Publikation
The Dynamic Anchoring Agent: A Probabilistic Object Anchoring Framework for Semantic World Modeling
Zongyao Yi; Martin Günther; Joachim Hertzberg
In: Proceedings of the Thirty-Seventh International Florida Artificial Intelligence Research Society Conference. International FLAIRS Conference (FLAIRS-37), May 19-21, Miramar Beach, FL, USA, Florida Online Journals, 5/2024.
Zusammenfassung
Semantic world modeling has been studied extensively, with the goal of enabling robots to understand and interact with their environment. However, existing approaches to semantic world modeling rely on well-defined perceptual data, such as distinct visual features. In situations where different objects are difficult to distinguish based on perceptual data alone, the resulting world model will be ambiguous and inconsistent. To address this challenge, we present the Dynamic Anchoring Agent (DAA), a probabilistic object anchoring framework for semantic world modeling that uses domain knowledge and reasoning to handle the ambiguity of sensor data through probabilistic anchoring. It includes a Multiple Hypothesis Tracker (MHT) as a filter for noisy observations, and a knowledge base that encodes domain knowledge and scene context to reduce uncertainty in the anchoring process. The framework is evaluated on both synthetic and real-world datasets, demonstrating its effectiveness in resolving association ambiguities in the presence of identical-looking instances. It has also been integrated into a real robot platform. We show that with the help of domain knowledge and scene context, the proposed framework outperforms traditional pure data-based algorithms in terms of identification accuracy, and can effectively resolve ambiguities between sensor-identical object instances.
Projekte
CoPDA - Umfassende Umgebungswahrnehmung und Dynamische Verankerung,
ExPrIS - Erwartungen auf Wissensebene als A-Priori-Wahrscheinlichkeiten für die Objektinterpretation aus Sensordaten
ExPrIS - Erwartungen auf Wissensebene als A-Priori-Wahrscheinlichkeiten für die Objektinterpretation aus Sensordaten