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Muralidhar Madabhushi Balaji
Muralidhar Madabhushi Balaji
Verified email at smu.edu
Title
Cited by
Cited by
Year
Deep-inverse correlography: towards real-time high-resolution non-line-of-sight imaging
CA Metzler, F Heide, P Rangarajan, MM Balaji, A Viswanath, ...
Optica 7 (1), 63-71, 2020
1282020
Fast non-line-of-sight imaging with high-resolution and wide field of view using synthetic wavelength holography
F Willomitzer, PV Rangarajan, F Li, MM Balaji, MP Christensen, ...
Nature communications 12 (1), 6647, 2021
412021
High resolution non-line-of-sight imaging with superheterodyne remote digital holography
F Willomitzer, F Li, MM Balaji, P Rangarajan, O Cossairt
Computational Optical Sensing and Imaging, CM2A. 2, 2019
222019
Synthetic wavelength holography: An extension of Gabor's holographic principle to imaging with scattered wavefronts
F Willomitzer, PV Rangarajan, F Li, MM Balaji, MP Christensen, ...
arXiv preprint arXiv:1912.11438, 2019
182019
Resolving non line-of-sight (nlos) motion using speckle
MM Balaji, A Viswanath, P Rangarajan, D MacFarlane, MP Christensen
Computational Optical Sensing and Imaging, CM2E. 2, 2018
102018
Exploiting wavelength diversity for high resolution time-of-flight 3D imaging
F Li, F Willomitzer, MM Balaji, P Rangarajan, O Cossairt
IEEE Transactions on Pattern Analysis and Machine Intelligence 43 (7), 2193-2205, 2021
92021
Single-shot holography using scattering surfaces
MM Balaji, P Rangarajan, D MacFarlane, A Corliano, MP Christensen
Computational Optical Sensing and Imaging, CTu2B. 1, 2017
82017
Solving inverse problems using self-supervised deep neural nets
J Liu, MM Balaji, CA Metzler, MS Asif, P Rangarajan
Computational Optical Sensing and Imaging, CTh5A. 2, 2021
52021
Foveated non-line-of-sight imaging
A Dave, MM Balaji, P Rangarajan, A Veeraraghavan, MP Christensen
Computational Optical Sensing and Imaging, CTh5C. 6, 2020
32020
Imaging operator in indirect imaging correlography
MM Balaji, J Liu, D Ahsanullah, P Rangarajan
Optics Express 31 (13), 21689-21705, 2023
22023
Synthetic wavelength holography: Snapshot non-line-of-sight imaging with high-resolution and wide field of view
F Willomitzer, P Rangarajan, F Li, M Balaji, M Christensen, O Cossairt
22020
Spatiotemporal holography using flutter shutter camera
MM Balaji, P Rangarajan, I Sinharoy, D MacFarlane, MP Christensen
Frontiers in Optics, FM3C. 4, 2017
22017
Imaging through Scatter using Hyperspectral Speckle
MM Balaji, D Ahsanullah, P Rangarajan
Computational Optical Sensing and Imaging, CM3A. 3, 2022
12022
Modeling diffraction off Digital Micromirror Devices
D Ahsanullah, MM Balaji, B Gnade, B Snider, P Rangarajan
Computational Optical Sensing and Imaging, CF2E. 4, 2021
12021
Indirect imaging using virtualized pattern projection
A Viswanath, MM Balaji, P Rangarajan, D MacFarlane, MP Christensen
Computational Optical Sensing and Imaging, CM2E. 8, 2018
12018
Deep-inverse correlography: towards real-time high-resolution non-line-of-sight imaging: supplementary material
CA Metzler, F Heide, P Rangarajan, MM Balaji, A Viswanath, ...
1
Hyperspectral Speckle Imaging for Detecting Objects Obscured by Heavily Scattering Medium
MM Balaji, D Ahsanullah, P Rangarajan
Frontiers in Optics, FTh1D. 3, 2023
2023
Foveated Imaging through Densely Scattering Media
MM Balaji, D Ahsanullah, P Rangarajan
Computational Optical Sensing and Imaging, CW4B. 4, 2023
2023
The Light Scaled Space-Time Bandwidth Product for Characterization of Image Sensors
D Ahsanullah, MM Balaji, P Rangarajan
Computational Optical Sensing and Imaging, CTu2B. 3, 2023
2023
A Low SWaP-C Passive Method for Increasing Native Modulation Contrast in Semiconductor Light Sources
D Ahsanullah, MM Balaji, P Rangarajan
Computational Optical Sensing and Imaging, CTh3A. 3, 2023
2023
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