DoubleBench Software

  • JPEG XL (ISO/IEC 18181) is an international standard which has rich feature set and is particularly optimised for responsive web environments, so that content renders well on a wide range of devices.
  • DoubleBench’s JPEG XL software is the light version of JPEG XL lossy coding supporting 8 bits per pixel for each RGB component of a pixel. Our software is limited to such usage but pretty much simpler than JPEG XL’s software.
  • By using a simple and optimized DCT block partitioning algorithm, DoubleBench’s JPEG XL software improves the image quality and coding speed.


  • Reference
    J. Cho, O. J. Kwon, and S. Choi, “Improvement of JPEG XL Lossy Image Coding Using Region Adaptive DCT Block Partitioning Structure”, IEEE Access, vol. 9, pp. 113213-113225, Aug. 2021.
  • Patent
    IMAGE ENCODING/DECODING METHOD AND DEVICE USING COLOR COORDINATE AXIS CONVERSION
          [KR]   Application Date: 2018.11.01 No.: 10-2018-0132672
          [PCT] Application Date: 2019.10.23 No.: PCT/KR2019/013933
          [US]   Application Date: 2021.02.05 No.: 17/266,546
                          Issue Date: 2022.12.13 No.: US11,528,491 B2
  • JPEG XT (ISO/IEC 18477) is an international standard which extends the legacy JPEG standard (ITU Recommendation T.81 | ISO/IEC 10918-1) for supporting high dynamic range (HDR) imaging in a totally backwards compatible method.
  • JPEG XT Part 6 and 7 (ISO/IEC 18477-6 and 7) is implemented in DoubleBench’s JPEG XT software, which is based on libjpeg-turbo and compatible with JPEG XT Reference Software (ISO/IEC 18477-5). Our software supports lossy coding, integer coding, floating-point coding in both encoder and decoder.
  • DoubleBench’s JPEG XT software provides a significant improvement in quality performance when comparing with JPEG XT Reference Software (ISO/IEC 18477-5).

  • DoubleBench’s JPEG XT software also includes a built-in tone mapping operator which generates a better low dynamic range (LDR) base image.
DoubleBench’s JPEG XT Software LDR image JPEG XT Reference Software LDR image
  • Reference
    S. Choi, O. J. Kwon, D. Jang, and S. Choi, “Evaluation of Various Tone Mapping Operators for Backward Compatible JPEG Image Coding”, KSII Trans. on Internet and Information Systems, vol. 9, no. 9, pp. 3672-3684, Sep. 2015.
    S. Choi, O. J. Kwon, J. Lee, and Y. Kim, “A JPEG backward-compatible image coding scheme for high dynamic range images”, Digital Signal Processing, vol. 67, pp. 1-16, Aug. 2017.
    O. J. Kwon, S. Choi, and D. Shin, “Improvement of JPEG XT Floating-Point HDR Image Coding Using Region Adaptive Prediction”, IEEE Access, vol. 6, pp. 3321-3335, Feb. 2018.
  • Patent
    Method and Apparatus for pre-processing of HDR image encoding apparatus based on a single quality value, Method for encoding HDR image based on a single quality value
          [KR]   Application Date: 2015.03.03 No.: 10-2015-0029769
                          Issue Date: 2021.08.12 No.: 10-2291585
    METHOD FOR ENCODING HIGH DYNAMIC RANGE IMAGE AND METHOD FOR DECODING HIGH DYNAMIC RANGE IMAGE
          [KR]   Application Date: 2016.02.19 No.: 10-2016-0019859
          [KR]   Application Date: 2016.05.26 No.: 10-2016-0064515
    IMAGE ENCODING AND DECODING METHODS, ENCODER AND DECODER USING THE METHODS
          [KR]   Application Date: 2017.02.03 No.: 10-2017-0015839
          [PCT] Application Date: 2017.02.17 No.: PCT/KR2017/001800
          [US]   Application Date: 2018.08.20 No.: 15/999,734
    Method and Apparatus for pre-processing of HDR image encoding apparatus based on a single quality value, Method for encoding HDR image based on a single quality value
          [KR]   Application Date: 2018.11.01 No.: 10-2018-0132672
          [PCT] Application Date: 2019.10.23 No.: PCT/KR2019/013933
          [US]   Application Date: 2021.02.05 No.: 17/266,546
                          Issue Date: 2022.12.13 No.: US11,528,491 B2
  • JPEG 360 (ISO/IEC 19566-6) is an international standard which defines metadata enabling efficient way to exchange 360-degree images captured and shared through various capturing devices and applications.
Conventional way using JPEG images for 360-degree images Standardized way using JPEG 360 images
    • DoubleBench’s JPEG 360 software is the first application implementing JPEG 360 international standard in the world.
    • JPEG to JPEG 360 converter: We support a conversion from the conventional JPEG file with customized metadata for 360-degree images to the JPEG 360 image file.
    • JPEG and JPEG 360 image viewer: DoubleBench’s JPEG 360 image viewer is an application which parses and displays the JPEG 360 image file to extract metadata for 360-degree services.
      We provide standalone applications working on Microsoft Windows and Android devices. Also all web browsers supporting the WebGL™ can run our JPEG 360 image viewer.
      Converter&Viewer Demo
    • JPEG 360 PTZ: generates JPEG 360 image in conjunction with PTZ cameras.
      JPEG 360 PTZ panorama
      JPEG 360 PTZ video

      JPEG 360 Phone: generates JPEG 360 image in conjunction with Phone cameras.

 

  • Reference
    T. T. H. Uyen, O. J. Kwon, S. Choi, and I. Hussain, “Subjective Assessment of 360° Image Projection Formats”, IEEE Access, vol. 8, pp. 33588-33599, Feb. 2020.
    I. Hussain, O. J. Kwon, and S. Choi, “Evaluating the Coding Performance of 360° Image Projection Formats Using Objective Quality Metrics”, Symmetry, 13(1), 80, Jan. 2021.
    O. J. Kwon, J. Cho, and S. Choi, “A Center-to-Edge Progression for Equirectangular Projected 360° JPEG Images”, IEEE Access, vol. 9, pp. 6921-6929, Jan. 2021.
    I. Hussain and O. J. Kwon, “Evaluation of 360° Image Projection Formats; Comparing Format Conversion Distortion Using Objective Quality Metrics”, Journal of Imaging, 7, 137, Aug. 2021
    Ullah, F.; Kwon, O.-J.; Choi, S. Generation of a Panorama Compatible with the JPEG 360 International Standard Using a Single PTZ Camera. Appl. Sci. 2021, 11, 11019. https://doi.org/10.3390/app112211019
    Yaseen, O. J. Kwon, J. Lee, F. Ullah, S. Jamil, and J. S. Kim, “Automatic Sequential Stitching of High-Resolution Panorama for Android Devices Using Precapture Feature Detection and the Orientation Sensor”, Sensors, vol. 23, 879, Jan. 2023.
  • Patent
    CENTER-TO-EDGE PROGRESSIVE IMAGE ENCODING/DECODING METHOD AND APPARATUS
          [KR]   Application Date: 2019.02.20 No.: 10-2019-0019853
          [PCT] Application Date: 2019.02.10 No.: PCT/KR2020/001831
          [US]   Application Date: 2021.02.05 No.: 17/266,562

 

  • JPEG Snack (ISO/IEC 19566-8) is an international standard that enriches a representation of multiple media contents to facilitate sharing, editing, and presentation.

  • Doublebench’s JPEG Snack software is the first application in the world to implement the JPEG Snack international standard.
  • JPEG Snack  Encoder: DoubleBench’s JPEG Snack Encoder is an application that embeds multiple media content such as audio, videos, groups of images, and captions in the standard JPEG file
  • JPEG Snack  Decoder: DoubleBench’s JPEG Snack Decoder is an application that decodes the JPEG snack file.
  • JPEG Snack  Player: DoubleBench’s JPEG Snack Player provides the essence of the visual display of JPEG Snack content  to the users

JPEG Snack Player Demo

 

 

  • Reference
    S. Jamil, O. J. Kwon, S. Choi, A. Kuzma, F. Ullah, Yaseen, and J. Lee, “Overview of JPEG Snack: A Novel International Standard for the Snack Culture”, IEEE Access, vol. 10, pp. 133402-133411, Dec. 2022.
    S. Jamil, O. J. Kwon, J. Lee, F. Ullah, Yaseen, and Afnan, “A Novel Multimedia Player for International Standard—JPEG Snack”, Journal of Imaging, 9, 58, Mar. 2023.
  • Patent
    APPARATUS AND METHOD FOR STORING SNACK CULTURE CONTENTS
          [KR]   Application Date: 2020.10.12 No.: 10-2020-0130849
                          Issue Date: 2022.08.24 No.: 10-2437726
    Object oriented multimedia composition format for short-form contents
          [KR]   Application Date: 2021.10.28 No.: 10-2021-0145471
          [PCT] Application Date: 2022.10.04 No.: PCT/KR2022/014902
    CONTENT PROVIDING METHOD AND APPARATUS, AND CONTENT PLAYBACK METHOD
          [PCT] Application Date: 2021.09.06 No.: PCT/KR2021/012034
          [US]   Application Date: 2023.04.11 No.: 18/031,201
  • DoubleBench’s JPEG Privacy & Security is the first application in the world implementing the JPEG Systems Part-4 (ISO/IEC 19566-4) standard which provides integrity checking mechanisms for JPEG images. We support integrity checking functionality based on signature or watermark.
  • Signature-based method

Support JPEG-1 (ISO/IEC 10918), JPEG XT (ISO/IEC 18477), and JPEG2000 (ISO/IEC 15444)

Embedding module Verification module
  • Watermark-based method

Support JPEG-1 (ISO/IEC 10918)

Embedding module Verification module

Signature & Watermark based method Demo

 

  • Reference
    O. J. Kwon, S. Choi, and B. Lee, “A Watermark-Based Scheme for Authenticating JPEG Image Integrity”, IEEE Access, vol. 6, pp. 46194- 46205, Sep. 2018.
  • Patent
    METHOD AND APPARATUS FOR VERIFYING INTEGRITY OF IMAGE BASED ON WATERMARK
          [KR]   Application Date: 2018.05.23 No.: 10-2018-0058185
                         Issued Date: 2024.02.08 No.: 10-2637177
          [PCT] Application Date: 2019.05.17 No.: PCT/KR2019/005890
          [US]   Application Date: 2020.11.20 No.: 17/057,249
                         Issued Date: 2024.02.27 No.: US11,915,336 B2

 

  • DoubleBench’s JPEG-Payloader is a lightweight software that enables users to embed XML, JSON, CBOR or any types of files or metadata in his/her JPEG image. The software embeds the user data in JPEG Images according to the specifications of ISO/IEC 19566-5:2023 JPEG Universal Metadata Box Format (JUMBF) standard. User can use JPEG-Payloader for the following purposes:
    • Embed any kind of data/metadata using JUMBF box in JPEG images.
    • See what data/metadata is present in the JUMBF box in a JPEG image.
    • Extract any data/metadata from JUMBF box in a JPEG image.
    • Delete all or specific data/metadata from JUMBF box in a JPEG image.

JPEG Payloader Demo

  • DoubleBench’s Scanned Book Aligner cuts content area(s) from a page of single-sided or double-sided books, automatically adjusts orientation, and removes shadows, which is useful for high-speed digitization of books.
Input Output_1 Output_2

Demo video

  • DoubleBench’s Cartoon Cut Segmenter segments individual cuts from a page of cartoon and orders them, which is useful for converting cartoon services from page-by-page style to cut-by-cut style.
Input Output

Demo

 

  • Reference
    O. J. Kwon, J. Lee, and S. Choi, “An Efficient Ordered-Cut Extracting Method for Scanned Cartoon Images”, Proceedings of ICCCA, KSCI, pp.75-78, Kanoa Resort Saipan, Saipan, USA, Aug. 2017.

 

  • DoubleBench’s Multi-Exposure Image Fusion software generates an HDR image by acquiring images with different exposures in the same scene based on the fact that exposure change affects the change in the local luminance details, contrast, and colorfulness of a pixel.
  • DoubleBench’s Multi-Exposure Image Fusion software allows the users to capture high-dynamic range images directly on digital cameras or smartphones, without using offline image-processing software.
Input Output

 

Input Output

 

  • Reference
    S. Choi, O. J. Kwon, and J. Lee, “A Method for Fast Multi-Exposure Image Fusion”, IEEE Access, vol. 5, pp. 7371-7380, June 2017.

 

  • DoubleBench’s Multi-Focus Image Fusion software generates an all-in-focus image by obtaining the relative focus measure between two images. This relative focus measure is based on the observation that the average filtered version of a well-focused region in an image shows a higher correlation to the corresponding defocused region in another image than the original well-focused version.
  • DoubleBench’s Multi-Focus Image Fusion software allows the users to capture all-in-focus images directly from a digital camera or smartphone without using offline image processing software.
Input Output
Input Output

 

  • Reference
    O. J. Kwon, S. Choi, D. Jang, and H. S. Pang, “All-in-focus imaging using average filter-based relative focus measure”, Digital Signal Processing, vol. 60, pp. 200-210, Jan. 2017.

 

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