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Viktor Gruev
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2020 – today
- 2023
- [c44]Germain Haessig, Damien Joubert, Justin Haque, Moritz B. Milde, Tobi Delbruck, Viktor Gruev:
PDAVIS: Bio-inspired Polarization Event Camera. CVPR Workshops 2023: 3963-3972 - [c43]Tobi Delbruck, Zuowen Wang, Haiyang Mei, Germain Haessig, Damien Joubert, Justin Haque, Yingkai Chen, Moritz B. Milde, Viktor Gruev:
Live Demo: E2P-Events to Polarization Reconstruction from PDAVIS Events. CVPR Workshops 2023: 3973-3975 - 2021
- [i1]Germain Haessig, Damien Joubert, Justin Haque, Yingkai Chen, Moritz B. Milde, Tobi Delbrück, Viktor Gruev:
Bio-inspired Polarization Event Camera. CoRR abs/2112.01933 (2021) - 2020
- [c42]Darko Ivanovich, Chenfeng Zhao, Xuan Zhang, Roger D. Chamberlain, Amit Deliwala, Viktor Gruev:
Chip-to-chip Optical Data Communications using Polarization Division Multiplexing. HPEC 2020: 1-8 - [c41]Steven Blair
, Nan Cui, Missael Garcia, Viktor Gruev:
A 120 dB Dynamic Range Logarithmic Multispectral Imager for Near-Infrared Fluorescence Image-Guided Surgery. ISCAS 2020: 1-5 - [c40]Steven Blair
A 3.47 e- Read Noise, 81 dB Dynamic Range Backside-Illuminated Multispectral Imager for Near-Infrared Fluorescence Image-Guided Surgery. ISCAS 2020: 1-5
2010 – 2019
- 2018
- [c39]Steven Blair
A 120 dB, Asynchronous, Time-Domain, Multispectral Imager for Near-Infrared Fluorescence Image-Guided Surgery. BioCAS 2018: 1-4 - [c38]Missael Garcia, Kevin Kauffman, Tyler Davis, Radoslav Marinov, Viktor Gruev:
A 1280 by 720 by 3, 250 mW, 24 fps Hexachromatic Imager for Near-Infrared Fluorescence Image-Guided Surgery. ISCAS 2018: 1-5 - [c37]Missael Garcia, Kevin Kauffman, Tyler Davis, Radoslav Marinov, Viktor Gruev:
Live Demonstration: A 1280 by 720 by 3, 250 mW, 24 fps Hexachromatic Imager for Near-Infrared Fluorescence Image-Guided Surgery. ISCAS 2018: 1- - 2017
- [c36]Missael Garcia, Mohamed Zayed, Kyoung-mi Park, Viktor Gruev:
A 1600 by 1200, 300 mW, 40 fps multi-spectral imager for near-infrared fluorescence image-guided surgery. ISCAS 2017: 1-4 - [c35]Missael Garcia, Mohamed Zayed, Kyoung-mi Park, Viktor Gruev:
Live demonstration: A 1600 by 1200, 300 mW, 40 fps multi-spectral imager for near-infrared fluorescence image-guided surgery. ISCAS 2017: 1 - 2016
- [c34]Nan Cui, Timothy York, Radoslav Marinov, Suman Mondal, Shengkui Gao, Julie Margenthaler, Samuel Achilefu
A 110 × 64 150 mW 28 frames/s integrated visible/near-infrared CMOS image sensor with dual exposure times for image guided surgery. ISCAS 2016: 101-104 - 2015
- [j7]Jie Chen, Viktor Gruev, Guoxing Wang:
Guest Editorial - ISCAS 2014 Special Issue. IEEE Trans. Biomed. Circuits Syst. 9(2): 153-154 (2015) - [c33]Missael Garcia, Shengkui Gao, Christopher Edmiston, Timothy York, Viktor Gruev:
A 1300 × 800, 700 mW, 30 fps spectral polarization imager. ISCAS 2015: 1106-1109 - [c32]Shengkui Gao, Suman Mondal
A compact NIR fluorescence imaging system with goggle display for intraoperative guidance. ISCAS 2015: 1622-1625 - [c31]Shengkui Gao, Suman Mondal, Nan Zhu, Rongguang Liang, Samuel Achilefu
Live demonstration: A compact NIR fluorescence imaging system design with goggle display for intraoperative guidance. ISCAS 2015: 1910 - [c30]Missael Garcia, Shengkui Gao, Christopher Edmiston, Timothy York, Viktor Gruev:
Live demonstration: A 1300 × 800, 700 mW, 30 fps spectral polarization imager. ISCAS 2015: 1911 - 2014
- [j6]Nicholas W. Roberts
Animal Polarization Imaging and Implications for Optical Processing. Proc. IEEE 102(10): 1427-1434 (2014) - [j5]Timothy York, Samuel B. Powell
Bioinspired Polarization Imaging Sensors: From Circuits and Optics to Signal Processing Algorithms and Biomedical Applications. Proc. IEEE 102(10): 1450-1469 (2014) - [c29]Timothy York, Viktor Gruev, Debajit Saha, Baranidharan Raman
A 220 × 128 120 mW 60 frames/s current mode polarization imager for in vivo optical neural recording. ISCAS 2014: 1849-1852 - 2013
- [c28]Raphael Njuguna, Viktor Gruev:
Velocity saturation current-mode CMOS imaging sensor. ISCAS 2013: 2630-2633 - 2012
- [c27]Shengkui Gao, Viktor Gruev:
Gradient based interpolation for division of focal plane polarization imaging sensors. ISCAS 2012: 1855-1858 - [c26]Viktor Gruev:
Fabrication of a dual-layer aluminum nanowires polarization filter array. ISCAS 2012: 3130-3133 - [c25]Michael J. Hall
Performance of a resistance-to-voltage read circuit for sensing magnetic tunnel junctions. MWSCAS 2012: 639-642 - 2011
- [c24]Timothy York, Viktor Gruev:
Optical characterization of a polarization imager. ISCAS 2011: 1576-1579 - [c23]Michael J. Hall
Noise analysis of a current-mode read circuit for sensing magnetic tunnel junction resistance. ISCAS 2011: 1816-1819 - [c22]Rob Perkins, Viktor Gruev:
Noise modeling of Stokes parameters in division of focal plane polarization imagers. ISCAS 2011: 1828-1831 - [c21]Timothy York, Rob Perkins, Viktor Gruev:
Live demonstration: Material detection via an integrated polarization imager. ISCAS 2011: 1990 - 2010
- [j4]Viktor Gruev, Zheng Yang, Jan Van der Spiegel, Ralph Etienne-Cummings:
Current Mode Image Sensor With Two Transistors per Pixel. IEEE Trans. Circuits Syst. I Regul. Pap. 57-I(6): 1154-1165 (2010) - [c20]Viktor Gruev, Rob Perkins, Timothy York:
Material detection with a CCD polarization imager. AIPR 2010: 1-7 - [c19]Viktor Gruev, Rob Perkins:
A 1 MPixel CCD image sensor with aluminum nanowire polarization filter. ISCAS 2010: 629-632 - [c18]Raphael Njuguna, Viktor Gruev:
Linear current mode image sensor with focal plane spatial image processing. ISCAS 2010: 4265-4268
2000 – 2009
- 2009
- [c17]Piotr Dudek, Alexey Lopich, Viktor Gruev:
A pixel-parallel cellular processor array in a stacked three-layer 3D silicon-on-insulator technology. ECCTD 2009: 193-196 - [c16]Viktor Gruev, Jan Van der Spiegel, Nader Engheta:
Nano-wire Dual Layer Polarization Filter. ISCAS 2009: 561-564 - 2008
- [c15]Viktor Gruev, Jan Van der Spiegel, Nader Engheta:
Image sensor with focal plane polarization sensitivity. ISCAS 2008: 1028-1031 - [c14]Viktor Gruev, Jan Van der Spiegel, Nader Engheta:
Low power image sensor with polymer polarization filters. ISCAS 2008: 1412-1415 - [c13]Zheng Yang, Viktor Gruev, Jan Van der Spiegel:
Current-mode image sensor with 1.5 transistors per pixel and improved dynamic range. ISCAS 2008: 1850-1853 - [c12]Viktor Gruev, Zheng Yang, Jan Van der Spiegel:
Low power linear current mode imager with 1.5 transistors per pixel. ISCAS 2008: 2142-2145 - 2007
- [j3]Ralf M. Philipp, David Orr, Viktor Gruev, Jan Van der Spiegel, Ralph Etienne-Cummings:
Linear Current-Mode Active Pixel Sensor. IEEE J. Solid State Circuits 42(11): 2482-2491 (2007) - [c11]Zheng Yang, Viktor Gruev, Jan Van der Spiegel:
Low Fixed Pattern Noise Current-mode Imager Using Velocity Saturated Readout Transistors. ISCAS 2007: 2842-2845 - [c10]Viktor Gruev, Zheng Yang, Jan Van der Spiegel, Ralph Etienne-Cummings:
Two Transistor Current Mode Active Pixel Sensor. ISCAS 2007: 2846-2849 - 2006
- [c9]Ralph Etienne-Cummings, Swati Mehta, Ralf M. Philipp, Viktor Gruev:
Neuromorphic Vision Systems for Mobile Applications. CICC 2006: 531-534 - [c8]Viktor Gruev, Jan Van der Spiegel, Nader Engheta:
Image sensor with focal plane extraction of polarimetric information. ISCAS 2006 - [c7]Viktor Gruev, Jan Van der Spiegel, Ralf M. Philipp, Ralph Etienne-Cummings:
Image sensor with general spatial processing in a 3D integrated circuit technology. ISCAS 2006 - [c6]Viktor Gruev, Kejia Wu, Jan Van der Spiegel, Nader Engheta:
Fabrication of a thin film micro polarization array. ISCAS 2006 - [c5]Zheng Yang, Viktor Gruev, Jan Van der Spiegel:
A CMOS linear voltage/current dual-mode imager. ISCAS 2006 - 2004
- [j2]Viktor Gruev, Ralph Etienne-Cummings:
A pipelined temporal difference imager. IEEE J. Solid State Circuits 39(3): 538-543 (2004) - [c4]Viktor Gruev, Ralph Etienne-Cummings:
Active pixel sensor with on-chip normal flow computation on the read out. ICECS 2004: 215-218 - [c3]Viktor Gruev, Ralph Etienne-Cummings, Timothy K. Horiuchi:
Linear current mode imager with low fix pattern noise. ISCAS (4) 2004: 860-863 - 2001
- [j1]Ralph Etienne-Cummings, Viktor Gruev, Matthew A. Clapp:
High Performance Biomorphic Image Processing Under Tight Space and Power Constraints. Auton. Robots 11(3): 227-232 (2001) - 2000
- [c2]Viktor Gruev, Ralph Etienne-Cummings:
A programmable spatiotemporal image processor chip. ISCAS 2000: 325-328
1990 – 1999
- 1998
- [c1]Ralph Etienne-Cummings, Viktor Gruev, Mohammed Abdel Ghani:
VLSI Implementation of Motion Centroid Localization for Autonomous Navigation. NIPS 1998: 685-691
Coauthor Index
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