1. Developmental robotics: Introduction to robotics inspired by human growth and learning.
2. Domo (robot): Study of Domo, a robot designed for interaction with human environments.
3. Humancentered computing: Exploration of systems that prioritize human interaction and usability.
4. Computational intelligence: Insight into computational models of intelligence in robotics.
5. Cognitive architecture: Examination of the structures enabling robot reasoning and learning.
6. Cognitive robotics: Insights into robots that mimic humanlike perception and problemsolving.
7. Robot learning: Overview of machine learning as applied to autonomous robotic adaptation.
8. Enactivism: Analysis of embodied learning through physical and environmental interaction.
9. Programming by demonstration: Techniques for teaching robots through human action examples.
10. Leonardo (robot): Case study on Leonardo, a robot trained for social learning.
11. Max Planck Institute for Psycholinguistics: Research insights on robotic language processing.
12. Domaingeneral learning: Exploration of robots learning across diverse, unspecific tasks.
13. Infant cognitive development: Comparisons of robotic learning to human infant cognition.
14. Basic science (psychology): Psychological principles foundational to robotic behavior.
15. Morphogenetic robotics: Study of robots that adapt based on biological growth patterns.
16. Evolutionary developmental robotics: Robotics inspired by natural evolutionary processes.
17. Situated approach (artificial intelligence): Contextual AI based on realworld environments.
18. Embodied cognition: Understanding cognition as grounded in physical embodiment.
19. JeanChristophe Baillie: Contributions to robotics and interactive learning systems.
20. Aude Billard: Innovations in social and learningbased robotics applications.
21. Intrinsic motivation (artificial intelligence): Motivationdriven behaviors in autonomous AI.
