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ORCIDGregory D. Durgin
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2020 – today
- 2021
[j15]Seyed Reza Zekavat, R. Michael Buehrer, Gregory D. Durgin, Lisandro Lovisolo, Zhonghai Wang, Shu Ting Goh
, Ahmad Ghasemi:
An Overview on Position Location: Past, Present, Future. Int. J. Wirel. Inf. Networks 28(1): 45-76 (2021)- [j14]Mohammad Alhassoun, Gregory D. Durgin:
Spatial Fading in Retrodirective Channels: An Experimental Study. IEEE Trans. Wirel. Commun. 20(9): 5812-5820 (2021) - [c44]Blake R. Marshall, Gregory D. Durgin:
Synthesis of Compact, Low-Loss Beam-forming Networks for RF Energy Harvesting. RFID 2021: 1-7 - [c43]Cheng Qi, Francesco Amato, Gregory D. Durgin:
A Real-time RFID Positioning System Using Tunneling Tags. RFID 2021: 1-6 - [c42]Cheng Qi, Francesco Amato, Yiliang Guo, Ying Zhang, Gregory D. Durgin:
A Backscatter Channel Sounder Using Tunneling RFID Tags. RFID 2021: 1-7 - [c41]Gregory D. Durgin, Michael A. Varner, Mary Ann Weitnauer, John D. Cressler, Manos M. Tentzeris, Alenka G. Zajic, Saeed Zeinolabedinzadeh, Seyed Reza Zekavat, Kaveh Pahlavan, Ulkuhan Guler, Kobus van der Merwe:
Digital Spectrum Twinning and the Role of RFID and Backscatter Communications in Spectral Sensing. RFID-TA 2021: 89-92 - [c40]Trevor Stanca, Billy Kihei, Cheng Qi, Gregory D. Durgin:
Observing Driver Behavior Using Doppler Shift and UID from 5.8GHz RFID Active Tags. WF-IoT 2021: 397-402 - [c39]Gregory D. Durgin, Stewart J. Thomas:
Space-Based Ambient Power for Sensors and Other Low-Power Applications. WiSEE 2021: 20-26 - 2020
- [j13]Fanpeng Kong, Maysam Ghovanloo, Gregory D. Durgin:
An Adaptive Impedance Matching Transmitter for a Wireless Intraoral Tongue-Controlled Assistive Technology. IEEE Trans. Circuits Syst. II Express Briefs 67-II(2): 240-244 (2020) - [c38]Cheng Qi, Francesco Amato, Billy Kihei, Gregory D. Durgin:
Fine-scale Through-Wall Positioning Using Tunneling RFID Tags. RFID 2020: 1-7 - [c37]Scott Roman, Gregory D. Durgin:
Theoretical Modeling of Complicated Inductive Wireless Power Transfer Systems. RFID 2020: 1-6 - [c36]Qian Yang, David G. Taylor, Gregory D. Durgin:
Simulation Model of RFID System for RFID-Based Motion-Capture and Localization. RFID 2020: 1-6 - [c35]Qian Yang, David G. Taylor, Gregory D. Durgin:
Nonlinear Least-Squares State Estimation for 2D RFID-Based Motion Capture. RFID 2020: 1-8
2010 – 2019
- 2019
- [j12]Fanpeng Kong, Md. Nazmus Sahadat, Maysam Ghovanloo, Gregory D. Durgin:
A Stand-Alone Intraoral Tongue-Controlled Computer Interface for People With Tetraplegia. IEEE Trans. Biomed. Circuits Syst. 13(5): 848-857 (2019) - [j11]Mohammad Alhassoun, Gregory D. Durgin:
A Theoretical Channel Model for Spatial Fading in Retrodirective Backscatter Channels. IEEE Trans. Wirel. Commun. 18(12): 5845-5854 (2019) - [c34]Mohammad Alhassoun, Gregory D. Durgin:
Spatial Fading in Backscatter Channels: Theory and Models. CCNC 2019: 1-6 - [c33]Cheng Qi, Francesco Amato, Mohammad Alhassoun, Gregory D. Durgin:
Breaking the Range Limit of RFID Localization: Phase-based Positioning with Tunneling Tags. RFID 2019: 1-8 - [c32]Muhammad Bashir Akbar, David G. Taylor, Gregory D. Durgin:
Planar Position and Orientation Estimation Using a 5.8 GHz RFID System. RFID-TA 2019: 252-257 - [c31]Mohammad Alhassoun, Gregory D. Durgin:
A Comparative Study of Coupler-Based Retrodirective Arrays for Next-Generation RFID Tags. RFID-TA 2019: 439-443 - [c30]Emily Backer, Mohammad Alhassoun, Gregory D. Durgin:
Design of a Circular-Patch Reflectarray for Microwave Power Transfer and Communications in Space. WiSEE 2019: 93-98 - 2018
- [j10]Francesco Amato, Hakki Mert Torun, Gregory D. Durgin:
RFID Backscattering in Long-Range Scenarios. IEEE Trans. Wirel. Commun. 17(4): 2718-2725 (2018) - [c29]Mohammad Alhassoun, Michael A. Varner, Gregory D. Durgin:
Design and evaluation of a multi-modulation retrodirective RFID tag. RFID 2018: 1-8 - [c28]Michael A. Varner, Mohammad Alhassoun, Gregory D. Durgin:
Partitioned pseudo-retrodirective arrays for capacity expansion of backscatter communication channels. RFID 2018: 1-7 - [c27]Qian Yang, David G. Taylor, Gregory D. Durgin:
Kalman filter based localization and tracking estimation for HIMR RFID systems. RFID 2018: 1-5 - [c26]Cheng Qi, Joshua D. Griffin, Gregory D. Durgin:
Low-power and Compact Microwave RFID Reader for Sensing Applications in Space. RFID-TA 2018: 1-6 - [c25]Michael A. Varner, Gregory D. Durgin:
Reflection of Modulated Radio (ReMoRa): Link Analysis of Ambient Scatter Radio Using Perfect Pulses. SPAWC 2018: 1-5 - [c24]Cheng Qi, Quentin Frederick, Kaleb Davis, Dakota Lindsay, Julie Cox, Stephen Parke, Joshua D. Griffin, Gregory D. Durgin:
A 5.8 GHz Energy Harvesting Tag for Sensing Applications in Space. WiSEE 2018: 218-223 - 2017
- [c23]Mohammad Alhassoun, Francesco Amato, Gregory D. Durgin:
A multi-modulation retrodirective feed network for backscatter communications. PIMRC 2017: 1-5 - [c22]Gregory D. Durgin, Brian P. Degnan:
A better channel code than FM0 for next-generation RFID. RFID 2017: 1-5 - [c21]Michael A. Varner, Rajib Bhattacharjea, Gregory D. Durgin:
Perfect pulses for ambient backscatter communication. RFID 2017: 13-19 - [c20]Francesco Amato, Hakki Mert Torun, Gregory D. Durgin:
Beyond the limits of classic backscattering communications: A quantum tunneling RFID tag. RFID 2017: 20-25 - [c19]Brian P. Degnan, Gregory D. Durgin, Suigin Maeda:
On the Simon Cipher 4-block key schedule as a hash. RFID 2017: 36-40 - [c18]Peter Hillyard, Cheng Qi, Amal Al-Husseiny, Gregory D. Durgin, Neal Patwari:
Focusing through walls: An E-shaped patch antenna improves whole-home radio tomography. RFID 2017: 174-181 - [c17]Stephen M. Dumas, T. Alan Lovell, Andrew J. Sinclair, Gregory D. Durgin:
Analysis of error in time difference of arrival measurements introduced by the motion of satellite-based receivers. WiSEE 2017: 37-42 - [c16]Hiba Murali, John Bell, Qi Cheng, Kevin M. Mairena, Erik Centeno, Gregory D. Durgin, Evan Shi:
Using inkjet printed circuits on a transparent substrate for microwave energy harvesting for space based solar power. WiSEE 2017: 140-143 - 2016
- [j9]Jeffrey G. Andrews, Xinchen Zhang, Gregory D. Durgin, Abhishek K. Gupta:
Are we approaching the fundamental limits of wireless network densification? IEEE Commun. Mag. 54(10): 184-190 (2016) - [c15]Gregory D. Durgin:
RF thermoelectric generation for passive RFID. IEEE RFID 2016: 183-190 - [c14]Muhammad B. Akbar, Cheng Qi, Mohammad Alhassoun, Gregory D. Durgin:
Orientation sensing using backscattered phase from multi-antenna tag at 5.8 GHz. IEEE RFID 2016: 205-212 - [c13]Alex Cheu, Marcin M. Morys, Christopher Robert Anderson, Gregory D. Durgin:
RF propagation through vegetation with time-varying moisture. RWS 2016: 73-75 - [c12]Muhammad B. Akbar, Francesco Amato, Albert Claessen, Gregory D. Durgin:
Broadband backscatter based technique to identify the presence of skimming electronics on payment terminals. RWS 2016: 141-144 - [c11]Francesco Amato, Gregory D. Durgin:
Signal-to-noise ratio measurements for IoT communications with quantum tunneling reflectors. WF-IoT 2016: 383-388 - 2015
- [j8]Muhammad B. Akbar, David G. Taylor, Gregory D. Durgin:
Hybrid Inertial Microwave Reflectometry for mm-Scale Tracking in RFID Systems. IEEE Trans. Wirel. Commun. 14(12): 6805-6814 (2015) - [c10]Blake R. Marshall, Marcin M. Morys, Gregory D. Durgin:
Parametric analysis and design guidelines of RF-to-DC Dickson charge pumps for RFID energy harvesting. IEEE RFID 2015: 32-39 - [c9]Muhammad B. Akbar, David G. Taylor, Gregory D. Durgin:
Amplitude and phase difference estimation bounds for multisensor based tracking of RFID Tags. IEEE RFID 2015: 105-112 - [c8]Francesco Amato, Christopher W. Peterson, Brian P. Degnan, Gregory D. Durgin:
A 45 μW bias power, 34 dB gain reflection amplifier exploiting the tunneling effect for RFID applications. IEEE RFID 2015: 137-144 - [c7]Gregory D. Durgin:
Balanced codes for more throughput in RFID and backscatter links. RFID-TA 2015: 65-70 - [c6]Brian P. Degnan, Gregory D. Durgin:
Asynchronous trigger modulation for RFID systems. RFID-TA 2015: 153-158 - [c5]Francesco Amato, Christopher W. Peterson, Muhammad B. Akbar, Gregory D. Durgin:
Long range and low powered RFID tags with tunnel diode. RFID-TA 2015: 182-187 - [c4]Francesco Amato, Chris M. Beaulieu, Anteneh T. Haile, Jingyuan Liang, Kevin M. Mairena, Hiba Murali, George O. Udeochu, Ikenna C. Uzoije, Philip J. Wolfe, Gregory D. Durgin:
5.8 GHz energy harvesting of space based solar power using inkjet printed circuits on a transparent substrate. WiSEE 2015: 1-3 - [i1]Jeffrey G. Andrews, Xinchen Zhang, Gregory D. Durgin, Abhishek K. Gupta:
Are We Approaching the Fundamental Limits of Wireless Network Densification? CoRR abs/1512.00413 (2015) - 2013
- [c3]Blake R. Marshall, Gregory D. Durgin:
Staggered pattern charge collector design and optimization. RWS 2013: 67-69 - 2012
- [j7]Rajib Bhattacharjea, Gregory D. Durgin, Christopher Robert Anderson:
Estimation of Rician K-Factors from Block-Averaged Channel Measurements. IEEE Trans. Wirel. Commun. 11(12): 4231-4236 (2012)
2000 – 2009
- 2009
- [j6]Ryan Jesse Pirkl, Gregory D. Durgin:
Revisiting the spread spectrum sliding correlator: why filtering matters. IEEE Trans. Wirel. Commun. 8(7): 3454-3457 (2009) - [c2]Masaaki Yamanaka, M. Enomoto, Ryan Jesse Pirkl, Gregory D. Durgin, Seiichi Sampei, Norihiko Morinaga:
The minimum number of adaptive array antenna elements for interference suppression in ubiquitous communication environments. WCNC 2009: 924-929 - 2008
- [b2]Andrew F. Peterson, Gregory D. Durgin:
Transient Signals on Transmission Lines: An Introduction to Non-Ideal Effects and Signal Integrity Issues in Electrical Systems. Synthesis Lectures on Computational Electromagnetics, Morgan & Claypool Publishers 2008, pp. 1-144 - [j5]Ryan Jesse Pirkl, Gregory D. Durgin:
Optimal Sliding Correlator Channel Sounder Design. IEEE Trans. Wirel. Commun. 7(9): 3488-3497 (2008) - 2007
- [j4]Joshua D. Griffin, Gregory D. Durgin:
Link Envelope Correlation in the Backscatter Channel. IEEE Commun. Lett. 11(9): 735-737 (2007) - [c1]Lorne Liechty, Eric Reifsnider, Greg Durgin:
Developing the Best 2.4 GHz Propagation Model from Active Network Measurements. VTC Fall 2007: 894-896 - 2002
- [j3]Gregory D. Durgin, Theodore S. Rappaport, David A. de Wolf:
New analytical models and probability density functions for fading in wireless communications. IEEE Trans. Commun. 50(6): 1005-1015 (2002) - 2001
- [b1]Gregory D. Durgin:
Theory of Stochastic Local Area Channel Modeling for Wireless Communications. Virginia Tech, Blacksburg, VA, USA, 2001
1990 – 1999
- 1998
- [j2]Gregory D. Durgin, Theodore S. Rappaport, Hao Xu:
5.85-GHz radio path loss and penetration loss measurements in and around homes and trees. IEEE Commun. Lett. 2(3): 70-72 (1998) - [j1]Gregory D. Durgin, Theodore S. Rappaport, Hao Xu:
Measurements and models for radio path loss and penetration loss in and around homes and trees at 5.85 GHz. IEEE Trans. Commun. 46(11): 1484-1496 (1998)
Coauthor Index
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