PMGDA: A Preference-based Multiple Gradient Descent Algorithm
This addresses the need for scalable preference-based optimization in multi-task learning and reinforcement learning, though it appears incremental as it builds on existing gradient descent methods.
The paper tackles the problem of finding Pareto solutions that match a decision maker's preference in large-scale multi-objective machine learning applications, proposing a predict-and-correct framework that efficiently handles problems with thousands of decision variables.
It is desirable in many multi-objective machine learning applications, such as multi-task learning with conflicting objectives and multi-objective reinforcement learning, to find a Pareto solution that can match a given preference of a decision maker. These problems are often large-scale with available gradient information but cannot be handled very well by the existing algorithms. To tackle this critical issue, this paper proposes a novel predict-and-correct framework for locating a Pareto solution that fits the preference of a decision maker. In the proposed framework, a constraint function is introduced in the search progress to align the solution with a user-specific preference, which can be optimized simultaneously with multiple objective functions. Experimental results show that our proposed method can efficiently find a particular Pareto solution under the demand of a decision maker for standard multiobjective benchmark, multi-task learning, and multi-objective reinforcement learning problems with more than thousands of decision variables. Code is available at: https://github.com/xzhang2523/pmgda. Our code is current provided in the pgmda.rar attached file and will be open-sourced after publication.}