Behavior Model
Behavior modeling aims to represent and predict the actions of agents, ranging from simple electronic components to complex human interactions within various systems. Current research emphasizes developing accurate and efficient models using diverse architectures, including neural networks (e.g., transformers, autoencoders), reinforcement learning, and symbolic methods like behavior trees and state machines, often incorporating techniques like causal inference and hierarchical structures to capture nuanced behaviors. These models find applications in diverse fields, improving autonomous systems' safety, enhancing human-computer interaction design, and enabling more sophisticated simulations for training and analysis across domains like robotics, healthcare, and air combat. The ultimate goal is to create more realistic, adaptable, and interpretable models that can accurately predict and potentially influence behavior in complex scenarios.
Papers
Task Tokens: A Flexible Approach to Adapting Behavior Foundation Models
Ron Vainshtein, Zohar Rimon, Shie Mannor, Chen TesslerTechnion - Israel Institute of Technology●NVIDIAHybrid Time-Domain Behavior Model Based on Neural Differential Equations and RNNs
Zenghui Chang, Yang Zhang, Hu Tan, Hong Cai ChenIEEE