A base station or handheld device can be equipped with a latch system or a multi-hinge arrangement for electrical contacts. The latch system can be adjustable between different latching configurations in which the base station and handheld device are retained together by different degrees. The multi-hinge arrangement can provide rotation about multiple axes to provide rolling contact between electrical contacts of the base station and the handheld device.

A handheld code reader may include a main structure, a handle extending from the main structure, and a trigger configured to be pulled by a finger of a user holding the handle. The code reader may further include a conductive element, an antenna configured to sense an inductive change caused by the trigger moving the conductive element, and electronics in electrical communication with the antenna, the electronics configured to determine when the inductive change is indicative of a user selecting to activate a pre-trigger aiming function.

A system and method for managing large numbers of computing devices in a data center are disclosed. The computing devices are configured to flash their indicator lights in a pattern that encodes a device ID, and an image capture device such as a mobile phone or tablet captures the flashes in a series of images/video of the data center. The images/video are processed to create a three-dimensional (3D) model of the data center with computing device IDs positioned therein. The 3D model, including correctly positioned device ID indicators, can be rendered for the user of the mobile device to enable the user to more easily identify computing device locations.

Image data from a camera and depth information from a depth sensor, such as a LiDAR system, are used to segment an image for decoding an optical pattern. The image data is spatially correlated with the depth information. The depth information is used to partition the image into one or more foreground segments and one or more background segments. Scanning for the optical pattern is performed on the one or more foreground segments.

Methods and apparatus for providing out-of-range indications are disclosed. An example imaging reader includes an image sensor and an optical assembly. The imaging reader may include a distance determining module configured to determine a distance to a target. The imaging reader may include an indication determining module configured to determine an out-of-range indication when the distance satisfies a first condition. An indicator may be included and configured to present the out-of-range indication. The image sensor may be configured to capture a representation of an image of the target when the distance satisfies a second condition. The imaging reader may include an indicia decoder configured to decode an indicia in the representation to determine an indicia payload and/or a communication interface to convey the indicia payload to a host system.

To suppress an increase in processing time due to a load of inference processing while improving reading accuracy by the inference processing of machine learning. An optical information reading device includes a processor including: an inference processing part that inputs a code image to a neural network and executes inference processing of generating an ideal image corresponding to the code image; and a decoding processing part that executes first decoding processing of decoding the code image and second decoding processing of decoding the ideal image generated by the inference processing part. The processor executes the inference processing and the first decoding processing in parallel, and executes the second decoding processing after completion of the inference processing.

A digital receipt system includes a digital receipt device that is used to process the sale information and generate a digital receipt that can be wirelessly transmitted to a cooperating application on a smart phone that allows the user to view and manage their receipts. In the present system, a device having an optical scanner is communicably connected to the existing point-of-sale system. A unique barcode is then generated on the cooperating application on the smart phone for a user. The barcode is then scanned by the device and a digital receipt is transmitted to the user over a wireless network.

Embodiments of the present disclosure provide an alternative illuminator assembly and corresponding imaging assemblies utilizing the alternative illuminator assembly. The alternative illuminator assembly may provide alternative illuminations from those produced by an imager engine, such that the alternative illuminations may provide specific illuminations at specific illumination angles to illuminate a field of view for a desired purpose. In an example context, the alternative illuminator assembly provides one or more alternative illuminations for improving the likelihood of successfully reading specific direct part marking indicias of various types. Embodiments are provided using overlapping subassemblies that enable a small form factor assembly that can fit into mobile apparatus chasses, for example within conventional cell phone housings of around 7 millimeters. The alternative illuminator assembly may be provided together with a small form factor imaging engine, having one or more imager, to improve the direct part marking reading capabilities of the multi-sensor imaging apparatus.

Example methods and apparatus to provide radial aiming patterns are disclosed herein. An example assembly includes an imaging assembly configured to capture an image of a portion of an environment in a field of view (FOV); and an aiming light generator configured to form an illuminated radial aiming pattern and present the illuminated radial aiming pattern to enable the portion of the environment to be positioned within the FOV, the illuminated radial aiming pattern including an illuminated central mark in a central area of the illuminated radial aiming pattern, an illuminated first line, an illuminated second line, an illuminated third line, and an illuminated fourth line, wherein the first line, the second line, the third line, and the fourth line extend outward from the central mark and are angularly distributed about the central mark.

A ruggedized triggering handle device for a mobile scanning system supports a mobile device (tablet, smartphone) attachable by a bracket on the upper surface of the handle. The handle may establish a wireless link to the mobile device; a trigger of the handle device includes a magnetic switch which, when driven proximate to a triggering element enclosed within the handle, causes the triggering element to transmit key codes and instructions via the wireless link, enabling the user to trigger applications and peripheral sensing components (e.g., readers, scanners, imagers) of or proximate to the mobile device via the handle. The peripheral sensing components may be modular elements attachable between the upper and lower portions of the handle device, either individually or serially as needed, and operable via the trigger or the additional buttons without the need for visual reference to the handle.