World Model
Internal representation that an AI system uses to simulate the environment it operates in, enabling prediction and decision-making based on those simulations.
World models are crucial for enabling artificial intelligence systems to predict future states of their environment, facilitating more informed decision-making processes. These models are particularly significant in the context of reinforcement learning (RL) and robotics, where an agent must interact with its surroundings in a way that is both effective and efficient. By simulating different actions and their potential outcomes internally, an AI can evaluate the best course of action without the need for extensive trial-and-error in the real world. This approach not only saves time and resources but also allows for safer and more ethical AI development, especially in situations where real-world experimentation may pose risks or ethical concerns. The concept of world models aligns with cognitive theories suggesting that humans and animals operate using similar internal models to navigate and understand their environments.
The concept of world models has roots in cognitive science and artificial intelligence research dating back several decades, with a significant increase in interest and application in the early 21st century, especially with the advent of more sophisticated machine learning techniques.
While the development of world models is a collective effort among many researchers in the fields of artificial intelligence, cognitive science, and robotics, notable contributions have come from the reinforcement learning and deep learning communities, including researchers like Richard Sutton and Andrew Barto, who have significantly advanced the understanding of learning and adaptation mechanisms in AI.