An image output device includes an acquisition unit that acquires original image data indicating an original image, a storage unit that certifies, for each of blocks, whether the original image is a barcode area and that stores output image data for outputting the original image, and an output unit that performs output based on the output image data using methods that are different between an area indicated to be the barcode area and an area indicated not to be the barcode area, wherein the output image data is JPEG data compressed for the each block.

A transaction card construction and computer-implemented methods for a transaction card are described. The transaction card has vector formatted visible information lasered onto its surface. In some embodiments, systems and methods are disclosed for enabling the sourcing of visible information using a scalable vector format. The systems and methods may receive a request to add a first plurality of visible information to a transaction card and capture an image of the first plurality of visible information. The systems and methods may also map the image to a bounding box and convert the mapped image into vector format. In addition, the systems and methods may provide the converted image to a laser machine.

A transaction card construction and computer-implemented methods for a transaction card are described. The transaction card has vector formatted visible information lasered onto its surface. In some embodiments, systems and methods are disclosed for enabling the sourcing of visible information using a scalable vector format. The systems and methods may receive a request to add a first plurality of visible information to a transaction card and capture an image of the first plurality of visible information. The systems and methods may also map the image to a bounding box and convert the mapped image into vector format. In addition, the systems and methods may provide the converted image to a laser machine.

An analysis and decode module is described. A barcode reading system may include an image sensor system package and a separate image decoding system. The image sensor system package may provide input to the image decoding system through an interface. The input may include a captured image, image capture settings, and an operation list. The image decoding system, using the analysis and decode module, may perform one or more operations identified in the operation list on the capture image. The image decoding system may then output information to the image sensor system package using the interface. The output may indicate whether the image decoding system was able to decode a barcode and how the image sensor system package may modify the image capture settings to produce an image more suitable for decoding. The image sensor system package may then determine new image capture settings for capturing a new image.

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, whilst 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.

An image output device includes an acquisition unit that acquires original image data indicating an original image, a storage unit that certifies, for each of blocks, whether the original image is a barcode area and that stores output image data for outputting the original image, and an output unit that performs output based on the output image data using methods that are different between an area indicated to be the barcode area and an area indicated not to be the barcode area, wherein the output image data is JPEG data compressed for the each block.

A barcode identification method includes generating a binarization barcode by using a binarization process from a sampled barcode, acquiring a first region from the binarization barcode, acquiring a first narrow element width from the first region, acquiring a second region from the binarization barcode, acquiring a second narrow element width from the second region, generating an extension region by extending the second region when the second narrow element width is smaller than the first narrow element width, generating a plurality of binarization sequences corresponding to the extension region, decoding at least one of the binarization sequences for generating at least one decoded sequence by using a lookup table, and verifying the at least one decoded sequence for generating a verified sequence by using a checksum code.

A transaction card construction and computer-implemented methods for a transaction card are described. The transaction card has vector formatted visible information lasered onto its surface. In some embodiments, systems and methods are disclosed for enabling the sourcing of visible information using a scalable vector format. The systems and methods may receive a request to add a first plurality of visible information to a transaction card and capture an image of the first plurality of visible information. The systems and methods may also map the image to a bounding box and convert the mapped image into vector format. In addition, the systems and methods may provide the converted image to a laser machine.

A barcode identification method includes generating a binarization barcode by using a binarization process from a sampled barcode, acquiring a first region from the binarization barcode, acquiring a first narrow element width from the first region, acquiring a second region from the binarization barcode, acquiring a second narrow element width from the second region, generating an extension region by extending the second region when the second narrow element width is smaller than the first narrow element width, generating a plurality of binarization sequences corresponding to the extension region, decoding at least one of the binarization sequences for generating at least one decoded sequence by using a lookup table, and verifying the at least one decoded sequence for generating a verified sequence by using a checksum code.

A transaction card construction and computer-implemented methods for a transaction card are described. The transaction card has vector formatted visible information lasered onto its surface. In some embodiments, systems and methods are disclosed for enabling the sourcing of visible information using a scalable vector format. The systems and methods may receive a request to add a first plurality of visible information to a transaction card and capture an image of the first plurality of visible information. The systems and methods may also map the image to a bounding box and convert the mapped image into vector format. In addition, the systems and methods may provide the converted image to a laser machine.