Abstract: The present disclosure includes an adapter and associated method of use for mobile unit (MU) charging and communication that enables multiple connector types to be utilized with a single charger or charging station. The adapter enables standardization of a connector scheme on newer MUs while maintaining compatibility with current or older MU devices. Specifically, the adapter resides between the MU and a charging device or station. The adapter may include various connector features mimicking connectors of various different MUs, thus allowing it to interface with a device of a different connector design. Advantageously, the adapter enables enterprises to deploy various cradles throughout facilities and achieves universal connections for a plurality of different MUs. In an exemplary embodiment, the adapter provides connectivity between various MUs and their associated cradles and a hook and pivoting latching system.

Abstract: This invention enables Scanable Icons, which may be predetermined graphical images, and similar encoded information to be applied to video systems in a manner that is user-friendly and brings many of the advantages of easy information access and management to the video environment. The optical path normally required when using such encoded information is avoided. Supplementary information, including more details for advertisements, is provided in a non-invasive manner, allowing the user to access the supplementary information at convenient times and locations. The Scanable Icon adds a symbol to the existing advertisement without increasing its duration. Advertising is made substantially more effective for the advertiser and more useful for the consumer.

Abstract: An RFID tag is capable of storing data, receiving a signal from a reader, determining a response taking into account the tag mode and the data, and transmitting a response to the reader. The data includes a first plurality of bits and a second plurality of bits. The tag mode may be set by a current or a prior command by the reader. Depending on the tag mode, the response may be complete, or the second plurality of bits may be truncated, compressed, or encrypted. In an aspect of the invention, the response includes an implicit indication of whether the response is complete, truncated, encrypted, or compressed. In another aspect of the invention, a command from the reader indicates how many bits should be truncated, compressed, or encrypted.

Abstract: A multicamera imaging-based bar code reader for imaging a target bar code on a target object features: a housing supporting a plurality of transparent windows and defining an interior region, a target object being presented to the plurality of windows for imaging a target bar code; an imaging system including a plurality of camera assemblies coupled to an image processing system, each camera assembly of the plurality of camera assemblies being positioned within the housing interior position. Each camera assembly includes a sensor array and an imaging lens assembly for focusing a field of view of the camera assembly onto the sensor array and wherein the sensor array is read out at a predetermined frame rate. The predetermined frame rate of at least one camera assembly is less than the predetermined frame rates of the other camera assemblies.

Abstract: An antenna method and arrangement of co-located antennas for wireless communication, includes at least one first antenna having a reflector panel and at least one second antenna utilizing a ground plane, wherein the reflector panel and the ground plane are the same element of the arrangement. The first antenna can be a loop element parallel to the reflector panel and the second antenna can be a monopole element perpendicular to the reflector panel/ground plane.

Abstract: An arrangement for, and a method of, electro-optically reading forms, each form having a plurality of form fields arranged at locations relative to one another, by image capture, includes storing form templates, each template having a plurality of template fields arranged at locations relative to one another, and capturing images over a field of view. A form and a correct orientation of the form, whose image is being captured, are automatically identified by matching the locations of the form fields in the captured image of the form with the locations of the stored template fields. The form fields on the identified form in the correct orientation are thereupon processed.

Abstract: A compact, low-cost, high-performance, imaging engine for an imaging reader for, and a method of, imaging targets, include a single printed circuit board (PCB), an illumination light assembly supported by the PCB for illuminating a target, a single chassis mounted on the PCB, an imaging lens assembly supported by the chassis for capturing return light from the illuminated target, and a solid-state imager supported by the PCB for detecting the captured return light over a field of view, and for generating an electrical signal indicative of the captured light. A controller is mounted on or off the imaging engine, and is operatively connected to, and controls the operation of, the imager and the illumination light assembly, for processing the electrical signal into data indicative of the target being imaged.

Abstract: A data capture terminal for, and a method of, processing one or more target data, such as symbols, arranged at spaced-apart locations on a target, employ an electro-optical reader for electro-optically reading the data on the target, and a controller for processing at least one of the data, and for determining whether the at least one data has been successfully processed. An interpretation engine customizes the controller with user-selected logic. The interpretation engine is operative, preferably after the at least one data has been successfully processed, to instruct the controller with logical conditions under which the other data on the target is to be processed.

Abstract: A method includes (1) obtaining a captured image of a document physically placed on a background having specifically designed patterns; (2) storing into a memory the captured image that includes an image of the document and an image of the background surrounding the document; and (3) analyzing the captured image to search for a boundary of the document in the captured image, where step of analyzing includes distinguishing the image of the background from the image of the document.

Abstract: A compact hybrid imaging lens assembly captures return light from a target over a field of view of a linear array of image sensors of a solid-state imager, and projects the captured return light onto the array during electro-optical reading of the target. The assembly includes a plastic lens for optical aberration correction, a glass lens spaced away from the plastic lens along an optical axis, and an aperture stop between the lenses and having an asymmetrical aperture through which the optical axis extends. The glass lens has substantially all the optical power of the imaging lens assembly for thermal stability, and the plastic lens has substantially no optical power. A holder holds the lenses and the aperture stop away from the array. Alignment elements on the plastic lens align the asymmetrical aperture relative to the linear array.

Abstract: The present disclosure provides a rotating-polarization reflector-backed Radio Frequency Identification (RFID) loop antenna apparatus and method. The loop antenna apparatus and method provides high gain (i.e., maximizing read distances at lowest power), directionality (i.e., ability to focus on specific areas), orientation insensitivity (i.e., ability to read RFID tags in any direction or orientation) while occupying minimal volume in overhead configurations. In an exemplary embodiment, the loop antenna apparatus includes a reflector and a loop element with the reflector configured to reflect downward RF energy from the loop element. Antenna polarization is controlled by a feed location on the loop element and antenna pattern is controlled by the reflector. Thus, orientation insensitivity may be achieved without changing the antenna pattern by rotating the feed location and not the reflector.

Abstract: A wireless local area network that carries mixed traffic of voice and data communications may be provided. The wireless local area network may include an access point and a plurality of remote terminals that are associated with the access point. The access point may be operably coupled to a wireline network. The access point may receive voice and other communications packets from the remote terminals and the wireline network. Some of the packets may be for transmission to the remote terminals. The access point manages which packets to transmit and when to transmit packets. The access point may manage traffic to maintain a fair distribution of packets and to give priority to voice communications over other communications.

Abstract: An arrangement for, and a method of, electro-optically reading a target by image capture, employ a scan engine in a handheld housing having a tilted handle. A single tilted printed circuit board (PCB) in the handle has front and rear surfaces that respectively face toward and away from the target during reading. An optical assembly having a pair of fold mirrors is mounted on the rear surface, for receiving return light from the target through an aperture in the PCB along the horizontal, and for directing the return light along a folded path. An imaging lens assembly projects the return light onto a solid-state, two-dimensional, image sensor to enable the return light to be detected over a field of view, and to generate an electrical signal indicative of the detected return light.

Abstract: Generating a planogram of a facility in real-time, includes positioning a wireless mobile device at a plurality of geometric positions within the facility. A location of the mobile device at each position is then established using a location mechanism. Each geometric position is then associated with that location of the mobile device. The planogram is then updated with information about the geometric position. The geometric positions are associated with physical objects modeled in the planogram. Non-geometric information can also be obtained at the location of the mobile device, and this non-geometric information can be overlaid onto the planogram.

Abstract: An ultrasonic locationing system includes an emitter operable to emit at least two ultrasonic frequency tones sequentially in one ultrasonic burst. These tones, which may contain multiple frequency components, define a unique regional address. A mobile device with a microphone is operable to receive the ultrasonic burst and have a processor determine the sequential tones. A location of the device can be found from a table of predefined tones assigned to known regional addresses.

Abstract: An arrangement for, and a method of, electro-optically reading a target by image capture, employ an aiming assembly for projecting an aiming light pattern on the target that is located within a range of working distances relative to a housing, an imaging assembly for capturing an image of the target and of the aiming light pattern over a field of view, and a controller for determining a distance of the target relative to the housing based on a position of the aiming light pattern in the captured image, for determining a scanning resolution based on the determined distance, for comparing the determined scanning resolution with a scanning resolution setting, and for processing the captured image based on the comparison.

Abstract: An arrangement for, and a method of, electro-optically reading different types of targets by image capture, include an imaging assembly for capturing an image of a target over a field of view, and a controller for automatically distinguishing between the different types of targets, for decoding a symbol if the target being imaged is a symbol target, and for identifying and processing individual fields on a form if the target being imaged is a form target.

Abstract: Embodiments include methods and apparatus for detecting proximity of an electronic article surveillance (EAS) tag. A proximity detection system (e.g., a radio frequency identification (RFID) tag reader) detects a presence of an object within a first area. In response to detecting the proximity of the object, an EAS tag reader alters characteristics of an EAS tag detection signal that is produced by the EAS tag reader in order to detect an EAS tag within range of the EAS tag reader.

Abstract: A device and method provides predictive visual indicators. The method includes displaying a user interface on a pressure sensitive touch screen display device of an electronic device. The user interface includes a plurality of contact areas. The method includes receiving a first touch input data on a first contact area. The first touch input data includes force data. The method also includes determining a second contact area as a function of the first touch input data and the first contact area. The second contact area is indicative of a prediction for a second, subsequent touch input data. The method includes displaying at least one predictive visual indicator that corresponds to the second contact area in response to the prediction.

Abstract: A mobile device is described. The mobile device includes a camera capturing an image of a barcode. The barcode includes information relating to a location of an object relative to a location of the barcode. A processor is coupled to the camera for decoding the barcode. A processor determines the location of the object in response to decoding the barcode. A display is coupled to the processor for displaying the object in a field of view of the camera. The processor instructs the display to visually accentuate the displayed object based on the determined location of the object.