A barcode reader having lower and upper housings, a weigh platter in the lower housing, and an off-platter detection assembly. The weigh platter has a proximal edge adjacent the upper housing, a first lateral edge, and a distal edge. The off-platter detection assembly comprises an off-platter indication system having a plurality of linearly aligned light sources, each light source representing a location along the first lateral edge, and controller operatively coupled to the plurality of light sources. The controller is configured to: determine if an object extends over the first lateral edge; determine a location of the object along the first lateral edge; and illuminate a first portion of the light sources representing a distance between the proximal edge of the weigh platter and the object and de-illuminate a second portion of the light sources representing a distance between the object and the distal edge of the weigh platter.

Scanner/scale configuration is performed without scanning a series of programming barcodes and performed when a terminal is in a transaction processing mode of operation. A single code scanned into the scanner, initiates a configuration tool on the terminal and causes a graphical user interface (GUI) window to be rendered on a display of the terminal on top of any transaction windows rendered on the display. The GUI window permits user-defined configuration of the scanner/scale. In an embodiment, the configuration tool also provides a clone code that represents a source scanner/scale's configuration settings, when the clone code is scanned into a target scanner, the source scanner/scale's configuration settings are cloned on the target scanner/scale.

A method is disclosed for adjusting imaging parameters of a bioptic barcode reader. The method includes capturing, by an imaging assembly, an initial image of a target object having an indicia thereon. The imaging assembly captures the initial image according to an initial imaging parameter. The method further includes attempting to decode the indicia from the initial image, and responsive to being unable to decode the indicia, detecting a substantially static presence of the target object within a field of view (FOV) of the imaging assembly. The method then includes, responsive to detecting the substantially static presence of the target object within the FOV, adjusting the initial imaging parameter to a subsequent imaging parameter, wherein the subsequent imaging parameter is different than the initial imaging parameter.

Methods of detecting scan avoidance events during decode sessions are disclosed herein. An example method includes during a timeout period at one or more processors of the symbology scanner, identifying and decoding a transaction affecting indicia on an object in one or more images to obtain a transaction affecting payload; during the timeout period at the one or more processors, identifying one or more visual features in the one or more images; and in response to identifying a non-transaction affecting indicia associated with the one or more visual features, and failing to identify or decode the transaction affecting indicia, determining a potential scan avoidance attempt and generating a scan avoidance alarm signal.

Disclosed in the present specification is a self-checkout device to which hybrid product recognition technology is applied and which helps a user to more conveniently and quickly make a payment. The self-checkout device according to the present specification photographs a product with a plurality of cameras, and then recognizes a barcode by detecting a barcode region from the captured images and, simultaneously, extracts a feature point of the images such that a product can be recognized through the calculation of the proportion that matches with a reference image of the product. Thus, a product can be quickly recognized through barcode recognition and packaging paper recognition in a product image.

The disclosure includes a fixed retail scanner including a data reader. The data reader includes illumination assemblies that include different LED sub-groups that are co-located within its respective assembly. These illumination assemblies may be identically constructed and installed at various positions within the data reader to provide active illumination for the camera modules. Illumination assemblies are activated together, but only with the first sub-groups from each of the illumination assemblies being activated together at a first time, and only with the second sub-groups from each of the illumination assemblies being activated together at a second time.

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 width less than or equal to 6 ¾ inches and the barcode reader, receipt printer, and processor are within the kiosk housing. The barcode reader has a reader housing, an imaging assembly, a window configured to allow a light to pass between a product scanning region and an interior region of the reader housing, and a set of optical components configured to direct a field-of-view of the imaging assembly through the window.

Barcode readers and barcode reader assemblies with lift handles are disclosed herein. An example bioptic barcode reader assembly includes a barcode reader having a housing and a metal frame secured to the housing. A retractable first lift handle having an elongated first aperture is positioned on a first side of the housing and a retractable second lift handle having an elongated second aperture is positioned on a second side of the housing, opposite the first side. Each of the first and second lift handles is movable relative to the housing between a retracted position and an extended position and the first and second apertures in the first and second lift handles overlie a first center of gravity of the barcode reader and a second center of gravity of the barcode reader assembly.

A merchandise registration apparatus includes: a first reading unit to form a first reading area in which a code symbol attached to merchandise can be read; a second reading unit provided at a location different from that of the first reading unit, and to form a second reading area overlapping with at least a part of the first reading area, in which the code symbol can be read; a first acquisition unit to acquire first code information; a second acquisition unit to acquire second code information; and a registration unit to register the merchandise based on the first code information and the second code information, if the first code information and the second code information match each other.

Example methods and apparatuses to indicate off-platter weigh conditions are disclosed herein. An example barcode reading and weighing apparatus includes a weigh platter; a scale; an off-platter detection assembly configured to detect an off-platter weigh condition; a processor in communication with the scale and the off-platter detection assembly; and a non-transitory machine-readable storage medium storing instructions that, when executed by the processor, cause the barcode reading and weighing apparatus to, responsive to detecting the off platter condition: compose a weight-conveying message, the weight-conveying message including (i) a weight-conveying field having the weight encoded therein and (ii) overhead information, the overhead information being operative, when the weight-conveying message is received by a POS system, to cause the POS system to not accept the weight for the transaction, the overhead information also not indicating the off-platter weigh condition to the POS system; and send the weight-conveying message to the POS system.