Praneeth Chakravarthula
Title
Cited by
Cited by
Year
Focusar: Auto-focus augmented reality eyeglasses for both real world and virtual imagery
P Chakravarthula, D Dunn, K Akşit, H Fuchs
IEEE transactions on visualization and computer graphics 24 (11), 2906-2916, 2018
422018
Wirtinger holography for near-eye displays
P Chakravarthula, Y Peng, J Kollin, H Fuchs, F Heide
ACM Transactions on Graphics (TOG) 38 (6), 1-13, 2019
272019
Manufacturing application-driven foveated near-eye displays
K Akşit, P Chakravarthula, K Rathinavel, Y Jeong, R Albert, H Fuchs, ...
IEEE transactions on visualization and computer graphics 25 (5), 1928-1939, 2019
192019
DeepCGH: 3D computer-generated holography using deep learning
MH Eybposh, NW Caira, M Atisa, P Chakravarthula, NC Pégard
Optics Express 28 (18), 26636-26650, 2020
152020
Single access point based indoor localization technique for augmented reality gaming for children
CP Kumar, R Poovaiah, A Sen, P Ganadas
Proceedings of the 2014 IEEE Students' Technology Symposium, 229-232, 2014
142014
Towards a switchable AR/VR near-eye display with accommodation-vergence and eyeglass prescription support
X Xia, Y Guan, A State, P Chakravarthula, K Rathinavel, TJ Cham, ...
IEEE transactions on visualization and computer graphics 25 (11), 3114-3124, 2019
102019
Mitigating vergence-accommodation conflict for near-eye displays via deformable beamsplitters
D Dunn, P Chakravarthula, Q Dong, H Fuchs
Digital Optics for Immersive Displays 10676, 106760U, 2018
92018
High-speed computer-generated holography using convolutional neural networks
MH Eybposh, NW Caira, P Chakravarthula, M Atisa, NC Pégard
Optics and the Brain, BTu2C. 2, 2020
52020
Computing high quality phase-only holograms for holographic displays
P Chakravarthula, Y Peng, J Kollin, F Heide, H Fuchs
Optical Architectures for Displays and Sensing in Augmented, Virtual, and …, 2020
42020
10‐1: Towards Varifocal Augmented Reality Displays using Deformable Beamsplitter Membranes
D Dunn, P Chakravarthula, Q Dong, K Akşit, H Fuchs
SID Symposium Digest of Technical Papers 49 (1), 92-95, 2018
42018
Method for the addition of anti-microbial compounds to fiberglas insulation products
Y Delaviz, K Guigley, L Chen
US Patent App. 10/319,154, 2004
42004
Learned hardware-in-the-loop phase retrieval for holographic near-eye displays
P Chakravarthula, E Tseng, T Srivastava, H Fuchs, F Heide
ACM Transactions on Graphics (TOG) 39 (6), 1-18, 2020
32020
Penetra3D: A penetrable, interactive, 360-degree viewable display
P Kumar, P Maes
2015 IEEE Symposium on 3D User Interfaces (3DUI), 169-170, 2015
22015
Methods, systems, and computer readable media for dynamic vision correction for in-focus viewing of real and virtual objects
PK Chakravarthula, H Fuchs
US Patent 10,319,154, 2019
12019
Steerable application-adaptive near eye displays
K Rathinavel, P Chakravarthula, K Akşit, J Spjut, B Boudaoud, T Whitted, ...
ACM SIGGRAPH 2018 Emerging Technologies, 1-2, 2018
12018
Foveated Neural Radiance Fields for Real-Time and Egocentric Virtual Reality
N Deng, Z He, J Ye, P Chakravarthula, X Yang, Q Sun
arXiv preprint arXiv:2103.16365, 2021
2021
Towards Eyeglass-style Holographic Near-eye Displays with Statically
X Xia, Y Guan, A State, P Chakravarthula, TJ Cham, H Fuchs
2020 IEEE International Symposium on Mixed and Augmented Reality (ISMAR …, 2020
2020
Improved vergence and accommodation via Purkinje Image tracking with multiple cameras for AR glasses
C Lu, P Chakravarthula, Y Tao, S Chen, H Fuchs
2020 IEEE International Symposium on Mixed and Augmented Reality (ISMAR …, 2020
2020
Enhanced Two-photon Absorption with Deep Learning-based Computer Generated Holography
MH Eybposh, NW Caira, M Atisa, P Chakravarthula, NC Pégard
Frontiers in Optics, FTu2B. 2, 2020
2020
Wirtinger Gradient Based Optimization for High-Quality Computer Generated Holography
P Chakravarthula, Y Peng, J Kollin, H Fuchs, F Heide
Digital Holography and Three-Dimensional Imaging, HF1D. 5, 2020
2020
The system can't perform the operation now. Try again later.
Articles 1–20