Seminar Series: Sen Na

January 9, 2024

3:00PM - 4:00PM

EA170

Add to Calendar 2024-01-09 16:00:00 2024-01-09 17:00:00 Seminar Series: Sen Na Speaker: Sen NaTitle: Practicality meets Optimality: Real-Time Statistical Inference under Complex ConstraintsAbstract: Constrained estimation problems are prevalent in statistics, machine learning, and engineering. These problems encompass constrained generalized linear models, constrained deep neural networks, physics-inspired machine learning, algorithmic fairness, and optimal control. However, existing estimation methods under hard constraints rely on either projection or regularization, which may theoretically exhibit optimal efficiency but are impractical or unreasonably fail in reality. This talk aims to bridge the significant gap between practice and theory for constrained estimation problems.I will begin by introducing the critical methodology used to bridge the gap, called Stochastic Sequential Quadratic Programming. We will see that SQP methods serve as the workhorse for modern scientific machine learning problems and can resolve the failure modes of prevalent regularization-based methods. I will demonstrate how to make SQP adaptive and scalable using various modern techniques, such as stochastic line search, trust region, and dimension reduction. Additionally, I will show how to further enhance SQP to handle inequality constraints online.Following the methodology, I will present some selective theories, emphasizing the consistency and efficiency of the SQP methods. Specifically, I will show that online SQP iterates asymptotically exhibit normal behavior with a mean of zero and optimal covariance in the Hájek and Le Cam sense. Significantly, the covariance does not deteriorate even when we apply modern techniques driven by practical concerns. The talk concludes with experiments on both synthetic and real datasets. Note: Seminars are free and open to the public. Reception to follow. EA170 OSU ASC Drupal 8 ascwebservices@osu.edu America/New_York public

Add to Calendar 2024-01-09 15:00:00 2024-01-09 16:00:00 Seminar Series: Sen Na Speaker: Sen NaTitle: Practicality meets Optimality: Real-Time Statistical Inference under Complex ConstraintsAbstract: Constrained estimation problems are prevalent in statistics, machine learning, and engineering. These problems encompass constrained generalized linear models, constrained deep neural networks, physics-inspired machine learning, algorithmic fairness, and optimal control. However, existing estimation methods under hard constraints rely on either projection or regularization, which may theoretically exhibit optimal efficiency but are impractical or unreasonably fail in reality. This talk aims to bridge the significant gap between practice and theory for constrained estimation problems.I will begin by introducing the critical methodology used to bridge the gap, called Stochastic Sequential Quadratic Programming. We will see that SQP methods serve as the workhorse for modern scientific machine learning problems and can resolve the failure modes of prevalent regularization-based methods. I will demonstrate how to make SQP adaptive and scalable using various modern techniques, such as stochastic line search, trust region, and dimension reduction. Additionally, I will show how to further enhance SQP to handle inequality constraints online.Following the methodology, I will present some selective theories, emphasizing the consistency and efficiency of the SQP methods. Specifically, I will show that online SQP iterates asymptotically exhibit normal behavior with a mean of zero and optimal covariance in the Hájek and Le Cam sense. Significantly, the covariance does not deteriorate even when we apply modern techniques driven by practical concerns. The talk concludes with experiments on both synthetic and real datasets. Note: Seminars are free and open to the public. Reception to follow.  EA170 Department of Statistics stat@osu.edu America/New_York public

Speaker: Sen Na

Title: Practicality meets Optimality: Real-Time Statistical Inference under Complex Constraints

Abstract: Constrained estimation problems are prevalent in statistics, machine learning, and engineering. These problems encompass constrained generalized linear models, constrained deep neural networks, physics-inspired machine learning, algorithmic fairness, and optimal control. However, existing estimation methods under hard constraints rely on either projection or regularization, which may theoretically exhibit optimal efficiency but are impractical or unreasonably fail in reality. This talk aims to bridge the significant gap between practice and theory for constrained estimation problems.

I will begin by introducing the critical methodology used to bridge the gap, called Stochastic Sequential Quadratic Programming. We will see that SQP methods serve as the workhorse for modern scientific machine learning problems and can resolve the failure modes of prevalent regularization-based methods. I will demonstrate how to make SQP adaptive and scalable using various modern techniques, such as stochastic line search, trust region, and dimension reduction. Additionally, I will show how to further enhance SQP to handle inequality constraints online.

Following the methodology, I will present some selective theories, emphasizing the consistency and efficiency of the SQP methods. Specifically, I will show that online SQP iterates asymptotically exhibit normal behavior with a mean of zero and optimal covariance in the Hájek and Le Cam sense. Significantly, the covariance does not deteriorate even when we apply modern techniques driven by practical concerns. The talk concludes with experiments on both synthetic and real datasets.

Note: Seminars are free and open to the public. Reception to follow.