanar illumination and imaging stations for producing a plurality of coplanar linear illumination and imaging planes which intersect within a 3D imaging volume defined relative to an imaging window. An object motion detection subsystem for automatically detecting the motion of an object passing through the 3D imaging volume, and generating motion data representative of the detected object motion. Each station includes an illumination subsystem having a linear illumination array including a plurality of light emitting devices for producing a substantially planar illumination beam (PLIB), and (ii) an image formation and detection subsystem including a linear image sensing array having optics providing a field of view (FOV) on the linear image detection array, and extending substantially along the PLIB.

Abstract: Methods are disclosed for triggering a source of visible light in connection with a data reader in response to a sensed proximity of an item. In one configuration, a data reader includes a imaging reader, such as a CMOS imager, that is sensitive to both infrared illumination and visible light. The imaging reader may be operable to read a symbol, such as a barcode or other optical code, via reflected infrared illumination, reflected visible light, or both. When characteristics of reflected illumination received by the imaging reader indicate that presence or movement of an item in the visible scan zone, the visible light source may be triggered to illuminate the item and thereby facilitate reading of the symbol using the same imagine reader as is used to sense the presence of the item. The visible light source may also be triggered to provide visual feedback.

Abstract: Laser power monitoring arrangements interrupt power to a laser used in electro-optical readers upon detection of operating conditions not conforming to preestablished standards. An auxiliary light detector independently monitors the output power of a laser beam, and directly receives a portion of the laser beam reflected from an optical assembly operative for optically modifying the laser beam.

Abstract: A scanned beam imager or laser scanner is operable to scan an object moving through its field-of-view. The system may include means for detecting direction and/or speed of the object. The velocity detection means may include sensors, an interface for receiving velocity information from other system elements, or image analysis that examines the skew, stretch, or compression in images. Responsive to object movement direction and speed, the scanned beam imager may alter its pixel capture rate and/or its scan rate to compensate. Alternatively or in combination, the imager may perform software-based image motion compensation. In some embodiments, the system may allow the image capture region to pace objects moving rapidly through its field-of-view.

Abstract: A method, system and computer program product for detecting false purchases is disclosed. The method includes detecting a motion across a product identifier in a self-service terminal and monitoring for a product identifier. In response to failing to detect the product identifier, an alert signal is transmitted.

Abstract: A barcode sensor package has an optical emitter circuit and an optical detector circuit which are formed as one or more integrated optical circuits disposed in a housing which has a reading surface and one or more apertures located between the optical emitter and detector circuits. The optical emitter circuit has an emitter die, such as a vertical cavity surface emitting laser (VCSEL), for emitting a light beam and a diffraction optical element disposed on the emitter die for focusing the light beam to a bar code. The optical detector circuit has a photodetector die, such as a phototransistor, for detecting reflective light and another diffraction optical element disposed on the photodetector die for guiding light reflected from the bar code to the detector. The diffraction optical elements are fabricated by patterning optical layers, deposited on respective emitter and detector dies, using photolithograph or a direct write process.

Abstract: A method, system and computer program product for detecting false purchases is disclosed. The method includes detecting a motion across a product identifier in a self-service terminal and monitoring for a product identifier. In response to failing to detect the product identifier, an alert signal is transmitted.

Abstract: A method, system, and computer program product for implementing presence detection is provided. The method includes a first mode of a tri-modal application that monitors a field-of-view via a presence detection function of a scanner. The method also includes implementing a second mode of the tri-modal application when a change to the field-of-view is detected and a specified threshold of change is met. The second mode includes activating selected system components of a terminal device, which in turn include a processor and the presence detection function. The second mode also includes fully activating the scanner and monitoring the field-of-view for determining a bar code image. The method further includes initiating a third mode of the tri-modal application when the bar code image is detected at the scanner.

Abstract: An electronic article surveillance (EAS) system including: an EAS device and an EAS range finder system for providing indication as to when the EAS device is within an operational distance from the EAS tag. The system may include a barcode scanner for providing an output having a distinct visible pattern when the operational distance is achieved. An energy source may be provided, and the EAS system may determine when the operational distance is achieved by detection of energy reflected from an article carrying the EAS tag.