Under the guidance of the "dual carbon" goals, the new-type power system has become the core of China's energy transition. With the continuous grid integration of high-proportion renewable energy, the power system is undergoing a structural transformation from being dominated by synchronous generators to the extensive integration of power electronic devices, gradually forming a multi-element integrated "double-high" system. While promoting clean energy transition and operational flexibility, this transformation has profoundly changed the dynamic characteristics and stability mechanisms of the system.

Research on data-driven stability analysis and control technologies for new-type power systems holds significant theoretical importance and application value, and has emerged as one of the research hotspots in the power system field. Despite the major breakthroughs in renewable energy technologies, the inherent characteristics of renewable energy, such as randomness, volatility, low inertia and weak damping, still pose severe challenges to power systems. In particular, with the large-scale grid connection of renewable energy via power electronic converters, the dynamic response characteristics of the system have undergone profound changes, further exerting a significant impact on the stable operation of the system. To address these issues, Chinese research institutions have carried out extensive work in stability analysis, active control and system optimization, enriching the technical system and significantly improving the level of research and application, which provides solid support for the safe operation of China's power systems and the upgrading of the new energy industry. This special issue aims to discuss and showcase the latest research progress of Chinese scholars in data-driven stability analysis and control technologies for new-type power systems, and to provide a reference for relevant researchers from universities, research institutions and enterprises.

Therefore, Journal of Northeast Electric Power University specially plans this Special Issue on Data-Driven Stability Analysis and Control Technologies for New-Type Power Systems, and invites Professor Wu Xi from Southeast University, Professor Yang Deyou from Harbin University of Science and Technology, and Professor Sun Zhenglong from Northeast Electric Power University to serve as Guest Editors of this special issue. The aim is to encourage scholars and experts to systematically discuss the latest research progress and achievements in the stability mechanism and active control strategies of new-type power systems. We sincerely invite experts and scholars from universities, research institutes and related enterprises to contribute their high-quality papers!

Scope of Contributions (Including but Not Limited to)

1. Data-driven stability analysis and prediction for new-type power systems
2. Data-driven monitoring and stability assessment for new-type power systems
3. Data-driven safety risk early-warning methods for new-type power systems
4. Data-driven renewable energy generation forecasting
5. Data-driven stability control and knowledge extraction for new-type power systems
6. Data-driven operation and decision-making for new-type power systems
7. Impact mechanism of high-proportion new energy grid integration on the stability of new-type power systems
8. Active coordinated control technologies for power grids with high-proportion renewable energy
9. Operation and control strategies under high-proportion new energy and DC grid integration

Important Dates

• Submission Deadline: The deadline for the first round of paper submission is December 31, 2025.
• Publication Date: The first issue of this special issue is scheduled to be published in the first half of 2026. Accepted papers will be first published online in CNKI (China National Knowledge Infrastructure) with priority. Continuous contributions are welcome thereafter, and the accepted papers will be published as a special column.

Submission Requirements

1. Manuscripts must be original unpublished papers written in Chinese (either review articles or research papers). Submitted papers shall not have been published in any formal publications, and multiple submissions of the same paper are prohibited. Authors shall ensure the legality of the submitted papers (free of plagiarism, infringement and other improper behaviors).
2. The research purpose of the paper shall be clear. The introduction should provide a comprehensive and objective review of existing research, and elaborate on the innovations and improvements of the paper.
3. The research data, process and results shall be true and accurate. Authors shall compare the advantages and disadvantages of the proposed method with existing methods.
4. Manuscripts should be formatted in accordance with the paper template of Journal of Northeast Electric Power University (the template can be downloaded from the journal's official website: https://xb.neepu.edu.cn/).

Submission Method

Please visit the official website of Journal of Northeast Electric Power University (https://xb.neepu.edu.cn/), register as an author, and submit your manuscript online. Please be sure to select the special issue "Data-Driven Stability Analysis and Control Technologies for New-Type Power Systems" when choosing the submission column.

Brief Introduction of Guest Editors

Wu Xi

PhD in Engineering, Professor and Doctoral Supervisor at Southeast University, Visiting Scholar at Illinois Institute of Technology, USA. He is currently the Assistant Dean of the School of Electrical Engineering, Southeast University, and the Deputy Director of the Teaching Committee of the Power System and Its Automation Discipline of the China Machinery Industry Education Association. He has won one first-class award and one second-class award of the Jiangsu Provincial Science and Technology Award. He was selected as an Excellent Young Backbone Teacher of the Jiangsu "Blue Project" and a "Zhishan Young Scholar" (Level A) of Southeast University.

Yang Deyou

PhD in Engineering, Professor and Doctoral Supervisor at Harbin University of Science and Technology. He is currently the Director of the Institute of Power System Automation, Harbin University of Science and Technology, and the Leader of the Provincial Professional and Technical Leading Talent Echelon of Heilongjiang Province. He has won one first-class award and one second-class award of the Jilin Provincial Science and Technology Progress Award. He was selected as a Top-notch Innovative Talent of Jilin Province, a Young and Middle-aged Top Talent with Outstanding Contributions of Jilin City, and a High-level Talent of Heilongjiang Province.

Sun Zhenglong

PhD in Engineering, Professor and Doctoral Supervisor at Northeast Electric Power University, Postdoctoral Fellow at the Technion-Israel Institute of Technology. He is currently the Vice Dean of the School of Electrical Engineering, Northeast Electric Power University, and the Person in Charge of the National First-Class Undergraduate Major. He won one second-class award of the Jilin Provincial Science and Technology Progress Award as the first completer. He was awarded the title of Young Post Expert of Jilin City, Class D Talent of Jilin Province, Excellent Class of the Overseas Students' Technology Innovation and Entrepreneurship Preferred Funding Program of Jilin Province, "Dongdian Scholar" of Northeast Electric Power University, and Excellent Party Affairs Worker of Northeast Electric Power University. He was selected into the "Young Talent Support Program" of the Chinese Society for Electrical Engineering.