About me

 

Kaung Si Thu

Greetings! I am Kaung Si Thu from Myanmar! As a WG P2418.5 at IEEE Standards Association, I have the privilege of merging blockchain with sustainable energy systems. My academic endeavors as a Ph.D. candidate in Electrical Engineering at Chulalongkorn University complement my work, deepening my expertise in energy and blockchain technology. With advanced degrees in both Energy and ICT Management, my focus is on developing models for efficient power trading. We are committed to fostering a sustainable future, leveraging technology to transform research and education in the energy sector. My communication skills, honed through report writing and presentations, are vital in driving these initiatives forward.		   Profile

Education Background

  • Doctor of Philosophy in Electrical Engineering – Chulalongkorn University, Thailand

Present
  • Master of Information and Communication Technology Management – Asia e University, Malaysia (Distance Study)

2021
  • Master of Engineering in Energy – Asian Institute of Technology, Thailand

2020
  • Bachelor of Science in Engineering, Electronics – Asian Institute of Technology, Thailand

2017

Working Experience

  • Director

Multi-Merit Company Limited, Myanmar

January 2025 - present
  • Working Member

P2418.5 - IEEE Standard for Blockchain in Energy

June 2021 - present
  • Research Student Assistantship

AIT Solutions [iLab], Thailand

June – July 2019
  • Research Assistant Internship

Bangkok University – Center of Research in Optoelectronics, Communications and Computational Systems, Thailand

May – Aug 2016

Publications

  1. IEEE Standards Association. (2025). IEEE Guide for Blockchain in Power and Energy Systems (IEEE Std 2418.5-2025). IEEE. https://doi.org/10.1109/IEEESTD.2025.11301068

  2. Cali, U., Lee, A., Hayes, B., Lima, C., Sebastian-Cardenas, D. J., Flynn, D., ... & Robu, V. (2025). A comprehensive academic and industrial survey of blockchain technology for the energy sector using fuzzy Einstein decision-making. Renewable and Sustainable Energy Reviews, 222, 115845.

  3. Thu, K. S., Tiwari, S., & Ongsakul, W. (2023). Blockchain Technologies for Renewable Energy Resources with Case Study: SHA-256, 384, and 512. In IoT, Machine Learning and Blockchain Technologies for Renewable Energy and Modern Hybrid Power Systems (pp. 257-270). River Publishers. [Link]

  4. Thu, K. S., & Ongsakul, W. (2020, October). Simulation of Blockchain based Power Trading with Solar Power Prediction in Prosumer Consortium Model. In 2020 International Conference and Utility Exhibition on Energy, Environment and Climate Change (ICUE)(pp. 1-10). IEEE. [Link]

  5. Altaf, M., Klabwisas, W., Thu, K. S., & Ongsakul, W. (2020, October). Performance of the Outdoor Evaporative Cooling: A Case Study of Thammasat University Rangsit Campus. In 2020 International Conference and Utility Exhibition on Energy, Environment and Climate Change (ICUE)(pp. 1-7). IEEE. [Link]

  6. Thu, K. S., Aung, M. S., Ongsakul, W., & Manjiparambil, N. (2020). Transition of University to Prosumer Consortium Energy Model. In The First National Conference on Engineering Research(pp. 168–172). Yangon: Federation of Myanmar Engineering Societies. [Link]

You can follow my work from here ==> Google Scholar

 

You can check out a video clip I made years ago.

 

 

 

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