Dynamic Network
Dynamic networks represent systems where relationships between entities change over time, demanding models that capture both structural and temporal dynamics. Current research focuses on developing efficient algorithms and architectures, such as graph neural networks, tensor factorization, and dynamic routing networks, to analyze these evolving structures and predict future states, often incorporating data from multiple modalities. This field is crucial for understanding complex systems across diverse domains, from social networks and communication systems to biological processes and autonomous driving, enabling improved prediction, anomaly detection, and resource optimization.
Papers
OASIS: Open Agents Social Interaction Simulations on One Million Agents
Ziyi Yang, Zaibin Zhang, Zirui Zheng, Yuxian Jiang, Ziyue Gan, Zhiyu Wang, Zijian Ling, Jinsong Chen, Martz Ma, Bowen Dong, Prateek Gupta, Shuyue Hu, Zhenfei Yin, Guohao Li, Xu Jia, Lijun Wang, Bernard Ghanem, Huchuan Lu, Wanli Ouyang, Yu Qiao, Philip Torr, Jing Shao
Hierarchical-Graph-Structured Edge Partition Models for Learning Evolving Community Structure
Xincan Yu, Sikun Yang