- Object-based Place Recognition for Mobile Robots Using Panoramas
- Evolving a Multiagent System for Landmark-Based Robot Navigation
- Automatic Selection of Object Recognition Methods using Reinforcement Learning
- DOI 10.1007/s10994-006-9025-9 A case based approach to expressivity-aware tempo
- Machine Learning, 59, 132, 2005 2005 Springer Science + Business Media, Inc. Manufactured in The Netherlands.
- CONTRIBUTIONS to SCIENCE, 2 (1): 9-22 (2001) Institut d'Estudis Catalans, Barcelona
- Extracting performers' behaviors to annotate cases in a CBR system for musical tempo
- TempoExpress, a CBR Approach to Musical Tempo Transformations
- MELODIC SIMILARITY: LOOKING FOR A GOOD ABSTRACTION Maarten Grachten and Josep-Lluis Arcos and Ramon Lopez de Mantaras
- Evolutionary Optimization of Music Performance Annotation
- Melody Retrieval using the Implication/Realization Model Maarten Grachten, Josep Lluis Arcos and Ramon Lopez de Mantaras
- The Knowledge Engineering Review, Vol. 00:0, 12. 2005, Cambridge University Press DOI: 10.1017/S000000000000000 Printed in the United Kingdom
- Emergent Case-Based Reasoning Applications RAMON LOPEZ DE MANTARAS1
- Retrieving and Reusing Game Plays for Robot Soccer
- COMPARING COMBINATIONS OF FEATURE REGIONS FOR PANORAMIC VSLAM
- Beyond Individualism: Modeling Team Playing Behavior in Robot Soccer Through Case-Based Reasoning
- Using the Average Landmark Vector Method for Robot Homing
- A Case-Based Approach for Coordinated Action Selection in Robot Soccer
- Should I trust my teammates? An experiment in Heuristic Multiagent Reinforcement Learning
- Improving Reinforcement Learning by using Case Based Heuristics
- Visual Registration Method For A Low Cost Robot David Aldavert
- Evaluation of the SIFT Object Recognition Method in Mobile Robots
- Mediation = Information revelation + Analogical Simeon Simoff1,3
- Case-Based Multiagent Reinforcement Learning: Cases as Heuristics for Selection of Actions
- Using Cases as Heuristics in Reinforcement Learning: a Transfer Learning Application
- Evaluation of Three Vision Based Object Perception Methods for a Mobile Robot
- CBR with Commonsense Reasoning and Structure Mapping: An Application to
- Self-Supervised Clustering for Codebook Construction: An Application to Object
- Evaluation of the SIFT Object Recognition Method For a Mobile Robotic Platform
- Evaluation of the Vocabulary Tree Object Recognition Method For a Mobile Robotic Platform
- Multiagent Bidding Mechanisms for Robot Qualitative Navigation 1
- Real-Time Object Segmentation Using a Bag of Features Approach
- INTEGRATING A POTENTIAL FIELD BASED PILOT INTO A MULTIAGENT NAVIGATION
- IIIA Research Report RR-IIIA-2005-03
- In our assessment of the services below, one thing was clear: no recommendation service is perfect. While you would expect different systems to come up with different suggestions, we were struck by the blind spots or totally off-the-wall suggestions
- The IIIA30 Mobile Robot Object Recognition Arnau Ramisa, David Aldavert, Shrihari Vasudevan, Ricardo Toledo and Ramon Lopez de Mantaras
- Noname manuscript No. (will be inserted by the editor)
- Noname manuscript No. (will be inserted by the editor)
- Maximum a Posteriori Tree Augmented Naive Bayes
- Team Playing Behavior in Robot Soccer: A Case-Based Reasoning Approach
- A Tale of Two Object Recognition Methods for Mobile Robots
- Efficient Object Pixel-Level Categorization using Bag of Features
- Mobile Robot Localization using Panoramic Vision and Combinations of Feature Region Detectors
- Using Transfer Learning to Speed-Up Reinforcement Learning: a Cased-Based Approach
- TempoExpress: An Expressivity-Preserving Musical Tempo Transformation Maarten Grachten and Josep-Lluis Arcos and Ramon Lopez de Mantaras
- Noname manuscript No. (will be inserted by the editor)
- Autonomous Robots 15, 129154, 2003 c 2003 Kluwer Academic Publishers. Manufactured in The Netherlands.
- Using Transfer Learning to Speed-Up Reinforcement Learning: a Cased-Based Approach
- Learning to Select Object Recognition Methods for Autonomous Mobile Robots
