CURRICULUM VITAEPersonal Information
Name: TUNG LAM NGUYEN
Date
of Birth: July 6th
1987
Place
of Birth: Quang Tri, Vietnam
Nationality: Vietnam
Affiliation: Department of Electrical Engineering
The University of Danang – University
of Science and Technology
Danang
city, Vietnam
Email: ntlam@dut.udn.vn
Education
2019 : Ph.D. in Electrical Engineering
Grenoble Alpes University, G2elab, France
2014 : Master in Electrical
Engineering
National Taiwan University of Science and Technology,
Taiwan
2010 : Engineering Bachelor in Electrical Engineering
University of Science and
Technology, the University of Danang
PROFESSIONAL SKILLS
- Simulation: Matlab/Simulink, RT-lab, RsCad, Powerworld,
PowerFactory
- Real-simulator: Opal-RT, RTDS, Dspace
- Programming
language: Python, Matlab
- Computer: Linux, Raspberry PI
- Other: Latex, Docker, ns3
- Teamwork,
motivation, collaboration
PROFESSIONAL EXPERIENCES
·
2022-now: Postdoctoral
Research with Hawai‘i Natural Energy Institute as part of GridSTART team.
·
2021-2022: Postdoctoral
Research with Florida International University (1 year)
o
Designing cyber-physical system in a hardware testbed
o
Developing a control system for networked microgrids
o
PI of an IUCRC project
·
2019 – 2020: Postdoctoral Researcher at G2elab (Grenoble
Laboratory of Electrical Engineering), France (1 year)
H2020 European Project: Integrating
and opening existing national and regional research infrastructures of European
interest (ERIGRID)
o
Research
on interoperability and on formalization of holistic validation approach.
o
Working
on the interoperability of two smart grid platforms PREDIS and PRISMES.
o
Installation
of Power-HIL and co-simulation experiment
·
2016 – 2019: Ph.D. student at G2Elab (3 years)
Project: Agent-based distributed
control and optimization in microgrids with Hardware-in-the-Loop implementation
o
Proposing distributed secondary control algorithms with
multiple functions for islanded microgrids.
o
Formulating OPF problem for a general AC grid with
matrix-based formulations and proposing a combined secondary-tertiary framework
for islanded MGs with the agents run parallel finite-time consensus process and
ADMM process.
o
Designing a laboratory platform with controller and
power hardware-in-the-loop setup including a real-time simulator, a hardware
agent system and a physical communication network to validate proposed
algorithms in a realistic way.
Exchange program:
o
At University of Strathclyde, Glasgow, UK (2
months): deploying Controller and Power Hardware-in-the-loop experiment for an
agent-based consensus method to control frequency in islanded microgrids.
(RTDS, IEC61850 protocol, Power hardware-in-the-loop, Raspberry PI)
o
At Nanyang Technological University, Singapore (4
months): working on distributed algorithms for hierarchical control in islanded
microgrids. (Opal-RT, Raspberry PI)
Summer school: Munich, Germany (2016), Glasgow, UK (2018)
2010 – now: Lecturer at University of Science and
Technology, The University of Da Nang
PUBLICATION
·
Journals
[1] V. H. Nguyen, Y. Besanger, Q. T. Tran, and T.
L. Nguyen, “On conceptual structuration and coupling methods of
co-simulation frameworks in cyber-physical energy system validation,” Energies,
vol. 10, no. 12, 2017.
[2] T. L. Nguyen et al.,
“Multi-agent system with plug and play feature for distributed secondary control
in microgrid—controller and power hardware-in-the-loop implementation,” Energies,
vol. 11, no. 12, pp. 1–10, 2018.
[3] V. H. Nguyen, T. L. Nguyen, Q. T. Tran,
and Y. Besanger, “Synchronization conditions and Real-time constraints in
co-simulation and Hardware-in-the-Loop techniques for Cyber–Physical Energy
System assessment,” Sustain. Energy, Grids Networks, vol. 20, 2019.
[4] Y. Wang, T. L. Nguyen, Y. Xu, Z. Li, Q.
T. Tran, and R. Caire, “Cyber-Physical Design and Implementation of Distributed
Event-Triggered Secondary Control in Islanded Microgrids,” IEEE Trans. Ind.
Appl., vol. 55, no. 6, pp. 5631–5642, 2019.
[5] Y. Wang, T. L. Nguyen et al., “A
Distributed Control Scheme of Microgrids in Energy Internet and Its Multi-Site
Implementation,” IEEE Trans. Ind. Informatics, vol. 3203, no. c, pp.
1–10, 2020.
[6] Y. Wang, T. L. Nguyen, Y. Xu, and D.
Shi, “Distributed control of heterogeneous energy storage systems in islanded
microgrids: Finite-time approach and cyber-physical implementation,” Int. J.
Electr. Power Energy Syst., vol. 119,
p. 105898, 2020.
[7]
M. Aragüés Peñalba, T. L. Nguyen,
et al., “General form of consensus optimization for distributed OPF in
HVAC-HVDC systems,” Int. J. Electr. Power Energy Syst.
[8]
Q. T. T. Tran, E. R. Sanseverino, G. Zizzo, M. L. Di Silvestre, T. L. Nguyen,
and Q. T. Tran, “Real-time minimization power losses by driven primary
regulation in islanded microgrids,” Energies, 2020.
[9] Y. Wang, T. L. Nguyen, et al.,
“Peer-to-Peer Architecture of Networked Microgrids: Multi-Layer and Multi-Agent
Control Design,” IEEE Trans. Smart Grid, 2020.
[10]
V. H. Nguyen and T. L. Nguyen, et
al., “Integration of SCADA services and Power-hardware-in-the-loop
technique in cross-infrastructure holistic tests of cyber-physical energy
systems,” IEEE Trans. Ind. Appl, 2020
[11]
T. L. Nguyen, et al., “A
Distributed Hierarchical Control Framework in Islanded Microgrids and Its
Agent-based Design for Cyber-Physical Implementations,” IEEE Trans. Ind.
Electron, 2020
[12] T.-L. Nguyen, Q.-T. Tran, R.
Caire, Y. Wang, Y. Besanger, and N.-A. Luu, “Distributed Optimal Power Flow and
the Multi-agent System for the Realization in Cyber-physical System,” Electr.
Power Syst. Res., 2020
[13]
V. H. Nguyen, Q.T. Tran, Y. Besanger, Marc Jung, T. L. Nguyen, “Digital twin integrated
power-hardware-in-the-loop for the assessment of distributed renewable energy
resources, ” Electrical Engineering, 2021
[14]
Nguyen, Tung Lam, Ha Thi Nguyen, Yu Wang, Osama A. Mohammed, and
Emmanouil Anagnostou. "Distributed Secondary Control in Microgrids Using
Synchronous Condenser for Voltage and Frequency Support." Energies 15,
no. 8 (2022): 2968.
·
Book
chapters
[1] T. L. Nguyen et al., “Hardware-in-the-loop
Assessment Method,” In. T.I. Strasser, E.C.W. de Jong, M. Sosnina, “European
Guide to Power System Testing”, Springer
[2] T. L. Nguyen et al., “Education and Training
Needs, Methods, and Tools,” In. T.I. Strasser, E.C.W. de Jong, M. Sosnina, “European
Guide to Power System Testing”, Springer
·
Conference proceedings
[1] T. L. Nguyen, Q. T. Tran, R. Caire, C.
Gavriluta, and V. H. Nguyen, “Agent based distributed control of islanded
microgrid-Real-time cyber-physical implementation,” 2017 IEEE PES Innov. Smart
Grid Technol. Conf. Eur. ISGT-Europe 2017 - Proc., vol. 2018-Janua, pp. 1–6,
2017.
[2] V. H. Nguyen, T. L. Nguyen et al.,
“Using power-hardware-in-the-loop experiments together with co-simulation for
the holistic validation of cyber-physical energy systems,” in 2017 IEEE PES
Innovative Smart Grid Technologies Conference Europe, ISGT-Europe 2017 -
Proceedings, 2017, vol. 2018-Janua, pp. 1–6.
[3] Q. T. Tran, N. A. Luu, and T. L. Nguyen,
“Optimal energy management strategies of microgrids,” 2016 IEEE Symp. Ser.
Comput. Intell. SSCI 2016, pp. 1–6, 2017.
[4] V. H. Nguyen, T. L. Nguyen et al.,
“Real-Time Simulation and Hardware-in-the-Loop Approaches for Integrating
Renewable Energy Sources into Smart Grids: Challenges & Actions,” in IEEE
PES Innovative Smart Grid Technologies ISGT Asia 2017, 2017.
[5] T. L. Nguyen et al., “Systems Level
Validation of a Distributed Frequency Control Algorithm,” Proc. - 2018 IEEE
Int. Conf. Environ. Electr. Eng. 2018 IEEE Ind. Commer. Power Syst. Eur.
EEEIC/I CPS Eur. 2018, pp. 1–6, 2018.
[6] V. H. Nguyen, T. L. Nguyen et al.,
“Cross-infrastructure holistic experiment design for cyber-physical energy
system validation,” Int. Conf. Innov. Smart Grid Technol. ISGT Asia 2018, pp.
68–73, 2018.
[7] T. L. Nguyen, Q. T. Tran, R. Caire, Y.
Besanger, T. T. Hoang, and V. H. Nguyen, “FMI compliant approach to investigate
the impact of communication to islanded microgrid secondary control,” 2017 IEEE
Innov. Smart Grid Technol. - Asia Smart Grid Smart Community, ISGT-Asia 2017,
pp. 1–6, 2018.
[8] T. L. Nguyen, R. Caire, Q. Tran, and C.
Gavriluta, “Agent based distributed optimal power flow using ADMM method,” in IEEE
PES GTD Grand International Conference & Exposition Asia, 2019.
[9] W. Yao, Y. Wang, Y. Xu, T. L. Nguyen,
and X. Feng, “Distributed Multi-Functional Finite-Time Secondary Control in
Cyber-Physical Microgrid,” in IEEE Power and Energy Society General Meeting,
2019, vol. 2019-Augus, pp. 0–4.
[10] T. L. Nguyen, Y. Wang, Q. T.
Tran, R. Caire, and Y. Besanger, “Agent-based Distributed Finite-time Secondary
Control of Energy Storage Systems in Microgrids - Controller
Hardware-in-the-Loop Validation,” Proc. 2019 IEEE PES Innov. Smart Grid
Technol. Eur. ISGT-Europe 2019, pp. 1–5, 2019.
[11] T. T. Hoang, Q. T. Tran, Y. Besanger,
and T. L. Nguyen, “A New Directional Algorithm-based Approach to Fault
Localization for Distribution Networks with High Penetration of Photovoltaic
Systems,” in IEEE Power and Energy Society General Meeting, 2019, vol.
2019-Augus.
[12] V. H. Nguyen, T. Lam Nguyen, Q.
T. Tran, Y. Besanger, and R. Caire, “Integration of SCADA services in
cross-infrastructure holistic tests of cyber-physical energy systems,” Proc. -
2019 IEEE Int. Conf. Environ. Electr. Eng. 2019 IEEE Ind. Commer. Power Syst.
Eur. EEEIC/I CPS Eur. 2019, no. 654113, pp. 3–7, 2019.
[13] Y. Wang, Y. Xu, Z. Li, T. L. Nguyen,
R. Caire, and Q. T. Tran, “Distributed event-triggered control for islanded
microgrids: Cyber-physical design and implementation,” Conf. Rec. - Ind.
Commer. Power Syst. Tech. Conf., vol. 2019-May, pp. 1–9, 2019.
[14] T. L. Nguyen, Q. T. Tran, R.
Caire, N. A. Luu, and Y. Besanger, “Controller hardware-in-the-loop
Implementation for Agent-based Distributed Optimal Power Flow Using ADMM on
Cyber-Physical Microgrids,” 2019 IEEE PES GTD Gd. Int. Conf. Expo. Asia, GTD
Asia 2019, pp. 712–717, 2019.
[15] T. L. Nguyen, Y. Wang, Q. T.
Tran, R. Caire, Y. Xu, and Y. Besanger, “Agent-based Distributed
Event-Triggered Secondary Control for Energy Storage System in Islanded
Microgrids - Cyber-Physical Validation,” Proc. - 2019 IEEE Int. Conf. Environ.
Electr. Eng. 2019 IEEE Ind. Commer. Power Syst. Eur. EEEIC/I CPS Eur. 2019, no.
654113, pp. 1–5, 2019.
[16] M.-T. Le, T.-L. Nguyen, Q.-T.
Tran, Y. Besanger, T.-T. Hoang, and V.-H. Nguyen, “A co-simulation approach for
validating agent-based distributed algorithms in smart grid,” in IEEE 20th
Mediterranean Electrotechnical Conference (MELECON), 2020.
[17] T.-T. Hoang, Q.-B. Duong, Q.-T. Tran,
Y. Besanger, and T.-L. Nguyen, “A Fault Classification Method for Medium
Voltage Networks with high Penetration of PV systems using Artificial Neural
Networks,” in IEEE PES General Meeting, 2020.
[18]
Dai, Jiahong, Yan Xu, Yu Wang, Tung-Lam Nguyen, and Souvik Dasgupta.
"A cyber-resilience enhancement method for network controlled microgrid
against denial of service attack." In IECON 2020 The 46th Annual
Conference of the IEEE Industrial Electronics Society, pp. 3511-3516. IEEE,
2020.
[19] Hussein, Hossam, Ahmed Aghmadi, Tung Lam
Nguyen, and Osama Mohammed. "Hardware-in-the-loop implementation of a
Battery System Charging/Discharging in Islanded DC Micro-grid."
In SoutheastCon 2022, pp. 496-500. IEEE, 2022.
[20]
Nguyen, Tung-Lam, Abdulmueen Alrashide, and Osama A. Mohammed. "A
Cyber-physical Platform to Assess Power System Operation with Communication
Network and Heterogeneous Controllers." In 2022 IEEE International
Conference on Environment and Electrical Engineering and 2022 IEEE Industrial
and Commercial Power Systems Europe (EEEIC/I&CPS Europe), pp. 1-6. IEEE,
2022.
