Dimensioners and methods for dimensioning an object includes capturing, using a dimensioning system with a single sensor, at least one range image of at least one field-of-view, and calculating dimensional data of the range images and storing the results. Wherein, the number of views captured of the object is automatically determined based on one of three modes. The first mode is used if the object is a cuboid, or has no protrusions and only one obtuse angle that does not face the point of view, where it captures a single view of the object. The second mode is used if the object includes a single obtuse angle, and no protrusions, where it captures two views of the object. The third mode is used if the object includes a protrusion and/or more than one obtuse angle, overhang, protrusion, or combinations thereof, where it captures more than two views of the object.

An electronic module for a wearable sensor system including a housing, a support frame, a sensor module and an attachment element for the sensor module. The support frame includes several partitions and defines several compartments within the housing, wherein the attachment element is a component part that is separate from the support frame and is attached to the support frame. The sensor module is located in one of the compartments, termed sensor compartment, and is attached to the attachment element. Moreover, a wearable sensor device is shown.

Apparatuses, components and methods are provided herein useful to provide assistance to customers and/or workers in a shopping facility. In some embodiments, a shopping facility personal assistance system comprises: a plurality of motorized transport units located in and configured to move through a shopping facility space; a plurality of user interface units, each corresponding to a respective motorized transport unit during use of the respective motorized transport unit; and a central computer system having a network interface such that the central computer system wirelessly communicates with one or both of the plurality of motorized transport units and the plurality of user interface units, wherein the central computer system is configured to control movement of the plurality of motorized transport units through the shopping facility space based at least on inputs from the plurality of user interface units.

A scanning apparatus and associated charging system are provided that include a universal power interface configured to receive a removable power source connected thereto where the removable power source includes a power storage unit and a charging circuit. The scanning apparatus further includes scanning circuitry that is in electrical communication with the universal power interface and is configured to scan a target. The scanning apparatus further includes a processor communicably coupled with the scanning circuitry and the universal power interface. In an instance in which the universal power interface receives the removable power source, the processor is configured to determine a type of the removable power source, select one or more parameters based on the determined type of the removable power source, and operate at least one of the scanning apparatus or the charging circuit in the removable power source based on the one or more selected parameters.

An attachment assembly for use with a mobile device with a camera or a case for the mobile device can include one or more of an attachment base and an attachment body. The attachment base can be configured to be secured to at least one of the mobile device and the case. The attachment body can include at least one optical device for use with the camera and can be configured to be removably secured to the attachment base. The attachment base can removably secure the attachment body to the mobile device or the case when the attachment body is removably secured to the attachment base.

An apparatus, system method of providing mobile checkout. The apparatus, system and method may include obtaining, via an opt-in to an in-store wireless network, of consumer device data regarding a plurality of consumer mobile devices, the consumer data comprising device use data, prior purchase data, and GPS data, receiving video surveillance data related to at least one consumer having consumer device data, interrelating, from at least one non-transitory computer-readable medium storing at least the consumer device data and the video surveillance data, of at least the consumer device data and the video surveillance data by at least one computing processor, and applying, by the computing processor, of a plurality of business rules to the interrelated datas to enable at least the mobile checkout, wherein the mobile checkout includes a purchase of at least one in-store item via the consumer device associated with the purchasing one of the at least one consumer.

Systems and methods of operation for an image processor system to process images to locate two-dimensional regions which are likely to contain machine-readable symbol data or text. Such regions of interest (ROIs) may be preserved at full resolution, while the contents of non-ROIs are averaged into a single pixel value. Transition densities in an image may be converted into a numeric value. Such transition densities may be indicative of the presence of data of interest, such as textual data and/or machine-readable symbol data. The pixels values for the pixels in the ROIs may be sent to a decoder unchanged (i.e., full resolution), which absolves the decoder from having to perform any ROI location computations. Modified or altered images may be compressed to much smaller size files while maintaining lossless ROIs, which allows for transmission of such images to processor-based devices over a data communications channel in real time.

Embodiments of the present disclosure provide code readers for reading codes provided as patterns imprinted on objects. Light interacts with a pattern by e.g. being reflected from or transmitted through the pattern, and at least some of the light that has interacted with the pattern is incident on photosensitive element(s) of one or more photodetectors of a code reader. The code reader employs centroid-measuring photodetector(s), i.e. photodetectors that detect light in such a manner that centroid of a pattern can be obtained directly from the photocurrents generated as a result of the photosensitive elements detecting light incident thereon. The code reader is then configured to process the detected light to determine a centroid of the pattern from the detected light and to decode data encoded in the pattern based on a position of the centroid. Such code readers are substantially less complex than camera-based devices and avoid mechanical scanning.

A battery pack for an electro-optical reader includes a rechargeable battery and a printed circuit board (PCB), both mounted in a battery housing. First and second electrical connectors are supported by the same PCB and/or the battery housing. The first electrical connector is connected to reader contacts in the reader when the battery pack is mounted in the reader. The second electrical connector is either connected to station contacts in a docking station when the reader is docked, or to a recharging cable.

A method of authenticating an object (12) includes applying indicia (14) to the object, wherein the indicia includes at least two different types of particles which fluoresce upon exposure to light (15) and which have different decay rates. The indicia is exposed to light from a lamp (32) causing the plurality of particles to fluoresce. At least a first image of the indicia is captured with a sensor (22) at a first time and a second image of the indicia at a second time different from the first time. The images are analyzed to determine decay rates of the at least two types of particles and object is authenticated if the decay rates match stored information.