no code implementations • 12 Mar 2024 • Lilan Karunaratne, Nilanjan Ray Chaudhuri, Amirthagunaraj Yogarathnam, Meng Yue
Further, we consider the quasistationary phasor calculus (QPC) framework that neglects transmission line, load, and SG stator dynamics to show its adequacy in SSO modeling and analysis.
no code implementations • 20 Oct 2023 • Ying Zhang, Meng Yue
Under voltage load shedding (UVLS) for power grid emergency control builds the last defensive perimeter to prevent cascade outages and blackouts in case of contingencies.
no code implementations • 13 Feb 2023 • Fei Kong, Xiyue Wang, Jinxi Xiang, Sen yang, Xinran Wang, Meng Yue, Jun Zhang, Junhan Zhao, Xiao Han, Yuhan Dong, Biyue Zhu, Fang Wang, Yueping Liu
We assessed the effectiveness of FACL in cancer diagnosis and Gleason grading tasks using 19, 461 whole-slide images of prostate cancer from multiple centers.
no code implementations • 29 Jan 2023 • Christian Moya, Guang Lin, Tianqiao Zhao, Meng Yue
This paper designs an Operator Learning framework to approximate the dynamic response of synchronous generators.
no code implementations • 21 Sep 2022 • Yixuan Sun, Christian Moya, Guang Lin, Meng Yue
This paper develops a Deep Graph Operator Network (DeepGraphONet) framework that learns to approximate the dynamics of a complex system (e. g. the power grid or traffic) with an underlying sub-graph structure.
no code implementations • 15 Feb 2022 • Christian Moya, Shiqi Zhang, Meng Yue, Guang Lin
This paper proposes a new data-driven method for the reliable prediction of power system post-fault trajectories.
no code implementations • 22 Jan 2022 • Yunling Zheng, Carson Hu, Guang Lin, Meng Yue, Bao Wang, Jack Xin
Due to the sparsified queries, GLassoformer is more computationally efficient than the standard transformers.
no code implementations • 25 Feb 2021 • Ying Zhang, Meng Yue, Jianhui Wang
Emergency control, typically such as under-voltage load shedding (UVLS), is broadly used to grapple with low voltage and voltage instability issues in practical power systems under contingencies.