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David Blinder
David Blinder
Professor, Vrije Universiteit Brussel
Verified email at vub.be
Title
Cited by
Cited by
Year
Signal processing challenges for digital holographic video display systems
D Blinder, A Ahar, S Bettens, T Birnbaum, A Symeonidou, H Ottevaere, ...
Signal Processing: Image Communication 70, 114-130, 2019
1612019
Computer-generated holograms by multiple wavefront recording plane method with occlusion culling
A Symeonidou, D Blinder, A Munteanu, P Schelkens
Optics express 23 (17), 22149-22161, 2015
1142015
The state-of-the-art in computer generated holography for 3D display
D Blinder, T Birnbaum, T Ito, T Shimobaba
Light: Advanced Manufacturing 3 (3), 572-600, 2022
832022
JPEG 2000-based compression of fringe patterns for digital holographic microscopy
D Blinder, T Bruylants, H Ottevaere, A Munteanu, P Schelkens
Optical Engineering 53 (12), 123102-123102, 2014
742014
Deep-learning computational holography: A review
T Shimobaba, D Blinder, T Birnbaum, I Hoshi, H Shiomi, P Schelkens, ...
Frontiers in Photonics 3, 854391, 2022
612022
Colour computer-generated holography for point clouds utilizing the Phong illumination model
A Symeonidou, D Blinder, P Schelkens
Optics express 26 (8), 10282-10298, 2018
542018
Open access database for experimental validations of holographic compression engines
D Blinder, A Ahar, A Symeonidou, Y Xing, T Bruylants, C Schretter, ...
2015 Seventh International Workshop on Quality of Multimedia Experience …, 2015
502015
Accelerated computer generated holography using sparse bases in the STFT domain
D Blinder, P Schelkens
Optics express 26 (2), 1461-1473, 2018
472018
Efficient multiscale phase unwrapping methodology with modulo wavelet transform
D Blinder, H Ottevaere, A Munteanu, P Schelkens
Optics express 24 (20), 23094-23108, 2016
362016
Dynamic-range compression scheme for digital hologram using a deep neural network
T Shimobaba, D Blinder, M Makowski, P Schelkens, Y Yamamoto, I Hoshi, ...
Optics letters 44 (12), 3038-3041, 2019
342019
Subjective quality assessment of numerically reconstructed compressed holograms
A Ahar, D Blinder, T Bruylants, C Schretter, A Munteanu, P Schelkens
Applications of Digital Image Processing XXXVIII 9599, 188-202, 2015
342015
Speckle noise reduction for computer generated holograms of objects with diffuse surfaces
A Symeonidou, D Blinder, A Ahar, C Schretter, A Munteanu, P Schelkens
Optics, Photonics and Digital Technologies for Imaging Applications IV 9896 …, 2016
332016
Direct calculation of computer-generated holograms in sparse bases
D Blinder
Optics express 27 (16), 23124-23137, 2019
322019
Photorealistic computer generated holography with global illumination and path tracing
D Blinder, M Chlipala, T Kozacki, P Schelkens
Optics Letters 46 (9), 2188-2191, 2021
312021
Phase added sub-stereograms for accelerating computer generated holography
D Blinder, P Schelkens
Optics Express 28 (11), 16924-16934, 2020
302020
Global motion compensation for compressing holographic videos
D Blinder, C Schretter, P Schelkens
Optics express 26 (20), 25524-25533, 2018
282018
Ultrasound imaging from sparse RF samples using system point spread functions
C Schretter, S Bundervoet, D Blinder, A Dooms, J D’hooge, P Schelkens
IEEE transactions on ultrasonics, ferroelectrics, and frequency control 65 …, 2017
272017
Efficient algorithms for the accurate propagation of extreme-resolution holograms
D Blinder, T Shimobaba
Optics Express 27 (21), 29905-29915, 2019
262019
Unitary transforms using time-frequency warping for digital holograms of deep scenes
D Blinder, C Schretter, H Ottevaere, A Munteanu, P Schelkens
IEEE Transactions on Computational Imaging 4 (2), 206-218, 2018
252018
Wavelet coding of off-axis holographic images
D Blinder, T Bruylants, E Stijns, H Ottevaere, P Schelkens
Applications of digital image processing XXXVI 8856, 519-530, 2013
252013
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