Please note: This PhD defence will take place in DC 2310.
Zeou Hu, PhD candidate
David R. Cheriton School of Computer Science
Supervisor: Professor Yaoliang Yu
Many machine learning problems involve trade-offs among multiple objectives, such as accuracy, fairness, or the interests of different tasks or users, making multi-objective optimization (MOO) a natural framework for their study. Such trade-offs arise in a range of modern machine learning settings, including but not limited to multi-task learning, federated learning, algorithmic fairness, and reinforcement learning. While MOO has long been studied in the optimization literature, often through classical approaches such as evolutionary algorithms, contemporary machine learning problems are typically high-dimensional and call for scalable gradient-based methods. This thesis studies gradient-based MOO from three complementary perspectives: its application to federated learning as an important machine learning setting, the refinement of its solution concepts under variable sparsity, and the development of a unifying theory for gradient aggregation methods.