Skip to content

HDR Toolbox for processing High Dynamic Range (HDR) images into MATLAB and Octave

License

Notifications You must be signed in to change notification settings

banterle/HDR_Toolbox

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

HDR Toolbox

HDR Toolbox is a MATLAB/Octave toolbox for processing High Dynamic Range (HDR) content.

Author: Francesco Banterle

License: This software is distributed under GPL v3 license (see license.txt)

Year: Fall 2010-2018

Title: HDR Toolbox for Matlab

Version: 1.1.0

REFERENCE:

When you use the HDR Toolbox for your research, please reference the book in your work/papers:

@book{Banterle:2017, 
 author = {Banterle, Francesco and Artusi, Alessandro and Debattista, Kurt and Chalmers, Alan},
 title = {Advanced High Dynamic Range Imaging (2nd Edition)},
 year = {2017},
 month={July},
 isbn = {9781498706940},
 publisher = {AK Peters (CRC Press)},
 address = {Natick, MA, USA},
}

Please DO NOT reference the URL of this website as many people wrongly do.

There are many papers in the HDR Deep-learning-based community using this toolbox without referencing it. This toolbox has required a lot of efforts, it is free and available to everyone, and we only ask to reference it.

HOW TO INSTALL:

  1. Unzip the file HDRToolbox.zip in a FOLDER on your PC/MAC

  2. Run Matlab

  3. Set the FOLDER as current directory

  4. Write the command installHDRToolbox in the Command Window, and wait for the installation process to end.

Note: some functionalities are written in C++ (I/O .exr files, and bilateralFilterS). Therefore, they need a C++ compiler installed on the machine in order to be compiled and used. In the case you want to use such such functionalities, you have to install a C++ compiler on your machine and to setup the MATLAB MEX.

NOTE ON CODE USE:

When you use parts or the full source code of this project in your own project, please remember to cite this project both in your project webpage and in its source code. This SHOULD be done even when you convert this code into another programming language.

Be kind.

NOTE ON EXPANSION OPERATORS (INVERSE/REVERSE TONE MAPPING):

The majority of EOs require to have as input LDR/SDR images that are NORMALZIED (i.e., in the range [0,1]) and LINEARIZED. To be LINEARIZED means that the camera response function (CRF) or the gamma encoding has been removed. This operation is MANDATORY in order to generate FAIR comparisons.

NOTE1: Please DO use the gammaRemoval parameter to remove gamma encoding if you do not have the CRF of the input image. Note that this is an approximation.

NOTE2: RAW files do not require this step because they are already linear. Therefore, for ONLY these images set gammaRemoval = 1.0.

NOTE ON TONE MAPPING:

The majority of TMOs return tone mapped images with linear values (i.e., withouth a CRF or gamma encoding). This means that gamma encoding needs to be applied to the output of these TMOs before visualization or before writing tone mapped images on the disk; otherwise these images will appear dark. A few operators (e.g., Mertens et al.'s operator) return gamma encoded values, so there is no need to apply gamma to them; in this case a message (e.g., a Warning) is displayed after tone mapping alerting that there is no need of gamma encoding.

NOTE ON PULL REQUESTS:

Please, send your pull requests to the develop branch. Requests sent to the Master branch will be ignored.

Contact:

e-mail: support@advancedhdrbook.com