Izenburua
Enhancing World Models with Specialized Prediction Networks for Reinforcement LearningBeste erakundeak
https://ror.org/00ne6sr39Bertsioa
Bertsio argitaratuaDokumentu-mota
Kongresu-ekarpenaBahituraren amaiera data
2145-01-01Hizkuntza
IngelesaEskubideak
© 2025 SpringerSarbidea
Sarbide bahituaArgitaratzailearen bertsioa
https://doi.org/10.1007/978-3-032-08462-0_20Non argitaratua
Lecture Notes in Computer Science. Hybrid Artificial Intelligent Systems 2025 HAISArgitaratzailea
SpringerGako-hitzak
Machine LearningReinforcement Learning
World Models
Gaia (UNESCO Tesauroa)
Kontrol automatikoaRobotika
Laburpena
Training robots in the real-world using reinforcement learning is both expensive and risky. World Models—a simulated environment that mirrors real-world conditions—have been proved to offer an alterna ... [+]
Training robots in the real-world using reinforcement learning is both expensive and risky. World Models—a simulated environment that mirrors real-world conditions—have been proved to offer an alternative to real-world training. Such simulation-based training not only reduces costs significantly but also reduces the dependency from real-world testing.
While previous studies focus on single-network architectures that predict state, reward, and episode termination as a single output, this research proposes a different approach by creating a structure based on specialized prediction networks for each of the aforementioned elements.
During the experiment, several simulated environments were used. The main results obtained showed that the specialized-network World Models were capable of learning the environment’s dynamics adequately, and that the proposed architecture outperformed single-network configurations by more effectively capturing these dynamics.
Finally, future directions are included on possible ways to enhance World Models efficiency. [-]


















