Patent application number | Description | Published |
20120031962 | SYSTEM AND METHOD FOR DOCUMENT PROCESSING - Embodiments of the present invention are directed to document processing, and more particularly to systems and methods that can utilize relative positions between the content of the document and a decodable indicia affixed to the document. In one embodiment, indicia reading terminals are provided that include an imaging module for capturing a frame of image data of a document. The document can include one or more decodable indicia such as a form barcode and various content fields, which delineate particular content of the document. The form barcode can include information respecting the form design and form design data. This information can be used to process the content of the document such as by providing coordinates or similar location and positioning metrics for use in processing the content of the document. In one example, the frame of image data is analyzed to identify the form barcode, from which the relative location of the content fields can be discerned without extensive processing of the frame of image data. | 02-09-2012 |
20120092531 | AUTOFOCUSING OPTICAL IMAGING DEVICE - An optical imager includes: an image sensor for capturing images of targets and outputting image signals; a lens for focusing the target on the image sensor as a function of lens position; a memory for storing predetermined lens positions determined from predetermined target sizes; and a controller for determining current target size based on captured images and positioning the lens at a predetermined lens position by correlating current target size with predetermined target sizes. | 04-19-2012 |
20120121177 | METHOD AND SYSTEM OPERATIVE TO PROCESS COLOR IMAGE DATA - A method and system operative to process color image data are disclosed. In one embodiment, the method can comprise the steps of receiving color image data, determining the color ranges to be applied to the color image data, assigning each of the pixel positions in the image data a color range, assigning a different spatial binary pattern to each color range, and assigning each of the pixel positions a binary output pixel value that corresponds to the spatial binary pattern assigned to the color range assigned to that pixel position. The resulting binary image data can be written to a file for subsequent storage, transmission, processing, or retrieval and rendering. In other embodiments, a system can be made operative to accomplish the same. | 05-17-2012 |
20120121209 | METHOD AND SYSTEM OPERATIVE TO PROCESS MONOCHROME IMAGE DATA - A method and system operative to process monochrome image data are disclosed. In one embodiment, the method can comprise the steps of receiving monochrome image data, segmenting the input pixel values into pixel value ranges, assigning pixel positions in the lowest pixel value range an output pixel value of a first binary value, assigning pixel positions in the highest pixel value range an output pixel value of a second binary value, wherein the first and second binary values are different, and assigning pixel positions in intermediate pixel value ranges output pixel values that correspond to a spatial binary pattern. The resulting binary image data can be written to a file for subsequent storage, transmission, processing, or retrieval and rendering. In further embodiments, a system can be made operative to accomplish the same. | 05-17-2012 |
20120193429 | TERMINAL WITH FLICKER-CORRECTED AIMER AND ALTERNATING ILLUMINATION - An indicia reading terminal is disclosed that eliminates unwanted flickering effects in an illuminated screen reading mode, among other advantageous features. The indicia reading terminal, in response to a screen reading signal, is operative to activate a screen reading cycle. In the screen reading cycle, an imaging subsystem is activated at least once at the same time that an illumination subsystem is activated for one of a plurality of active illumination periods, for a first illuminated exposure period. The imaging subsystem is activated at least once while the illumination subsystem is not activated, for a first unilluminated exposure period, which is longer than the first illuminated exposure period. An aimer subsystem is activated for a plurality of active aimer periods when neither the imaging subsystem or the illumination subsystem is activated, wherein intervals of time between the active aimer periods are equal, within nominal tolerances. | 08-02-2012 |
20120318870 | INDICIA READING TERMINAL WITH COLOR FRAME PROCESSING - An indicia reading terminal can comprise an image sensor integrated circuit having a two-dimensional image sensor, a hand held housing encapsulating the two-dimensional image sensor, and an imaging lens configured to focus an image of a target decodable indicia onto the two-dimensional image sensor. The two-dimensional image sensor can include a plurality of pixels arranged in repetitive patterns. Each pattern can include at least one pixel sensitive in a first spectrum region, at least one pixel sensitive in a second spectrum region, and at least one pixel sensitive in a third spectrum region. The image sensor integrated circuit can be configured to capture a frame of image data by reading out a plurality of analog signals. Each read out analog signal can be representative of light incident on a group of two or more pixels of the plurality of pixels. The image sensor integrated circuit can be further configured to convert the plurality of analog signals to a plurality of digital signals and to store the plurality of digital signals in a memory. The indicia reading terminal can be operative to process the frame of image data for attempting to decode for decodable indicia. | 12-20-2012 |
20130284801 | MOBILE COMMUNICATION TERMINAL CONFIGURED TO DISPLAY MULTI-SYMBOL DECODABLE INDICIA - A mobile communication terminal can comprise a housing, a microprocessor disposed within the housing, a display incorporated into the housing, and a communication interface communicatively coupled to the microprocessor. The mobile communication terminal can be configured, responsive to receiving a byte sequence representing a character string containing one or more alphanumeric or non-alphanumeric characters, to encode the byte sequence into one or more bar code symbols having a minimum dimension of a smallest element equaling or exceeding a readability threshold value. The mobile communication terminal can be further configured to display the bar code symbols. | 10-31-2013 |
20130306720 | CLOUD-BASED SYSTEM FOR READING OF DECODABLE INDICIA - A data decoding system can comprise one or more computers communicatively coupled to a network. The computers can execute at least one decoding process. The decoding process can be configured, responsive to receiving a decoding request comprising an image of decodable indicia, to locate the decodable indicia within the image, and to decode the decodable indicia into a decoded message. The decoding process can be further configured, responsive to completing a decoding operation, to transmit to the client the decoded message and/or the decoding operation completion code. | 11-21-2013 |
20130308013 | UNTOUCHED 3D MEASUREMENT WITH RANGE IMAGING - A user terminal contains an input/output mechanism, an image capture device used to capture an image of a scene, a range imaging image capture device used to create a depth map of the scene, a processor that combine the image and the depth map into a model of the scene, a memory that stores the depth map and the image, and a display that displays the model. Utilizing this system, a user is able to view, measure, and calculate 3D data representing real world data, including but not limited to position, distance, location, and orientation of objects viewed in the display. The retrieves this information by making inputs into the terminal, including, in an embodiment of the invention, touch inputs selecting images on a touch screen. | 11-21-2013 |
20140014724 | CLOUD-BASED SYSTEM FOR PROCESSING OF DECODABLE INDICIA - A data decoding system can comprise a client computer including an imaging device and one or more servers executing at least one decoding process. The client computer can be configured to acquire an image of decodable indicia and to process the acquired image by:
| 01-16-2014 |
20140078342 | METHOD AND SYSTEM OPERATIVE TO PROCESS COLOR IMAGE DATA - A method and system operative to process color image data are disclosed. In one embodiment, the method can comprise the steps of receiving color image data, determining the color ranges to be applied to the color image data, assigning each of the pixel positions in the image data a color range, assigning a different spatial binary pattern to each color range, and assigning each of the pixel positions a binary output pixel value that corresponds to the spatial binary pattern assigned to the color range assigned to that pixel position. The resulting binary image data can be written to a file for subsequent storage, transmission, processing, or retrieval and rendering. In other embodiments, a system can be made operative to accomplish the same. | 03-20-2014 |
20140104451 | ANDROID BOUND SERVICE CAMERA INITIALIZATION - A mobile device includes a camera, a user interface system, and a processor communicatively coupled to the camera and the user interface system. The processor is typically configured for running a first application. The first application is typically configured for (i) accessing the camera, (ii) upon the initialization of the first application, initializing the camera, and (iii) maintaining the camera in an initialized state as long as the first application is running. The application may be further configured for focusing the camera and maintaining the camera in a focused state as long as the first application is running. | 04-17-2014 |
20140160329 | INDICIA READING TERMINAL WITH COLOR FRAME PROCESSING - An indicia reading terminal can comprise an image sensor integrated circuit having a two-dimensional image sensor, a hand held housing encapsulating the two-dimensional image sensor, and an imaging lens configured to focus an image of a target decodable indicia onto the two-dimensional image sensor. The two-dimensional image sensor can include a plurality of pixels arranged in repetitive patterns. Each pattern can include at least one pixel sensitive in a first spectrum region, at least one pixel sensitive in a second spectrum region, and at least one pixel sensitive in a third spectrum region. The image sensor integrated circuit can be configured to capture a frame of image data by reading out a plurality of analog signals. Each read out analog signal can be representative of light incident on a group of two or more pixels of the plurality of pixels. | 06-12-2014 |
20140300777 | AUTOFOCUSING OPTICAL IMAGING DEVICE - An optical imager includes: an image sensor for capturing images of targets and outputting image signals; a lens for focusing the target on the image sensor as a function of lens position; a memory for storing predetermined lens positions determined from predetermined target sizes; and a controller for determining current target size based on captured images and positioning the lens at a predetermined lens position by correlating current target size with predetermined target sizes. | 10-09-2014 |
20150028102 | INDICIA READING TERMINAL WITH COLOR FRAME PROCESSING - An indicia reading terminal can comprise an image sensor integrated circuit having a two-dimensional image sensor, a hand held housing encapsulating the two-dimensional image sensor, and an imaging lens configured to focus an image of a target decodable indicia onto the two-dimensional image sensor. The two-dimensional image sensor can include a plurality of pixels arranged in repetitive patterns. Each pattern can include at least one pixel sensitive in a first spectrum region, at least one pixel sensitive in a second spectrum region, and at least one pixel sensitive in a third spectrum region. The image sensor integrated circuit can be configured to capture a frame of image data by reading out a plurality of analog signals. Each read out analog signal can be representative of light incident on a group of two or more pixels of the plurality of pixels. The image sensor integrated circuit can be further configured to convert the plurality of analog signals to a plurality of digital signals and to store the plurality of digital signals in a memory. The indicia reading terminal can be operative to process the frame of image data for attempting to decode for decodable indicia. | 01-29-2015 |
20150083800 | SYSTEM AND METHOD FOR DOCUMENT PROCESSING - Embodiments of the present invention are directed to document processing, and more particularly to systems and methods that can utilize relative positions between the content of the document and a decodable indicia affixed to the document. In one embodiment, indicia reading terminals are provided that include an imaging module for capturing a frame of image data of a document. The document can include one or more decodable indicia such as a form barcode and various content fields, which delineate particular content of the document. The form barcode can include information respecting the form design and form design data. This information can be used to process the content of the document such as by providing coordinates or similar location and positioning metrics for use in processing the content of the document. In one example, the frame of image data is analyzed to identify the form barcode, from which the relative location of the content fields can be discerned without extensive processing of the frame of image data. | 03-26-2015 |
20150288689 | CLOUD-BASED SYSTEM FOR READING OF DECODABLE INDICIA - A data decoding system can comprise one or more computers communicatively coupled to a network. The computers can execute at least one decoding process. The decoding process can be configured, responsive to receiving a decoding request comprising an image of decodable indicia, to locate the decodable indicia within the image, and to decode the decodable indicia into a decoded message. The decoding process can be further configured, responsive to completing a decoding operation, to transmit to the client the decoded message and/or the decoding operation completion code. | 10-08-2015 |
20150333803 | CLOUD-BASED SYSTEM FOR PROCESSING OF DECODABLE INDICIA - A data decoding system can comprise a client computer including an imaging device and one or more servers executing at least one decoding process. The client computer can be configured to acquire an image of decodable indicia and to process the acquired image by:
| 11-19-2015 |
20150379319 | INDICIA READING TERMINAL WITH COLOR FRAME PROCESSING - An indicia reading terminal can comprise an image sensor integrated circuit having a two-dimensional image sensor, a hand held housing encapsulating the two-dimensional image sensor, and an imaging lens configured to focus an image of a target decodable indicia onto the two-dimensional image sensor. The two-dimensional image sensor can include a plurality of pixels arranged in repetitive patterns. Each pattern can include at least one pixel sensitive in a first spectrum region, at least one pixel sensitive in a second spectrum region, and at least one pixel sensitive in a third spectrum region. The image sensor integrated circuit can be configured to capture a frame of image data by reading out a plurality of analog signals. Each read out analog signal can be representative of light incident on a group of two or more pixels of the plurality of pixels. The image sensor integrated circuit can be further configured to convert the plurality of analog signals to a plurality of digital signals and to store the plurality of digital signals in a memory. The indicia reading terminal can be operative to process the frame of image data for attempting to decode for decodable indicia. | 12-31-2015 |
20160080150 | SYSTEM AND METHOD FOR SECURING SENSITIVE DATA - An approach is provided for securing data in a technical environment. In one embodiment, a processor obtains a first file, which when executed installs a first portion of a second file and an assembly key to assemble the second file. The processor executes this first file and then obtains the second portion of the second file. The processor assembles the second file using the first portion, the second portion, and the assembly key. | 03-17-2016 |