Abstract: At least some embodiments of the present invention are directed to barcode readers having a housing with upper and lower portions, and a weigh platter. Additionally, the barcode readers include a first imaging assembly having a first imaging sensor, the first imaging assembly having a first field of view (FOV) directed through at least one of the substantially horizontal window or the substantially upright window of the housing, and a second imaging assembly having a second imaging sensor, the second imaging assembly having a second FOV and being positioned near the distal edge of the weigh platter that is opposite the upper portion of the barcode reader housing.

Abstract: Techniques for weight checking for verification of ticket switching are disclosed herein. An example system includes: a weighing scale; cameras configured to capture images of items passing through a product scanning region and images of barcodes affixed to the items; a processor; and a memory storing instructions that cause the one or more processors to determine a first identification of an item based on the image of the barcode; determine a second identification of the item based on the image of the item; compare the first identification to the second identification to determine whether the two identifications match; based on determining that the two identifications do not match, generate a request for the user to place the item on the weighing scale; determine that the weight of the item does not match a first weight associated with the first identification of the item; and trigger one or more mitigation actions.

Abstract: Imaging devices for imaging or scanning objects using white light are described herein. An example imaging device includes: an imaging assembly having a field of view (FOV) and disposed along an imaging axis to receive reflected light from an object in the FOV, including: an optical element, disposed along the imaging axis of the imaging assembly to receive the reflected light from the object, and a filtering element, disposed to receive at least a subset of the reflected light, the filtering element configured to transmit a first portion of the subset of the reflected light as filtered light and absorb a second portion of the subset of the reflected light, the filtered light comprising wavelengths of light in a predetermined set of wavelengths; a monochrome sensor disposed to receive the filtered light; and a microprocessor that decodes an indicia after receiving the filtered light at the monochrome sensor.

Abstract: A bioptic barcode reader is disclosed for selective use of illumination color to capture appropriate data. The bioptic barcode reader includes a housing and a primary imager positioned within the housing, configured to scan a target object during a first time period. The bioptic barcode reader further includes a primary illumination source positioned within the housing configured to emit primary illumination in a primary wavelength range during the first time period. The bioptic barcode reader further includes a secondary imager configured to capture one or more images of a target object during a second time period. The bioptic barcode reader further includes a secondary illumination source configured to emit secondary illumination in a secondary wavelength range during the second time period, wherein the second time period and first time period are interleaved and the secondary wavelength range is different from the primary wavelength range.

Abstract: At least some embodiments of the present invention are directed to barcode readers having weigh platters. In an example, a barcode reader includes a weigh platter having a central region, a proximal edge region, a first lateral edge region, a second lateral edge region, and a distal edge region, where a the first lateral edge of the first lateral edge region and a second lateral edge of the second lateral edge region extends above a transverse plane defined by the central region.

Abstract: An example bioptic barcode reader includes an imaging assembly, first illumination assembly, and second illumination assembly. No more than 10% of a light source of the second illumination assembly is visible within a boundary of a first imaging FOV of the imaging assembly. No more than 10% of a first mirror is visible within a boundary of a second imaging FOV of the imaging assembly. An upper edge of an aperture in an upper housing portion is outside a boundary of a first illumination FOV of the first illumination assembly. All or substantially all light rays from the second illumination assembly that pass through a horizontal window in a lower housing portion form respective angles relative to horizontal that are equal to or less than a second angle formed between a normal line of the first mirror and horizontal.

Abstract: At least some embodiments of the present invention are directed to barcode readers having weigh platters. In an example, a barcode reader includes a weigh platter having a central region, a proximal edge region, a first lateral edge region, a second lateral edge region, and a distal edge region, where a the first lateral edge of the first lateral edge region and a second lateral edge of the second lateral edge region extends above a transverse plane defined by the central region.

Abstract: A kiosk includes a kiosk housing, a barcode reader, a receipt printer, a display unit, and a processor communicatively coupled to the barcode reader, receipt printer, and display unit. The kiosk has a reader housing having a lower housing portion with an upper surface facing a product scanning region and an upper housing portion extending above the lower housing portion, a horizontal window positioned at the upper surface of the lower housing portion and configured to allow a first light to pass between the product scanning region and an interior region of the reader housing, and an upright window positioned in the upper housing portion and configured to allow a second light to pass between the product scanning region and the interior region of the reader housing.

Abstract: A barcode reader configured to capture interleaved frame types optimized for vision capture and barcode capture are disclosed herein. An example barcode reader is configured to operate in a pre-determined repetitive pattern of capturing a first frame and capturing a second frame over a reading cycle having a fixed duration after a triggering event, wherein the first frame is captured over a first exposure period having a first duration, and the second frame is captured over a second exposure period having a second duration, and wherein the first frame is associated with a first brightness parameter, and the second frame is associated with a second brightness parameter.

Abstract: Barcode readers with transflective mirrors are disclosed herein. An example barcode reader includes a housing and a window positioned within the housing, an imaging sensor and second imaging sensor positioned within the housing, and a transflective mirror positioned within the housing and in a path of a field-of-view of the imaging sensor. The field-of-view of the imaging sensor passes through the transflective mirror and out the window with the transflective mirror in a transmissive state and the field-of-view of the second imaging sensor is reflected off of the transflective mirror and out the window with the transflective mirror in a reflective state.

Abstract: Barcode readers with transflective mirrors are disclosed herein. An example barcode reader includes a housing and a window positioned within the housing, an imaging sensor and an illumination source positioned within the housing, and a transflective mirror positioned within the housing. The field-of-view of the imaging sensor is directed through the window along a first central axis of the field-of-view of the imaging sensor and the illumination pattern from the illumination source is directed through the window along a second central axis of the illumination pattern that is substantially parallel to the first central axis of the field-of-view of the imaging sensor.

Abstract: A method of auxiliary data capture control includes: storing, at a data capture device, (i) detection criteria corresponding to events having respective event identifiers; and (ii) a registration indicator associated with at least one of the event identifiers; controlling a primary data capture sensor to obtain primary captured data; in response to detecting, based on the primary captured data, that the detection criteria are satisfied for a detected one of the event identifiers, determining whether the registration indicator is associated with the detected event identifier; and when the registration indicator is associated with the detected event identifier, controlling an auxiliary data capture sensor to obtain auxiliary captured data.

Abstract: A bioptic barcode reader has a housing having a lower housing portion with an upper surface and an upper housing portion extending above the lower housing portion. A generally horizontal window is positioned at the upper surface, a generally upright window is positioned in the upper housing portion, and an imaging assembly having a primary field-of-view and a set of optical components are positioned within the interior region. The housing has a width greater than or equal to 5 inches and less than or equal to 7 inches, the lower housing portion has a height greater than or equal to 3 inches, the upper housing portion has a height greater than or equal to 4 inches and less than or equal to 6 inches, and the upper surface has a length greater than or equal to 6 inches and less than or equal to 8 inches.

Abstract: Systems and methods for detecting medically related events at a point of sale are disclosed herein. An example method of detecting droplets associated with a sneeze or cough at a point of sale includes: capturing, by an image sensor associated with a checkout workstation, one or more images; analyzing, by one or more processors, the images captured by the image sensor associated with the checkout workstation, to detect an indication that one or more droplets associated with a sneeze or cough are present upon one or more equipment associated with the checkout workstation; and triggering, by the one or more processors, a disinfection of the checkout workstation responsive to detecting the indication that the one or more droplets associated with the sneeze or cough are present upon the one or more equipment associated with the checkout workstation.

Abstract: A weigh platter assembly includes a weigh platter and an off-platter detection assembly having a light emission assembly, a light detection assembly, and a controller. The light emission assembly has a light source to emit a light along a lateral edge of the weigh platter. The light detection assembly detects at least a portion of the light reflected from an object extending across the light beam and includes a sensor offset from the light source and an aperture positioned in front of the sensor and configured to limit a field of view of the sensor along the lateral edge. The controller is configured to provide a first signal in response to a first value received from the sensor and to provide a second signal, different from the first signal, in response to a second value.

Abstract: An imaging system with a shared illumination source is disclosed herein. An example imaging system includes an illumination source configured to emit an illumination pulse that provides illumination during a predetermined period, a first imaging apparatus, a second imaging apparatus, and a processor. The first imaging apparatus comprises: a first imaging sensor configured to capture first image data, and a first imaging control circuitry configured to expose the first imaging sensor. The second imaging apparatus comprises: a second imaging sensor configured to capture second image data, and a second imaging control circuitry configured to expose the second imaging sensor. The processor is configured to: receive the first image data and the second image data, perform an indicia decoding analysis on the second image data, and perform an image analysis on the first image data that does not include the indicia decoding analysis.

Abstract: An imaging system for synchronizing rolling shutter and global shutter sensors is disclosed herein. An example imaging system includes an illumination source configured to emit illumination lasting a predetermined period, a first imaging sensor, and a second imaging sensor. The first imaging sensor is configured to capture first image data representative of an environment appearing within a field of view (FOV) of the first imaging sensor during a first period that overlaps at least partially with the predetermined period, and the first imaging sensor operates as a global shutter imaging sensor. The second imaging sensor is configured to capture second image data representative of an environment appearing within a FOV of the second imaging sensor during a second period that overlaps at least partially with the predetermined period and is different from the first period, and the second imaging sensor operates as a rolling shutter imaging sensor.

Abstract: At least some embodiments of the present invention relate to the field of product scanning systems and arrangements used within a retail venue. In an embodiment, the present invention is a data capture system that includes a scanner pod housing a plurality of scanners, each configured to capture product data; a data capture module communicatively coupled to the scanner pod, the first data capture module configured to capture, via a mobile device associated with a customer, customer data; and a server communicatively coupled to at least one of the scanner pod and the first data capture module, the server being configured to, upon the first data capture module capturing the customer data associated with the customer, associate one of the plurality of scanners with at least one of the customer and the customer data associated with the customer, resulting in an associated data capture device.

Abstract: A kiosk includes a barcode reader module, vision camera, and central processing unit positioned within a housing. The housing defines a front surface and has an upper portion that extends outward past the front surface. The barcode reader module includes an imaging assembly with a first field-of-view that defines a product scanning region. The vision camera is positioned within the upper portion of the housing with at least a portion of the vision camera located forward of the front surface of the housing and has a second field-of-view facing generally downward and intersecting the first field-of-view of the barcode reader module within the product scanning region. The central processing unit is operatively connected to the barcode reader module and the vision camera and is configured to decode barcodes captured by the barcode reader module and perform advanced processing of images received from the vision camera.

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.