Integrating LLMs for Explainable Fault Diagnosis in Complex Systems

no code implementations • 8 Feb 2024 • Akshay J. Dave, Tat Nghia Nguyen, Richard B. Vilim

This paper introduces an integrated system designed to enhance the explainability of fault diagnostics in complex systems, such as nuclear power plants, where operator understanding is critical for informed decision-making.

Decision Making Language Modelling +1

A Safe Reinforcement Learning Algorithm for Supervisory Control of Power Plants

no code implementations • 23 Jan 2024 • Yixuan Sun, Sami Khairy, Richard B. Vilim, Rui Hu, Akshay J. Dave

In power plant control, one often needs to obtain a precise representation of the system dynamics and carefully design the control scheme accordingly.

reinforcement-learning Reinforcement Learning (RL) +1

Physics-informed State-space Neural Networks for Transport Phenomena

no code implementations • 21 Sep 2023 • Akshay J. Dave, Richard B. Vilim

This work introduces Physics-informed State-space neural network Models (PSMs), a novel solution to achieving real-time optimization, flexibility, and fault tolerance in autonomous systems, particularly in transport-dominated systems such as chemical, biomedical, and power plants.

Fault Detection

Design of a Supervisory Control System for Autonomous Operation of Advanced Reactors

no code implementations • 9 Sep 2022 • Akshay J. Dave, Taeseung Lee, Roberto Ponciroli, Richard B. Vilim

The hierarchical control system consists of a supervisory layer and low-level layer.

Numerical Demonstration of Multiple Actuator Constraint Enforcement Algorithm for a Molten Salt Loop

no code implementations • 4 Feb 2022 • Akshay J. Dave, Haoyu Wang, Roberto Ponciroli, Richard B. Vilim

In this work, we focus on the specific problem of optimal control during autonomous operation.

BIG-bench Machine Learning