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2020 – today
- 2025
[j28]Yong Liu, Mengtian Kang
, Shuo Gao, Chi Zhang, Ying Liu, Shiming Li, Yue Qi, Arokia Nathan, Wenjun Xu, Chenyu Tang, Edoardo Occhipinti, Mayinuer Yusufu, Ningli Wang, Weiling Bai, Luigi G. Occhipinti:
Diagnosis of Multiple Fundus Disorders Amidst a Scarcity of Medical Experts via Self-Supervised Machine Learning. IEEE Internet Things J. 12(1): 224-235 (2025)- 2024
- [j27]Norhamizah Idros, Jagadheswaran Rajendran, Selvakumar Mariappan, Yizhi Li, Shengquan Wang, Nuha Rhaffor, Narendra Kumar, Abdullah Mohammed Alghaihab, Arokia Nathan, Binboga Siddik Yarman:
A 65-nm CMOS 1 GS/s 45 mW Hybrid Digital-to-Analog Converter (DAC) With Digital Deglitch Mechanism Achieving 13.83 fJ/step FOM for 5G New Radio Sub-6 GHz Applications. IEEE Access 12: 170596-170609 (2024) - [j26]Shengzhe Jiang, Chang Li, Jiping Du, Dongping Wang, Hanbin Ma, Jun Yu, Arokia Nathan:
Thin-Film Transistor Digital Microfluidics Circuit Design with Capacitance-Based Droplet Sensing. Sensors 24(15): 4789 (2024) - [c15]Shengbo Wang, Cong Li, Tongming Pu, Jian Zhang, Weihao Ma, Luigi G. Occhipinti, Arokia Nathan, Shuo Gao:
Real-Time State Modulation and Acquisition Circuit in Neuromorphic Memristive Systems. BioCAS 2024: 1-5 - [i7]Yong Liu, Mengtian Kang, Shuo Gao, Chi Zhang, Ying Liu, Shiming Li, Yue Qi, Arokia Nathan, Wenjun Xu, Chenyu Tang, Edoardo Occhipinti, Mayinuer Yusufu, Ningli Wang, Weiling Bai, Luigi G. Occhipinti:
Diagnosis of Multiple Fundus Disorders Amidst a Scarcity of Medical Experts Via Self-supervised Machine Learning. CoRR abs/2404.13388 (2024) - [i6]Shengbo Wang, Cong Li, Tongming Pu, Jian Zhang, Weihao Ma, Luigi G. Occhipinti, Arokia Nathan, Shuo Gao:
Real-Time State Modulation and Acquisition Circuit in Neuromorphic Memristive Systems. CoRR abs/2406.00378 (2024) - [i5]Mengtian Kang, Yansong Hu, Shuo Gao, Yuanyuan Liu, Hongbei Meng, Xuemeng Li, Xuhang Chen, Hubin Zhao, Jing Fu, Guohua Hu, Wei Wang, Yanning Dai, Arokia Nathan, Peter Smielewski, Ningli Wang, Shiming Li:
Deep Learning-Based Longitudinal Prediction of Childhood Myopia Progression Using Fundus Image Sequences and Baseline Refraction Data. CoRR abs/2407.21467 (2024) - [i4]Shengbo Wang, Shuo Gao, Tongming Pu, Liangbing Zhao, Arokia Nathan:
Ultrafast vision perception by neuromorphic optical flow. CoRR abs/2409.15345 (2024) - [i3]Shengbo Wang, Xuemeng Li, Jialin Ding, Weihao Ma, Ying Wang, Luigi G. Occhipinti, Arokia Nathan, Shuo Gao:
High-Order Associative Learning Based on Memristive Circuits for Efficient Learning. CoRR abs/2410.16734 (2024) - 2023
- [i2]Shengbo Wang, Shuo Gao, Chenyu Tang, Cong Li, Shurui Wang, Jiaqi Wang, Hubin Zhao, Guohua Hu, Arokia Nathan, Ravinder Dahiya, Luigi G. Occhipinti:
Intelligent machines work in unstructured environments by differential neural computing. CoRR abs/2309.08835 (2023) - 2022
- [j25]Shuo Gao, Yanning Dai, Arokia Nathan:
Tactile and Vision Perception for Intelligent Humanoids. Adv. Intell. Syst. 4(2) (2022) - [j24]Shuo Gao, Yanning Dai, Arokia Nathan:
Tactile and Vision Perception for Intelligent Humanoids. Adv. Intell. Syst. 4(2) (2022) - [j23]Oliver Ozioko, Arokia Nathan, Ravinder Dahiya:
Interactive Intelligent Systems and Haptic Interfaces. Adv. Intell. Syst. 4(2) (2022) - [j22]Meng Chu, Ziang Cui, Ailing Zhang, Jiale Yao, Chenyu Tang, Zhe Fu, Arokia Nathan, Shuo Gao:
Multisensory Fusion, Haptic, and Visual Feedback Teleoperation System Under IoT Framework. IEEE Internet Things J. 9(20): 19717-19727 (2022) - [c14]Arokia Nathan, Chen Jiang, Jun Yu, Hanbin Ma:
Ultralow Power Stretchable TFT Electronics: Extended Abstract. MIXDES 2022: 22-23 - [c13]Selvakumar Mariappan, Jagadheswaran Rajendran, Narendra K. Aridas, Arokia Nathan, Andrei Grebennikov, Binboga Siddik Yarman:
A 1.1-to-2.7 GHz CMOS Power Amplifier with Digitally-Reconfigurable-Impedance Matching-Network (DRIMN) for Wideband Performance optimization. PRIME 2022: 153-156 - 2021
- [b1]Shuo Gao, Shuo Yan, Hang Zhao, Arokia Nathan:
Touch-Based Human-Machine Interaction - Principles and Applications. Springer 2021, ISBN 978-3-030-68947-6, pp. 1-240 - [j21]Loganathan Ramalingam, Selvakumar Mariappan, Pharveen Parameswaran, Jagadheswaran Rajendran, Ram Sharma Nitesh, Narendra Kumar, Arokia Nathan, Binboga Siddik Yarman:
The Advancement of Radio Frequency Energy Harvesters (RFEHs) as a Revolutionary Approach for Solving Energy Crisis in Wireless Communication Devices: A Review. IEEE Access 9: 106107-106139 (2021) - [j20]Mojtaba Bagheri, Filippo Schembari, Hashem Zare-Hoseini, Robert Bogdan Staszewski, Arokia Nathan:
Interchannel Mismatch Calibration Techniques for Time-Interleaved SAR ADCs. IEEE Open J. Circuits Syst. 2: 420-433 (2021) - [c12]Selvakumar Mariappan, Jagadheswaran Rajendran, Narendra Kumar, Andrei Grebennikov, Arokia Nathan, Binboga Siddik Yarman:
A Wideband CMOS Power Amplifier with Integrated Digital Linearizer and Tunable Transformer. APCCAS 2021: 145-148
2010 – 2019
- 2019
- [j19]Chen Jiang, Xiang Cheng, Arokia Nathan:
Flexible Ultralow-Power Sensor Interfaces for E-Skin. Proc. IEEE 107(10): 2084-2105 (2019) - [i1]Chunjie Zhang, Yang Su, Siyi Hu, Kai Jin, Yuhan Jie, Wenshi Li, Arokia Nathan, Hanbin Ma:
An impedance sensing platform for monitoring heterogeneous connectivity and diagnostics in lab-on-a-chip systems. CoRR abs/1909.13085 (2019) - 2017
- [j18]Xiang Cheng, Sungsik Lee, G. Reza Chaji, Arokia Nathan:
Device-Circuit Interactions and Impact on TFT Circuit-System Design. IEEE J. Emerg. Sel. Topics Circuits Syst. 7(1): 71-80 (2017) - [c11]Philex Ming-Yan Fan, Hashem Zare-Hoseini, David G. Hasko, Arokia Nathan:
High power factor wireless power transfer front-end circuit for heterogeneous systems. MWSCAS 2017: 444-447 - 2016
- [j17]Shuo Gao, Victor Arcos, Arokia Nathan:
Piezoelectric vs. Capacitive Based Force Sensing in Capacitive Touch Panels. IEEE Access 4: 3769-3774 (2016) - [j16]Arokia Nathan, Shuo Gao:
Interactive Displays: The Next Omnipresent Technology [Point of View]. Proc. IEEE 104(8): 1503-1507 (2016) - 2015
- [j15]Sungsik Lee, Sanghun Jeon, G. Reza Chaji, Arokia Nathan:
Transparent Semiconducting Oxide Technology for Touch Free Interactive Flexible Displays. Proc. IEEE 103(4): 644-664 (2015) - 2013
- [c10]Arokia Nathan, Sungsik Lee, Sanghun Jeon:
Oxide electronics for imaging and displays. ESSCIRC 2013: 253-254 - 2012
- [j14]Arokia Nathan, Arman Ahnood, Matthew T. Cole, Sungsik Lee, Yuji Suzuki, Pritesh Hiralal, Francesco Bonaccorso, Tawfique Hasan, Luis Garcia-Gancedo, Andriy Dyadyusha, Samiul Haque, Piers Andrew, Stephan Hofmann, James Moultrie, Daping Chu, Andrew J. Flewitt, Andrea C. Ferrari, Michael J. Kelly, John Robertson, Gehan A. J. Amaratunga, William I. Milne:
Flexible Electronics: The Next Ubiquitous Platform. Proc. IEEE 100(Centennial-Issue): 1486-1517 (2012) - 2010
- [c9]G. Reza Chaji, Stefan Alexander, J. Marcel Dionne, Yaser Azizi, Corbin Church, John Hamer, Jeff Spindler, Arokia Nathan:
Stable RGBW AMOLED display with OLED degradation compensation using electrical feedback. ISSCC 2010: 118-119
2000 – 2009
- 2008
- [j13]G. Reza Chaji, Arokia Nathan:
A Current-Mode Comparator for Digital Calibration of Amorphous Silicon AMOLED Displays. IEEE Trans. Circuits Syst. II Express Briefs 55-II(7): 614-618 (2008) - [c8]Nader Safavian, Karim S. Karim, Arokia Nathan, John A. Rowlands:
A 3-TFT hybrid active-passive pixel with correlated double sampling CMOS readout circuit for real-time medical x-ray imaging. ESSCIRC 2008: 122-125 - 2007
- [c7]G. Reza Chaji, Arokia Nathan:
A Sub-μA fast-settling current-programmed pixel circuit for AMOLED displays. ESSCIRC 2007: 344-347 - [c6]Nader Safavian, G. Reza Chaji, Shahin Jafarabadi-Ashtiani, Arokia Nathan, John A. Rowlands:
A novel current scaling active pixel sensor with correlated double sampling readout circuit for real time medical x-ray imaging. ISCAS 2007: 93-96 - 2006
- [j12]Sanjiv Sambandan, Arokia Nathan:
Stable Organic LED Displays Using RMS Estimation of Threshold Voltage Dispersion. IEEE Trans. Circuits Syst. II Express Briefs 53-II(9): 941-945 (2006) - [c5]Shahin Jafarabadi-Ashtiani, Arokia Nathan:
A Driving Scheme for AMOLED Displays Based on Current Feedback. CICC 2006: 289-292 - [c4]G. Reza Chaji, Arokia Nathan:
High-precision, fast current source for large-area current-programmed a-Si flat panels. ISCAS 2006 - 2005
- [j11]Arokia Nathan, Babu Chalamala:
Special Issue on Flexible Electronics Technology, Part 1: Systems and Applications. Proc. IEEE 93(7): 1235-1238 (2005) - [j10]Peyman Servati, Arokia Nathan:
Functional Pixel Circuits for Elastic AMOLED Displays. Proc. IEEE 93(7): 1257-1264 (2005) - [j9]Arokia Nathan, Babu Chalamala:
Special Issue on Flexible Electronics Technology, Part II: Materials and Devices. Proc. IEEE 93(8): 1391-1393 (2005) - [j8]Andrei Sazonov, Denis Striakhilev, Czang-Ho Lee, Arokia Nathan:
Low-Temperature Materials and Thin Film Transistors for Flexible Electronics. Proc. IEEE 93(8): 1420-1428 (2005) - 2004
- [j7]Arokia Nathan, Anil Kumar, Kapil Sakariya, Peyman Servati, Sanjiv Sambandan, Denis Striakhilev:
Amorphous silicon thin film transistor circuit integration for organic LED displays on glass and plastic. IEEE J. Solid State Circuits 39(9): 1477-1486 (2004) - [j6]Karim S. Karim, Peyman Servati, Arokia Nathan:
High voltage amorphous silicon TFT for use in large area applications. Microelectron. J. 35(3): 311-315 (2004) - 2003
- [c3]Arokia Nathan, Kapil Sakariya, Anil Kumar, Peyman Servati, Karim S. Karim, Denis Striakhilev, Andrei Sazonov:
Amorphous silicon TFT circuit integration for OLED displays on glass and plastic. CICC 2003: 215-222 - 2002
- [j5]Arokia Nathan, Byung-kyu Park, Qinghua Ma, Andrei Sazonov, John A. Rowlands:
Amorphous silicon technology for large area digital X-ray and optical imaging. Microelectron. Reliab. 42(4-5): 735-746 (2002) - 2001
- [c2]Karim S. Karim, Peyman Servati, N. Mohan, Arokia Nathan, John A. Rowlands:
VHDL-AMS modeling and simulation of a passive pixel sensor in a-Si: H technology for medical imaging. ISCAS (5) 2001: 479-482
1990 – 1999
- 1999
- [j4]Hoan H. Pham, Arokia Nathan:
An integral equation of the second kind for computation of capacitance. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 18(10): 1435-1441 (1999) - 1998
- [c1]Hoan H. Pham, Arokia Nathan:
A new formulation for accurate numerical extraction of interconnect capacitance in ULSI. ICECS 1998: 99-102 - 1995
- [j3]Asim Salim, Tajinder Manku, Arokia Nathan:
Modeling of magnetic field sensitivity of bipolar magnetotransistors using HSPICE. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 14(4): 464-469 (1995) - 1991
- [j2]Walter Allegretto, Arokia Nathan, Henry Baltes:
Numerical analysis of magnetic-field-sensitive bipolar devices. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 10(4): 501-511 (1991) - 1990
- [j1]Arokia Nathan, Henry Baltes, Walter Allegretto:
Review of physical models for numerical simulation of semiconductor microsensors. IEEE Trans. Comput. Aided Des. Integr. Circuits Syst. 9(11): 1198-1208 (1990)
Coauthor Index
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