
Bio:
Dr. Sungyong Jung joined the Herff College of Engineering in July 2026 as chair of the Department of Electrical and Computer Engineering. Prior to joining the University of Memphis and the Herff College of Engineering, Jung served as the department of head of Electrical Engineering and Computer Science at South Dakota State University.
A respected scholar and experienced academic leader, he brings a strong record of advancing engineering education, growing research programs and fostering interdisciplinary collaboration. His expertise spans intelligent systems, sensing technologies, integrated circuits and emerging technologies, areas that align closely with the future direction of our department and college.
Learn more about Dr. Sungyong Jung
- Ph.D. in Electrical Engineering: May 2002
Georgia Institute of Technology, Atlanta, Georgia
M.S. in Electronic Engineering: February 1993
Yeungnam University, Taegu, South Korea
B.S. in Electronic Engineering: February 1991
Yeungnam University, Taegu, South Korea
• Electrochemical and bio sensing embedded system.
• Wearable devices
• Analog and mixed signal integrated circuit.
• Radio Frequency integrated circuits and systems.
• Opto-electronic integrated circuits and systems.
• Digital signal processing.
paper award.
• Research Excellence Monetary Award, 2009, College of Engineering, UTA
• Grantswinship Award, 2025, J. Lohr College of Engineering, SDSU
- Full Professor: Jul. 2024 – present
McComish Department of Electrical Engineering and Computer Science
South Dakota State University
Full Professor: Sep. 2023 – Jun. 2024
Department of Electrical Engineering
University of Texas at Arlington
Associate Professor: Sep. 2008 – Aug. 2023
Department of Electrical Engineering
University of Texas at Arlington
Assistant Professor: Sep. 2002 – Aug. 2008
Department of Electrical Engineering
University of Texas at Arlington
Advanced Circuit Engineer: Feb. 2001 – July. 2002
Quellan Inc., Atlanta, GA
Research Assistant: Jan, 1996 – Feb, 2001
Georgia Institute of Technology, Atlanta, GA
DEPARTMENT HEAD
Jul. 2024 – present
McComish Department of Electrical Engineering and Computer Science
South Dakota State University
• Completed ABET evaluation for the computer science program
• Led and completed undergraduate curriculum revamping
• Led and completed 5-year BS/MS accelerated program in electrical engineering
program.
• Leading ABET preparation for the Electrical Engineering
• Initiating and leading two graduate certificate programs for intelligent systems
engineering and power systems engineering
• Initiating and leading new UG minor degree program development in intelligent systems
engineering and power systems engineering
• Initiating and leading Artificial Intelligence BS/MS/PhD degree program development
• Leading six new faculty hiring process
• Leading computer science online program
• Maintaining department budget
• Initiating and leading AI symposium and AI colloquium at the department level
• Initiating and leading new EECS student club
• Obtained the department endowment ($1M) by collaborating with SDSU Foundation
ASSOCIATE CHAIR
Jan. 2017 – Jun. 2024
Department of Electrical Engineering
University of Texas at Arlington
• Course scheduling
• Faculty teaching assignments
• Mentoring faculty/staff
• Preparing for ABET evaluation
• Observing faculty teaching
• Forming/leading committees
• Developing undergraduate (UG) track program
• Leading UG/MS certificate program development for embedded system, electronic
propulsion, photonics, power system management, and cyber-physical system
• Selecting and assigning graduate teaching assistants and graders
• Managing EE catalogue
• Developing/implementing EE UG research initiative programs
• Organizing EE UG research forum
• Forming/leading student feedback groups
• Leading graduate teaching assistant (GTA)/grader meetings and GTA evaluation
1. Q. Qu, S. Lu, L. Shang, S. Jung, Q. Liang, and C. Pan, “Variation-Aware Memristor-Based
Analog Accelerator for Vision Transformer,” IEEE Transactions on Emerging Topics in
Computing, submitted, 2025.
2. S. Lu, P. Z. Pei, L. Shang, S. Jung, Q. Liang, and C. Pan, “Graphene-Based Interconnect
Exploration for FPGA Design and Optimization Towards End-of-the-Roadmap,” IEEE
Transactions on Nanotechnology, submitted, 2025.
3. L. Shang, S. Lu, S. Jung, Q. Liang, and C. Pan, “Novel FPGA Technology Mapping
for Dual-
Output LUTs: Methodology and Application,” IEEE Transactions on Computer-Aided
Design of Integrated Circuits and Systems, accepted, 2025.
4. S. Lu, L. Shang, S. Jung, Q. Liang, C. Pan, “A Novel RFET-based FPGA Architecture
based
on Delay-Aware Packing Algorithm,” IEEE Transactions on Emerging Topics in
Computing, vol. 13, issue 3, pp. 1230-1241, 2025.
5. S. Lu, L. Shang, S. Jung, Y. Zhang, Q. Liang, and C. Pan, “Technology/System Co-
Optimization for FPGA Using Emerging Reconfigurable Logic Device,” Journal on
Emerging Technologies in Computing Systems, vol. 21, issue 3, pp. 1-21, 2025.
6. S. Lakshminarayana, H. Park, and S. Jung, “Emerging Technologies in CMOS Integrated
Sensing System-On-Chip: A Review,” IEEE Sensors Reviews, vol. 2, pp. 397-404, 2025.
7. M. Reddy, M. Ranganatha, S. Lakshminarayana, J. Kim, S. Jung, Y. Sun, and H. Park,
“Detection of Cisplatin Resistance in Bladder Cancer Using Machine Learning,” IEEE
Access, vol. 13, pp. 105434-105445, 2025.
8. L. Shang, S. Lu, S. Jung, Q. Liang, and C. Pan, “An Efficient Multi-Output LUT
Mapping
Technique for Field-Programmable Gate Arrays,” Electronics, vol. 14, issue 9, 2025.
9. M. Chilukuri, S. Lakshminarayana, H. Park, C. Pan, H. Chung, and S. Jung, “A Low-Noise,
Low-Offset CMOS Readout IC for Amperometric Biosensors,” IEEE Access, vol. 12, pp.
180619-180630, 2025.
10. S. Lakshminarayana, R. Perumalsamy, C. Pan, S. Jung, H. Chung, and H. Park, “A
CMOS
Switched Capacitor Filter Based Potentiometric Readout Circuit for pH Sensing System,”
Journal of Low Power Electronics and Applications, vol. 15, issue 1, 2025.
11. S. Lakshminarayana, M. Ranganatha, H. Park, and S. Jung, “Trimodal Watch-Type
Wearable Health Monitoring Device,” Applied Science, vol. 14, pp. 9267, 2024.
12. L. Shang, S. Lu, Y. Zhang, S. Jung, and C. Pan, “Directed Acyclic Graph-Based
Datapath
Synthesis Using Graph Isomorphism and Gate Reconfiguration,” Chips, vol. 3, pp. 182-
195, 2024.
13. H. Park, Y. Sun, and S. Jung, “Balanced Resistive Matrix Array for High-density
Electrochemical Sensor Array,” IEEE Sensors Journal, vol. 23, pp. 14323-14329, 2023.
14. H. Park, L. Nguyen, S. Lakshminarayana, Y. Sun, and S. Jung, “Watch-Type Dual-Mode
Wearable Health Device,” ECS Sensors Plus, vol. 2, no. 1, 2023.
15. H. Park, Y. Park, S. Lakshminarayana, H. Jung, M. Kim, K. Lee, and S. Jung, “Portable
Allin-
One Electroanalytical Device for Point of Care,” IEEE Access, vol. 10, pp. 68700-68710,
2022.
16. L. Shang, S. Jung, and C. Pan, “Fault-Aware Adversary Attack Analyses and Enhancement
for RRAM-based Neuromorphic Accelerator,” Frontiers in Sensors, vol. 3, 2022.
17. S. Lakshminarayana, Y. Park, H. Park, and S. Jung, “A Readout System for High
Speed
Interface of Wide Range Chemiresistive Sensor Array,” IEEE Access, vol. 10, pp. 45726-
45735, 2022.
18. H. Cho, F. Tong, S. You, S. Jung, W. Kim, and J. Kim, “Prediction of the Immune
Phenotypes of Bladder Cancer Patients for Precision Oncology,” IEEE Open Journal of
Engineering in Medicine and Biology, vol. 3, pp. 47-57, 2022.
19. H. Park, S. Lakshminarayana, C. Pan, H. Chung, and S. Jung, “An Auto Adjustable
Transimpedance Readout System for Wearable Healthcare Devices,” Electronics, vol.
11,
issue. 8, 1181, 2022.
20. S. Lakshminarayana, Y. Park, H. Park, and S. Jung, “High Density Resistive Array
Readout
System for Wearable Electronics,” Sensors, vol. 22, issue. 5, 1878, 2022.
21. Z. Pei, A. Dutta, S. Jung, and C. Pan, “Interconnect Technology/System Co-Optimization
for Low-Power VLSI Applications Using Ballistic Materials,” IEEE Transactions on Electron
Devices, vol. 68, issue 7, pp. 3513-3519, 2021.
22. Z. Pei, L. Shang, S. Jung, and C. Pan, “Deep Pipeline Circuit for Low-Power Spintronic
Devices,” IEEE Transactions on Electron Devices, vol. 68 (4), pp. 1962-1968, 2021.
23. S. Kim, J. Brady, F. Al-Badani, S. Yu, J. Hart, S. Jung, T. Tran, and N. Myung,
“Nanoengineering Approaches Toward Artificial Nose,” Frontiers in Chemistry, vol.
9, pp.
1-29, 2021.
24. H. Park, P. Jin, S. Jung, and J. Kim, “Quick overview of diagnostic kits and smartphone
apps for urologists during the COVID-19 pandemic: a narrative review,” Translational
Andrology and Urology, vol. 10 (2), pp. 939-953, 2021.
25. P. Jin, H. Park, S. Jung, and J. Kim, “Challenges in Urology during the COVID-19
Pandemic,” Urologia Internationalis, vol. 105. No. 1-2, pp. 3-16, 2021.
26. H. Park, S. Jung, and H. Chung, “An Analog Correlator Based CMOS Analog Front
End
with Digital Gain Control Circuit for Hearing Aid Devices,” Analog Integrated Circuits
and
Signal Processing, pp. 157-165, 2020.
27. F. Tong, M. Shahid, P. Jin, S. Jung, W. Kim, and J. Kim, “Classification of the
Urinary
Metabolome using Machine Learning and Potential Applications to Diagnosing
Interstitial Cystitis,” Bladder Journal, vol. 7 (2), pp. 1-7, 2020.
28. H. Park, J. Kim, and S. Jung, “Development of Non-Invasive Biosensor Devices for
the
Detection of Bladder Cancer in Urine,” Clinical Oncology and Research, vol. 3 (6),
pp. 1-4,
2020.
29. S. Jung and J. Kim, “Biomarker Discovery and Beyond for Diagnosis of Bladder Diseases,”
Bladder Journal, vol. 7(1), pp. 1-5, 2020.
30. M. Chilukuri, S. Jung, and H. Chung, “A Charge Amplifier Based CMOS Analog Front
End
for Hearing Aid Devices,” Journal of Low Power Electronics, vol. 15, no. 3, pp. 315-322,
2019.
31. N. V. Myung, S. Jung, and J. Kim, “Application of Low-cost, Easy-to-Use, Portable
Biosensor Systems for Diagnosing Bladder Dysfunctions,” International Neurourology
Journal, vol. 23, no. 1, pp 86-87, 2019.
32. H. Park, N. D. Karandikar, S. Jung, and K. Ryoo, “Variable Gain Potentiostat Architecture
for Glucose Sensing from Blood and Tear Fluid,” Journal of Low Power Electronics,
vol.
13, no. 2, pp. 271-278, 2017.
33. B. Arigong, H. Ren, J. Ding, H. Chung, S. Jung, H. Kim, and H. Zhang, “An Ultra-Slow-Wave
Transmission Line on CMOS Technology,” Microwave and Optical Technology Letters,
vol. 59, issue 3, pp. 604-606, 2017.
34. N. Karandikar, S. Jung, Y. Sun, and H. Chung, “Low Power, Low Noise, Compact
Amperometric Circuit for Three-Terminal Glucose Biosensor,” Journal of Analog
Integrated Circuits and Signal Processing, vol. 82, issue 2, pp 417-424, 2016.
35. C. Lim, S. Dermal, S. Jung, N. Myung, and K. Ryoo, “A Compact CMOS Electrochemical
Sensor Readout Circuit for a Conductometric Sensor Array,” Journal of Low Power
Electronics, vol. 10, pp. 635-639, 2014.
36. B. Arigong, H. Zhang, S. Yoon, S. Jung, and H. Kim, “An Eye-Opening Measurement
Circuit for a Feed-Forward Equalizer,” Microwave and Optical Technology Letters, vol.
56, issue 9, pp. 2136-2141, 2014.
37. C. Lim, S. Govardhan, H. Kim, K. Ryoo, and S. Jung, “A CMOS Switched Capacitor
Based
Low Power Amperometric Readout Circuit for Microneedle Glucose Sensor,” Journal of
Low Power Electronics, vol. 10, no. 2, pp. 279-285, 2014.
38. V. Shenoy, S. Jung, Y. Yoon, Y. Park, and H. Chung, “A CMOS Analog Correlator
based
Painless Non-enzymatic Glucose Sensor Readout Circuit,” IEEE Sensors Journal, vol.
14,
pp. 1591-1599, 2014.
39. H. Kim, S. Woo, S. Jung, and K. Lee, “A CMOS transmitter leakage canceller for
WCDMA
applications,” IEEE Transactions on Microwave Theory and Techniques, vol. 61, pp.
3373-3380, 2013. ISSN: 0018-9480
40. B. Arigong, H. Zhang, S. Jung, and H. Kim, “A Feed-Forward Equalizer with Winner-takeall
Variable Gain Amplifiers for Backplane Channels,” Microwave and Optical Technology
Letters, vol. 55, no. 11, pp. 2666-2670, 2013.
41. J. Li, S. Jung, H. Kim, P. Gui, and H. Chung, “A Carrier-Based CMOS Impulse Generator
for
Ultra-wideband Vehicular Radar Application,” Microwave and Optical Technology
Letters, vol. 55, no. 8, pp. 1881-1887, 2013.
42. Y. Joo, H. Kim, and S. Jung, “A CMOS 802.15.4a Transmitter for Sub-GHz Applications,”
Microwave and Optical Technology Letters, vol. 53, no. 8, pp. 1919-1921, 2011.
43. J. Li, S. Jung, and H. Moon, “A Fully Integrated 3-10 GHz IR-UWB CMOS Impulse
Generator,” Microwave and Optical Technology Letters, vol. 53, no. 8, pp. 1887-1890,
2011.
44. H. Zhai, S. Jung, and M. Lu, “Wireless Communication in Boxes with Metallic Enclosure
based on Time-Reversal Ultra-Wideband Technique: a Full-Wave Numerical Study,”
Progress In Electromagnetics Research, vol. PIER 101, pp. 63-74, 2010.
45. N. Thakoor, J. Gao, and S. Jung “Embedded Planar Surface Segmentation System for
Stereo Images,” Journal of Machine Vision and Applications, vol.21, no. 2, pp. 189-199,
2010.
46. H. Zhai, S. Sha, V. Shenoy, S. Jung, M. Lu, K. Min, S. Lee, and D. Ha, “An Electronic
Circuit
System for Time-Reversal of Ultra-Wideband Short Impulses based on Frequency Domain
Approach,” IEEE Transactions on Microwave Theory and Techniques, vol. 58, no. 1, pp.
74-86, 2010.
47. P. Ghosh, M. Lu, and S. Jung, “Design of a Radiation Hard Phase-Locked Loop at
2.5 GHz
using SOS-CMOS,” Journal of Systems Engineering and Electronics, vol. 20, no. 6, pp.
1159-
1166, 2009.
48. M. Lu and S. Jung, “On the Well-Posedness of Integral Equations Associated with
Cavity
Green's Functions around Resonant Frequencies,” Microwave and Optical Technology
Letter, vol. 51, no. 6, pp. 1476-1481, 2009.
49. M. Lu, J. Bredow, S. Jung, S. Tjuatja, “Evaluation of Green’s Functions of Rectangular
Cavities around Resonant Frequencies in the Method of Moments”, IEEE Antennas and
Wireless Propagation Letters, vol. 8, pp. 204-208, 2009.
50. N. Thakoor, J. Gao, and S. Jung “Hidden Markov model based weighted likelihood
discriminant for 2D shape classification,” IEEE Transactions on Image Processing,
vol. 16,
Issue 11, pp. 2707-2719, 2007.
51. D. Park, Y. Jeong, J-B. Lee, and S. Jung, “Chip-level integration of RF MEMS on-chip
inductors using UV-LIGA technique,” Journal of Microsystem Technologies, vol. 14,
numbers 9-11, pp. 1429-1438, 2007.
52. G. Zhang, S. Saw, J. Liu, S. Sterrantino, D. K. Johnson, and S. Jung, “An Accurate
Current
Source with On-Chip Self-Calibration Circuits for Low-Voltage Current Mode Differential
Drivers”, IEEE Transactions on Circuits and Systems I, vol. 53, Issue 1, pp. 40-47,
2006.
53. S. Jung, M. A. Brooke, and N. M. Jokerst, “Parasitic Modeling and Analysis for
a 1 Gb/s
CMOS Laser Driver”, IEEE Transactions on Circuits and Systems II, Vol. 51, No. 10,
pp. 517-
522, 2004.
54. N.M. Jokerst, M. A. Brooke, J. Laskar, D. S. Wills, A. S. Brown, M. Vrazel, S.
Jung, Y. Joo, J.
J. Chang, “Microsystem optoelectronic integration for mixed multisignal systems”,
IEEE
Journal of Selected Topics in Quantum Electronics, Vol. 6, Issue: 6, pp. 1231 –1239,
2000.
55. S. W. Bond, O. Vendier, M. Lee, S. Jung, A. Lopez-Lagunas, S. Chai, G. Dagnall,
M. Brooke,
N. Jokerst, D. Wills, and A. Brown, “A Three Layer 3D System Using Through-Si Vertical
Optical Interconnections and Si CMOS Hybrid Building Blocks,” IEEE Journal of Selected
Topics in Quantum Electronics, Vol.5, No. 2, pp. 276 – 286, 1999.
56. O. Vendier, S. W. Bond, M. Lee, S. Jung, M. Brooke, N. Jokerst, and R.P. Leavitt,
“Stacked
Silicon CMOS Circuits with a 40 Mb/s Through-Silicon Optical Interconnect,” IEEE
Photonics Technology Letters, vol. 10, no. 4, pp. 606-608, 1998.
- M. Lu, J. W. Bredow, S. Jung, and S. Tjuatja, “A quasi-planar wide band conical antenna,”
published as a book chapter to Ultra Wideband, Short Pulse Electromagnetics, C. Baum,
A. Stone, and S. Tyo, Ed., pp. 25-32, ISBN: 978-0-387-73045-5, Springer New York, 2007.
-
M. Vrazel, S. Ralph, J. Lasker, S. Jung, V. Hietala, and E. Gebara, “Increasing Data Throughput in Optical Fiber Transmission Systems”, US 7173551 B2, 2007.
Accelerator for Vision Transformer,” EEE International Midwest Symposium on Circuits
and Systems, August 2025.
2. S. Lu, Z. Pei, L. Sang, S. Jung, Q. Liang, and C. Pan, “Graphene-Based FPGA Design and
Optimization at the 7nm FinFET Technology Node,” International Symposium on Quality
Electronic Design, April 2025.
3. L. Shang, S. Lu, S. Jung, Y. Zhang, and C. Pan, “A Novel Delay-Aware Packing Algorithm
for FPGA Architecture Using RFET,” IEEE International Midwest Symposium on Circuits
and Systems, August 2024.
4. S. Lu, L. Shang, S. Jung, and C. Pan, “Emerging Reconfigurable Logic Device Based FPGA
Design and Optimization,” International Symposium on Quality Electronic Design, April
2024.
5. L. Shang, S. Lu, S. Jung, and C. Pan, “Novel Fence Generation Methods for Accelerating
Reconfigurable Exact Synthesis,” IEEE International Midwest Symposium on Circuits and
Systems, August 2023.
6. S. Lu, Z. Pei, L. Shang, S. Jung, and C. Pan, “Technology/Circuit Co-Design Framework for
Emerging Reconfigurable Devices,” IEEE International Midwest Symposium on Circuits
and Systems, August 2023.
7. H. Park, S. Lakshminarayana, L. Nguyen, C. Pan, and S. Jung, “Portable Indoor Air Quality
Measurement System,” IEEE International Conference on E-Health and Bioengineering,
October 2022.
8. T. T. Huu Tran, H. Park, D. To, K. Gangadhara, J. Brady, J. Hart, S. Jung, and N. V. Myung,
“A Multimodal Electronic Nose Based on High-Density Flexible Sensor Array of Carbon
Nanotubes and Photoactive Macromolecules Hybrid Nanostructures,” 18th International
Meeting on Chemical Sensors, Vol. MA2020-01, 2020.
9. M. Chilukuri and S. Jung, “A Mixed-Mode Variable Gain Amplifier for Hearing Aid Devices,”
IEEE Dallas Circuits and Systems Conference, November 2018.
10. M. Chilukuri, S. Jung, and K. Ryoo, “A Low Power and Low Noise Preamplifier Circuit for
Hearing Aid Devices,” IEEE Dallas Circuits and Systems Conference, October 2016.
11. U. Mahendran, S. Jung, K. Ryoo, and S. Pyo, “A Switched Capacitor based Transimpedance
Amplifier for Detection of HAB using an Optical Sensor,” IEEE Dallas Circuits and Systems
Conference, October 2016.
12. M. Chilukuri, and S. Jung, “A High Frequency Memristor Emulator Circuit,” IEEE Dallas
Circuits and Systems Conference, pp. 1-4, October 2015.
13. H. Zamankhan, S. Jung, S.-Y. Cho, J.-M. Park, H. Choi, “Comparison between Various
Observing Systems for Monitoring Harmful Algal Blooms and Preliminary Concept of
Innovative Sensing Network for In-Situ Monitoring of Biological Toxins”, Special
Symposium on Advances in Sensing Technologies for Real-Time and Remote Monitoring
of Water Quality, The 250th American Chemical Society (ACS) National Meeting, August
2015.
14. H. Zamankhan, S. Jung, H. Choi, “In Situ Monitoring of Biological Toxins in Harmful Algal
Blooms: Sensing Network Demonstration”, at Texas Water 2014, April 2014.
15. H. Z. Malayeri, S. Jung, and H. Choi, “In situ monitoring of microcystins for the evaluation
of harmful algal blooms,” 247th ACS National Meeting and Exposition, March 2014.
UWB Automotive Radar,” IEEE Texas Symposium on Wireless & Microwave Circuits &
System, April 2013.
17. S. Raavi, B. Arigong, R. Zhou, S. Jung, M. Jin, H. Zhang, and H. Kim, “An Optical Wireless
Power Transfer System for Rapid Charging,” IEEE Texas Symposium on Wireless &
Microwave Circuits & System, April 2013.
18. H. Kim and S. Jung, “Dual-Band Class-E RF PA Design utilizing Complex Impedance
Transformers,” IEEE Texas Symposium on Wireless & Microwave Circuits & System, April
2013.
19. J. LI, S. Jung, Y. Joo, and P. Gui, “A Current-Steering DAC-Based CMOS Ultra-Wideband
Transmitter with Bi-Phase Modulation,” IEEE ISCAS, pp. 2545-2548, May 2012.
20. S. Koppa, D. Park, Y. Joo, and S. Jung, “A 105.6dB DR and 65dB Peak SNR Self-Reset CMOS
Image Sensor Using a Schmitt Trigger Circuit,” IEEE MWSCAS, pp. 1-4, August 2011.
21. V. Shenoy, D. McBride, and S. Jung, “A High Fill-Factor High-SNR CMOS Image Sensor for
IR Camera Applications,” Proc. of SPIE, vol. 8012, 80120J, April 2011.
22. J. Li, S. Jung, M. Lu, and K. Min, “A CMOS Ultra-Wideband Transmitter with Bi-Phase
Modulation for 22-29 GHz Vehicular Radar Application,” IEEE MWSCAS, pp. 449-452,
August 2010.
23. N. Karandikar, S. Jung, P. Gui, and Y. Joo, “Design of an Analog Correlator for 22-29GHz
UWB Vehicular Radar System Using Improved High Gain Multiplier Architecture,” IEEE
MWSCAS, pp. 930-933, August 2010.
24. H. Kim, Y. Joo, and S. Jung, “Analytical Model of Pulse Combined UWB Pulse Generator,”
IEEE International Symposium on Communication and Information Technology, pp. 1413-
1418, September 2009.
25. J. Li, S. Jung, M. Lu, P. Gui, and Y. Joo, “A Current-Steering DAC-Based CMOS Ultra-
Wideband Impulse Generator,” IEEE International Symposium on Communication and
Information Technology, pp. 971-975, September 2009.
26. H. Kim, Y. Joo, and S. Jung, “A Tunable Pulse Generator for Sub-GHz UWB Systems,” IEEE
MWSCAS, pp. 292-296, August 2009.
27. P. Zhu, W. Chen, D. Wu, P. Gui, S. Jung, “A TID Tolerant, Wide Band and Low Jitter Phase-
Locked Loop in 0.25um CMOS Silicon-on-Sapphire Technology”, IEEE Nuclear and Space
Radiation Effects (NSREC), presented, July 2009.
28. J. Li, M. Lu, S. Jung and K. Min, “A CMOS Ultra-Wideband Impulse Generator for 22-29
GHz Automotive Radar Applications,” IEEE Radar Conference, pp. 1-4, May 2009.
29. S. Sha, V. Shenoy, M. Lu, S. Jung, K. Min, and S. Lee, “A Hardware Architecture for Time
Reversal of Short Impulses based on Frequency Domain Approach,” Proc. of SPIE, Vol.
7308, pp. 73080T-1-73080T-9, April 2009.
30. V. Shenoy, S. Sha, S. Jung, and M. Lu, “A Circuit Implementation for Time-Reversal of Short
Impulses,” IEEE Asia-Pacific Microwave Conference, pp. 1-4, December 2008.
Low Noise Amplifier, IEEE Midwest Symposium on Circuits and Systems, pp. 141-144,
August 2008.
32. V. Shenoy, P. Kalkura, S. Jung, M. Lu, J. Gao, and S. Lee, “A Dual Slope based Pulse Position
Modulation for sub-GHz IR-UWB Systems,” IEEE Midwest Symposium on Circuits and
Systems, pp. 846-849, August 2008.
33. M. Lu, J. W. Bredow, S. Jung, and S. Tjuatja, “On the Well-Posedness of Integral Equations
Associated with Cavity Green’s Functions around Resonant Frequency,” IEEE AP-S
International Symposium on Antennas and Propagation, pp. 1-4, July 2008.
34. N. Thakoor, J. Gao, and S. Jung, "Real time planar surface segmentation in disparity
space," IEEE Workshop on Embedded Computer Vision, pp. 1-8, June 2007.
35. M. Lu, J. Bredow, S. Jung, and S. Tjuatja, “Theoretical and Experimental Study of a Quasi-
Planar Conical Antenna,” IEEE International Symposium on Antenna and Propagation, pp.
4777-4780, June 2007.
36. M. Lu, J. Bredow, S. Jung, and S. Tjuatja, “On the Resonant Singularities Associated with
the Green’s Functions of Metallic Rectangular Cavities in the Context of the Method of
Moments,” IEEE International Symposium on Antenna and Propagation, pp. 2793-2796,
June 2007.
37. M. Lu, N.-W. Chen, J. Bredow, S. Jung, and S. Tjuatja, “Study of Photonic Crystals at
Millimeter Wave Band,” IEEE International Symposium on Antenna and Propagation, pp.
177-180, June 2007.
38. V. Shenoy, H. Shanmugasundaram, S. Jung, J. Gao, and Y. Joo, “CMOS Optical
Transimpedance Amplifier Design for PAM Application,” IASTED, pp. 70-73, November
2006.
39. T. Merkin, S. Jung, J. Gao, and Y. Joo, “A CMOS Ultra-Wideband Differential Low Noise
Amplifier,” IEEE Asia-Pacific Microwave Conference, pp. 417-420, December 2006.
40. N. Thakoor, J. Gao, and S. Jung, "Detecting occlusion for hidden Markov modeled shapes,"
Proc. IEEE International Conference on Image Processing, pp. 945-948, October 2006.
41. H. Kim, Y. Joo, and S. Jung, “A Tunable CMOS UWB Pulse Generator,” IEEE Conference on
Ultra Wideband, pp.109-112, September 2006.
42. T. Merkin, S. Jung, S. Tjuatja, Y. Joo, D. Park, and J-B Lee, “An Ultra-Wideband Low Noise
Amplifier with Air-suspended RF MEMS Inductors,” IEEE Conference on Ultra Wideband,
pp. 459-464, September 2006.
43. S-C. Chang, S. Jung, S. Tjuatja, J. Gao, and Y. Joo, “A CMOS 5th Derivative Impulse
Generator for an IR-UWB Transmitter,” IEEE MWSCAS, vol. 2, pp. 376-380, August 2006.
44. N. Thakoor, J. Gao, and S. Jung, "Occlusion resistant shape classifier based on warped
optimal path matching," IEEE International Conference on Pattern Recognition, pp. 60-63,
August 2006.
45. D. Maxwell, S. Jung, Y. Joo, J. Gao, and H. Doh, “A Two-Stage Cascode CMOS LNA for UWB
Wireless Systems”, IEEE Midwest Symposium on Circuits and Systems, pp. 627-630,
August 2005.
IEEE International Conference on Ultra-Wideband, pp. 442-445, September 2005.
47. N. Thakoor, J. Gao, S. Jung, “Generalized Probabilistic Decent Method based Minimum
Error Shape Classification using Hidden Markov Models,” IEEE ICME, pp. 342-345, July
2005.
48. J. Gao, N. Thakoor, and S. Jung, “A Motion Field Reconstruction Scheme for Smooth
Boundary Video Object Segmentation,” IEEE International conference on image
processing (ICIP), Vol. 1, pp. 381-384, October 2004.
49. H. Liu, X. Lin, Y. Kim, J. Liu, and S. Jung, “Electronic Dispersion compensation for 10 Gbps
Data Transmission over Multi-mode Fibers,” IEEE Dallas CAS Workshop, pp. 159-162,
September 2004.
50. S. Jung, J. Gao, and J. Liu, "CMOS Multi-level Signal Transmitter for Optical
Communication," IEEE Midwest Symposium on Circuits and Systems 2004, pp. II-185 – II-
188, July 2004.
51. Y. Jeong, H. Doh, S. Jung, D. Park, and J. Lee, "CMOS VCO & LNA Implemented by Air-
Suspended On-Chip RF MEMS LC," IEEE Midwest Symposium on Circuits and Systems, pp.
I-373 – I-376, July 2004.
52. H. Doh, Y. Jeong, S. Jung, and Y. Joo, "Design of CMOS UWB Low Noise Amplifier with
Cascode Feedback," IEEE Midwest Symposium on Circuits and Systems 2004, pp. II-641 –
II-644, July 2004.
53. S. Nazar, B. A. Shirazi, and S. Jung, “Performance/Energy efficiency analysis of register files
in superscalar processors”, The International Conference on VLSI, pp. 325 – 331, June
2004.
54. S. Vishwakarma, S. Jung, Y. Joo, “Ultra Wideband CMOS Low Noise Amplifier with Active
Input Matching,” IEEE Conference on Ultra Wideband Systems and Technologies, pp 415
– 419, May 2004.
55. Y. Jeong, J. Liu and S. Jung, “A CMOS Impulse Generator for UWB Wireless Communication
System,” Proceedings of 2004 IEEE International Symposium on Circuit and Systems, pp.
IV-129 – IV-132, May 2004.
56. D.L. Geddis, S.R. Hyun, J. Chang, S. Jung, M.A. Brooke, N.M. Jokerst, “Single fiber Bidirectional
links using 3D stacked thin film emitters and detectors integrated onto CMOS
transceiver circuits”, IEEE Conference on Lasers and Electro-Optics, Vol. 2, pp. 270-271,
May 2004.
57. G. Zhang, J. Liu, and S. Jung, “An accurate current source with on-chip self-calibration
circuits for low-voltage differential transmitter drivers”, IEEE International Symposium on
Circuits and Systems, Vol. 2, pp. II-192 -II-195, May 2003.
58. S. Jung, M. A. Brooke, and N. M. Jokerst, “Packaging Considerations for a 1 Gbps Si CMOS
Optical Driver,” IEEE LEOS Annual Meeting, November 2000.
59. N.M. Jokerst, M.A. Brooke, J. Laskar, D.S. Wills, A.S. Brown, O. Vendier, S. Bond, M. Vrazel,
R. Huang, M. Thomas, H. Kuo, S. Cho, S. Jung, Y.J. Joo, J.J. Chang, “Smart photonic links:
Optoelectronics devices integrated with circuits and interconnection substrates,” Digest
of the Optical Society of America Annual Meeting, pp. 94, October 2000.
M. Vrazel, M. Thomas, M. Lee, S. Jung, Y.J. Joo, J.J. Chang, “Smart photonics:
Optoelectronics integrated with Si CMOS VLSI circuits,” Proceedings of the SPIE Special
Symposium on the Future of Computing, Vol. 4109, pp. 241-251, July 2000.
61. J. Chang, S. Jung, M. Vrazel, K. Jung, M. Lee, M. A. Brooke, N. M. Jokerst, and S. Wills,
“Mixed Signal Hybrid OEICs: An InP I-MSM Integrated Onto a Mixed Signal CMOS Analog
Optical Receiver with a Digital CMOS Microprocessor,” Proceedings of the Optics in
Computing Conference, May 2000.
62. J. Chang, S. Jung, M. Vrazel, K. Jung, M. A. Brooke, and N. M. Jokerst, “Hybrid Optically
Interconnected Microprocessor: An InP I-MSM Integrated Onto a Mixed Signal CMOS
Analog Optical Receiver with a Digital CMOS Microprocessor,” Proceedings of the SPIE,
Vol. 4089, pp. 708-714, 2000.
63. N.M. Jokerst, M.A. Brooke, J. Laskar, D.S. Wills, A.S. Brown, O. Vendier, S. Bond, J. Cross,
M. Vrazel, M. Thomas, M. Lee, S. Jung, Y.J. Joo, J.J. Chang, “Smart photonics:
Optoelectronics integrated onto Si CMOS circuits,” IEEE Lasers and Electro-Optics Society
12th Annual Meeting, Vol. 2, pp. 423-424, November 1999.
64. J. Chang, M. Lee, S. Jung, M. Brooke, N. Jokerst, and D. Wills, “Fully Differential Current-
Input CMOS Amplifier Front-End Suppressing Mixed Signal Substrate Noise for
Optoelectronic Applications,” IEEE International Symposium on Circuits and Systems, vol.
1, p. 327-330, June 1999.
65. S. W. Bond, S. Jung, O. Vendier, A. Lopez-Lagunas, S. Chai, G. A. Dagnall, M. Brooke, N.
Jokerst, D. Wills, and A. Brown, “3D Stacked Si CMOS VLSI Smart Pixels using Through-Si
Optoelectronic Interconnections,” Technical Digest IEEE LEOS Summer topical meeting,
pp. 27-28, July 1998.
• “Electrochmical Sensing Systems and Applications,” Hanyang University, May 2023.
• “Development of Electrochemical Sensing System,” Korea Institute of Materials Science,
May 2022.
• “A Readout Electronic System for Electrochemical Sensors: From Board to Chip,” Hanyang
University, June 2019.
• “Electrochemical Sensing Systems and Circuits,” Kyunghee University, June, 2019.
• “A Low‐Noise CMOS Readout Circuit for Glucose Monitoring,” University of California,
Riverside, April 2018.
• “A Painless Glucose Monitoring System,” Kwangwoon University, December 2016.
• “A Low-Power CMOS Front End for Hearing Aid Device,” Hanbat National University,
South Korea, June 2016.
• “An Optical In Situ Sensing System for Biological Toxins in HABs,” Korea Electronics
Technology Institute, June 2016.
• “A Low-Noise CMOS Readout circuit for the Microneedle based Non-Enzymatic Glucose
Sensor and A Highly Efficient Long-Range Wireless Charging System,” Electronics and
Telecommunications Research Institute, June 2013.
• “Interfacing Circuits for Glucose Sensors,” Korea Electrotechnology Research Institute,
June 2012.
• “Low-Noise CMOS Amperometric Circuits for Electrochemical Sensors,” Hanbat National
University, South Korea, June 2012.
• “Highly-Efficient Long-Range Wireless Power Transmission System,” US-Korea
Conference Forum, June 2011.
• “UWB Circuits and Systems for Radars and Communications”, Virginia Tech CESCA,
October 2008.
• “CMOS UWB Vehicular Radar System Development”, New Mexico State University,
October 2008.
• “Implementation of Hybrid Opto-wireless Conversion System”, YeungNam University,
South Korea, May 2003.
• “High-speed optical transceiver for Multi-level signaling”, Electronics and
Telecommunication Research Institute, South Korea, May 2003
• “High-Speed Transceiver Circuitry for Optical and UWB communication Systems”,
Samsung Electronics, South Korea, May 2003.
• “High-speed Transceiver Circuitry for Optical Communication Systems”, The IEEE
Communications Society seminar, March 2003.
a Non-invasive Detection Method of Foodborne Pathogens,” USDA, $200,000, PI,
09/01/2024-10/01/2027.
• “Development of Novel Sensor System for Water Quality Analysis in Agricultural
Watersheds,” USDA, $106,126, PI, 09/01/2024- 08/31/2026.
• “Low-Cost Infrared Thermometer for Agricultural Applications,” USDA, $100,000, PI,
08/01/2024-07/31/2025.
• “Research in Elementary Particle Physics,” Department of Energy, $5,816,872, co-PI,
04/01/2023-03/31/2026.
• “Peanut Warehouse Early Fire Detection Sensor and System Development,” USDA,
$236,640, PI, 09/01/2023-09/01/2026.
• “Real-Time Greenhouse Emission Monitoring using Intelligence Crop Sensor Network,”
USDA, $475,421, PI, 09/01/2021-08/31/2026.
• “Novel Urinary Sensing System for Enhancing Alcohol Use Monitoring and Early Detection
of Alcohol-Related Health Effects,” UTA IRP, $20,000, 09/01/2022-08/31/2023.
• “Gas-Phase Sensor Bag Development,” Naval Sea Systems Command, $268,536, PI,
04/01/2019-03/31/2022.
• “Development of Smart Health Monitoring System for Livestock,” Korea Institute of
Materials Science, $79,997, PI, 03/01/2019-02/28/2021.
• “A Low-Noise Glucose Monitoring System,” UTA CoE REU, $2,000, 2018.
• “Development of Low-Power Highly-Efficient Hearing Aid Device,” UTA CoE REU, $2,000,
2017.
• “Development of ICs for Directional Hearing Aid Devices,” Korea Electrotechnology
Research Institute, $144,000, PI, 01/01/2015-11/30/2016.
• “In Situ Sensing System for the Selective and Sensitive Detection of Biological Toxins in
HABs,” NIH, $386,188, co-PI, 03/15/13-02/29/16.
• “In Situ Sensing System for the Selective and Sensitive Detection of Biological Toxins in
HABs,” NSF, $175,540, co-PI, 09/24/2012-07/31/2015.
• Gift, $12,000, Electronics and Telecommunication Research Institute in South Korea, PI,
2014.
• “Development of an Adapter Board and a Smart Phone App for the Microneedle Based
Non- Enzymatic Glucose Sensor,” UTD (part of Texas Emerging Technology Fund), $50,000,
PI, 07/01/2011-12/31/2012.
• “Low-Power Ultra-Wideband Radio and Radar Chip,” Prime Research LLC, $29,490, PI,
03/01/2010-07/28/2010.
• “Development of Radar and Image based Automotive High-Safety SoC”, Korea Electronics
Technology Institute in South Korea, $596,465, PI, 09/01/2007-05/31/2011.
• “Integrative Sensor and Stimulator Implant System”, NSF, $287,983, co-PI, 04/2006-
03/2009.
• “SST:Self-managing Radar Sensors Network for Environmental Monitoring”, NSF,
$399,927, co-PI, 01/2006-12/2008.
• EE 3444 Electronics II
• EE 4320 VLSI Design and Technology
• EE 5305 Analog Integrated Circuit Design
• EE 5310 Digital VLSI design
• EE 5312 VLSI Design and Technology
• EE 5316 CMOS Mixed Signal IC Design
• EE 5317 Advanced Digital VLSI Design
• EE 5318 Analog CMOS IC design
• EE 5319 Fundamentals of Digital VLSI
• EE 6318 Advanced Analog VLSI Design
ADVISING
• Supervised 8 PhD and 21 MS students and currently supervising 2 post-doc, 3 PhDs and
2 UG students.
• Supervised 1 post-doc.
• Supervised 8 visiting researchers.
• Supervised 15 undergraduate students.
• Supervised autonomous racing team in Electrical Engineering department.
• Associate Editor, Sensor Network Section, Frontiers in Sensors
• Associate Editor, IEEE Access
• Senior Editor, IEEE Access
• Associate Editor, IEEE Sensors Journal
• IEEE conference on Ultra-Wideband Systems and Technologies.
• International Conference on Knowledge-Based & Intelligent Information & Engineering
Systems.
• IEEE Microwave and Wireless Components Letters.
• IEEE Signal Processing Letters.
• IEEE Asia Pacific Conference on Circuits and Systems.
• IEEE Transaction on Circuits and Systems I.
• IEEE Transaction on Circuits and Systems II.
• IASTED International Conference on Circuits, Signals, and Systems.
• IEEE Electron Device Letter.
• Journal of Circuits, Systems, and Signal Processing.
• IEEE Dallas Circuits and Systems Symposium.
• Journal of Signal Processing Systems.
• Journal of Low Power Electronics.
• IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control
• Microelectronics Journal - Elsevier
• IEEE Texas Symposium on Wireless & Microwave Circuits & System
• IEEE International Conference on Microwaves, Communications, Antennas and
Electronic Systems
• IEEE Access
• IEEE Transactions on Very Large Scale Integration
• IEEE Biomedical Circuits and Systems Conference
• IEEE Transactions on Microwave Theory and Techniques
• Frontiers in Sensors
• MDPI Sensors
• NSF ECCS proposal review panel.
• International Program Committee Member: IASTED International Conference on
Circuits, Signals, and Systems (2006 - 2010).
• Technical Program Committee Member: IEEE Dallas Circuits and Systems Symposium
(2009-2010).
• Technical Program Committee Member: International Symposium on Integrated Circuits
(2011)
• Steering Committee Member: Mini-Symposium on Wireless and Microwave Circuits and
Systems (2012)
• Steering Committee Member: IEEE Texas Symposium on Wireless and Microwave
Circuits and Systems (2013-2016)
• General co-Chair: IEEE Dallas Circuits and Systems Conference (2016)
• Secretary: IEEE Circuits & Systems Society, Dallas Chapter (2017)
• Technical Program Committee Member: IEEE International Conference on Microwaves,
Communications, Antennas and Electronic Systems (2017-2024)
• Technical Program Committee Member: International Symposium on Olfaction and
Electronic Nose (2024)
• HKN Member
• Tau Beta Pi Member
• Undergraduate Curriculum Committee, EE UTA, (2010 – 2012, 2017-2020, 2022-2023)
• College of Engineering Review Committee, COE UTA, (2011)
• EE Seminar Coordinator, (2010 –2012)
• EE Faculty Search Committee, EE UTA, (2012)
• Graduate Study Committee Chair, EE UTA, (2011 – 2017)
• College of Engineering Award Committee, COE UTA, (2018)
• F1/10th Autonomous Racing Team Advisor, EE UTA, (2018-2019)
• Society of Asian Scientists and Engineers, Advisor, (2018-2019)
• Industry Specific Partnership Workshop Coordinator, EE UTA, (2019)
• EE Faculty Search Committee Chair, EE UTA, (2019)
• IEEE Student Chapter, Advisor (2019-2020)
• HKN Student Society, Advisor (2019-2021)
• EE Faculty Teaching Observation Committee Chair, EE UTA, (2021-2023)
• EE Staff Search Committee, EE UTA, (2021-2023)
• EE NTT Faculty Search Committee, EE UTA, (2022)
• EE ABET Committee, EE UTA (2022-2023)
• EE Grievance Committee Chair, EE UTA (2022-2023)
