Holography allows for both the recording and reproduction of wavefields of light, and is thereby able to fully capture the three-dimensional structure of objects. The appearance of the object will hange according to the position and orientation of the viewer, providing an immersive experience as if objects are actually present. Moreover, holograms have many applications in metrology such as icroscopy and interferometry. Because holograms represent interference patterns, they possess significantly different signal properties from natural photography and video; this will make conventional image ncoders perform sub-optimally on holograms. Therefore, new data compression techniques have to be evaluated for this type of data. One important requirement for comparing and evaluating various odecs is to have reference holograms which are publicly available. For this purpose, we have set up an open public database containing a set of computer-generated holograms. Furthermore, we evaluate the performances of two JPEG 2000-based coders, which were modified to better cope with holographic data.
Blinder, D, Ahar, A, Symeonidou, A, Xing, Y, Bruylants, T, Schretter, C, Pesquet-Popescu, B, Dufaux, F, Munteanu, A & Schelkens, P 2015, Open Access Database for Experimental Validations of Holographic Compression Engines. in QoMEX 2015: 7th International Workshop on Quality of Multimedia Experience., 80, IEEE, 7th International Workshop on Quality of Multimedia Experience (QoMEX 2015), Messinia, Greece, 26/05/15. https://doi.org/10.1109/QoMEX.2015.7148145
Blinder, D., Ahar, A., Symeonidou, A., Xing, Y., Bruylants, T., Schretter, C., Pesquet-Popescu, B., Dufaux, F., Munteanu, A., & Schelkens, P. (2015). Open Access Database for Experimental Validations of Holographic Compression Engines. In QoMEX 2015: 7th International Workshop on Quality of Multimedia Experience Article 80 IEEE. https://doi.org/10.1109/QoMEX.2015.7148145
@inproceedings{7e86b248862542458b0bcaf9d52d4993,
title = "Open Access Database for Experimental Validations of Holographic Compression Engines",
abstract = "Holography allows for both the recording and reproduction of wavefields of light, and is thereby able to fully capture the three-dimensional structure of objects. The appearance of the object will hange according to the position and orientation of the viewer, providing an immersive experience as if objects are actually present. Moreover, holograms have many applications in metrology such as icroscopy and interferometry. Because holograms represent interference patterns, they possess significantly different signal properties from natural photography and video; this will make conventional image ncoders perform sub-optimally on holograms. Therefore, new data compression techniques have to be evaluated for this type of data. One important requirement for comparing and evaluating various odecs is to have reference holograms which are publicly available. For this purpose, we have set up an open public database containing a set of computer-generated holograms. Furthermore, we evaluate the performances of two JPEG 2000-based coders, which were modified to better cope with holographic data.",
author = "David Blinder and Ayyoub Ahar and Athanasia Symeonidou and Yafei Xing and Tim Bruylants and Colas Schretter and B{\'e}atrice Pesquet-Popescu and Frederic Dufaux and Adrian Munteanu and Peter Schelkens",
year = "2015",
doi = "10.1109/QoMEX.2015.7148145",
language = "English",
isbn = "9781479989591",
booktitle = "QoMEX 2015: 7th International Workshop on Quality of Multimedia Experience",
publisher = "IEEE",
note = "7th International Workshop on Quality of Multimedia Experience (QoMEX 2015) ; Conference date: 26-05-2015 Through 29-05-2015",
}