Spatial relation learning in complementary scenarios with deep neural networks

Author:

Lee Jae Hee,Yao Yuan,Özdemir Ozan,Li Mengdi,Weber Cornelius,Liu Zhiyuan,Wermter Stefan

Abstract

A cognitive agent performing in the real world needs to learn relevant concepts about its environment (e.g., objects, color, and shapes) and react accordingly. In addition to learning the concepts, it needs to learn relations between the concepts, in particular spatial relations between objects. In this paper, we propose three approaches that allow a cognitive agent to learn spatial relations. First, using an embodied model, the agent learns to reach toward an object based on simple instructions involving left-right relations. Since the level of realism and its complexity does not permit large-scale and diverse experiences in this approach, we devise as a second approach a simple visual dataset for geometric feature learning and show that recent reasoning models can learn directional relations in different frames of reference. Yet, embodied and simple simulation approaches together still do not provide sufficient experiences. To close this gap, we thirdly propose utilizing knowledge bases for disembodied spatial relation reasoning. Since the three approaches (i.e., embodied learning, learning from simple visual data, and use of knowledge bases) are complementary, we conceptualize a cognitive architecture that combines these approaches in the context of spatial relation learning.

Funder

Deutsche Forschungsgemeinschaft

National Natural Science Foundation of China

Publisher

Frontiers Media SA

Subject

Artificial Intelligence,Biomedical Engineering

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