Proposed is an identification code for visually impaired people on printed matter to enable people with visual impairments to understand the information printed on the packaging or the contained product's information. In terms of printed matter with this identification code for visually impaired people, the identification code for visually impaired people is readable by a mobile device that has a camera and a specified code reading function, is displayed on the surface of the printed material, has Braille-like convex points projecting outward at multiple points around the identification code for visually impaired people, and has a predetermined distance from center to center of each convex point that is greater than the distance from center to center in the most laterally separated raised dots in adjacent Braille cells.

A method for identity (ID) verification, including:

acquiring one or more ID indications of at least one item using a hand held verifying device;
automatically verifying by the verifying device a desired relation between the one or more acquired ID indications and stored verification data associated with the verifying device;
physically marking the item using the verifying device with a verifying marking if the desired relation is automatically verified.

A method for identity (ID) verification, including:

acquiring one or more ID indications of at least one item using a handheld verifying device;
automatically verifying by the verifying device a desired relation between the one or more acquired ID indications and stored verification data associated with the verifying device;
physically marking the item using the verifying device with a verifying marking if the desired relation is automatically verified.

A system and method for providing animated feedback for a barcode scanning system may include receiving image data from a camera, processing the image data, detecting a machine-readable indicia in the image data, and attempting to decode the machine-readable indicia. In response to successfully decoding the machine-readable indicia, displaying a first animation indicative of successfully decoding the machine-readable indicia. Otherwise, in response to not successfully decoding the machine-readable indicia, displaying a second animation indicative of not successfully decoding the machine-readable indicia.

A method and system for transferring encrypted data from a first electronic device to a second electronic device. The method includes the steps of displaying a first encrypted two-dimensional code at the output interface of the first electronic device, reading the first encrypted two-dimensional code with the input interface of the second electronic device, and decrypting the first two-dimensional code with the second electronic device, generating a second encrypted two-dimensional code with the second electronic device, and displaying the second encrypted two-dimensional code on the output interface of the second electronic device, reading the second two-dimensional code encrypted with the input interface of the first electronic device and decrypting the second two-dimensional code with the first electronic device and generating an action on the first electronic device based on the second decrypted two-dimensional code. The second two-dimensional code is a plurality of two-dimensional codes.

The invention features an image reader and a corresponding method for capturing a sharp distortion free image of a target, such as a one or two-dimensional bar code. In one embodiment, the image reader comprises a two-dimensional CMOS based image sensor array, a timing module, an illumination module, and a control module. The time during which the target is illuminated is referred to as the illumination period. The capture of the image by the image sensor array is driven by the timing module that, in one embodiment, is able to simultaneously expose substantially all of the pixels in the array. The time during which the pixels are collectively activated to photo-convert incident light into charge defines the exposure period for the sensor array. In one embodiment, at least a portion of the exposure period occurs during the illumination period.

A barcode reader, an imaging engine, and an optical assembly and method for assembling such to maintain stability through physical shock and to control decentration are disclosed herein. An example optical assembly includes an actuator, adjustable lens group, and rear lens group. The actuator includes an inner carriage, wherein one or more inner walls of the inner carriage are at least partially threaded. The adjustable lens group includes a first lens element, wherein the first lens element is threaded and held in place by the at least partially threaded one or more inner walls of the inner carriage, and a second lens element, wherein the second lens element is coupled to the first lens element, and further wherein the second lens element is fixedly co-located to the first lens element. The front lens group is actively aligned to the rear lens group, which includes one or more fixed optical elements.

There are provided systems and methods for detection of fraudulent displayable code data during device capture. A user may utilize a computing device to capture data at a certain location, such as imaging a QR code or reading an RFID reader. However, without knowing that those codes or devices are safe, the user make risk a computing attack on their device. Thus, processes herein provide a manner to detect when codes or devices are unsafe based on the additional data detected when encoded data is captured. In such instances, those codes and devices may be detected as fraudulent and the user may receive a warning of malicious computing attacks. Additionally, the user may be guided to valid codes and devices to utilize and may further receive information on removing such computing attacks.

Methods of detecting scan avoidance events are disclosed herein. An example method includes measuring, by a weighing scale associated with a barcode reader, an unstable weight over a timeframe having a duration that is greater than a threshold duration. The method further includes monitoring for (i) the barcode reader's failure, during the first timeframe, to transition from a first state in which an imager of the barcode reader does not transmit images for decoding to a second state in which the imager captures images over an FOV including a product scanning region and transmits the captured images for decoding; or (ii) the barcode reader's failure to decode a barcode from images captured over the FOV including the product scanning region during the first timeframe; and generating an alert indicating a potential scan avoidance event responsive to both the measured unstable weight over the timeframe and one of (i) or (ii).

A focusing device for an optical system that has a carrier and an objective arranged thereat comprises a first guide section that is configured for fastening to the carrier or is designed in one piece therewith, a second guide section that forms a holder for the objective, at least one spring element that forms an elastic connection of the first guide section to the second guide section, and an actuator for adjusting the second guide section in and against an adjustment direction with respect to the first guide section, wherein the spring element is areal at least regionally. The spring element has at has one stiffening zone in which a first surface section of the spring element is bent over along a bending edge with respect to a second surface section of the spring element.