Actuators (Jan 2024)

Hierarchical Understanding in Robotic Manipulation: A Knowledge-Based Framework

  • Runqing Miao,
  • Qingxuan Jia,
  • Fuchun Sun,
  • Gang Chen,
  • Haiming Huang

DOI
https://doi.org/10.3390/act13010028
Journal volume & issue
Vol. 13, no. 1
p. 28

Abstract

Read online

In the quest for intelligent robots, it is essential to enable them to understand tasks beyond mere manipulation. Achieving this requires a robust parsing mode that can be used to understand human cognition and semantics. However, the existing methods for task and motion planning lack generalization and interpretability, while robotic knowledge bases primarily focus on static manipulation objects, neglecting the dynamic tasks and skills. To address these limitations, we present a knowledge-based framework for hierarchically understanding various factors and knowledge types in robotic manipulation. Using this framework as a foundation, we collect a knowledge graph dataset describing manipulation tasks from text datasets and an external knowledge base with the assistance of large language models and construct the knowledge base. The reasoning tasks of entity alignment and link prediction are accomplished using a graph embedding method. A robot in real-world environments can infer new task execution plans based on experience and knowledge, thereby achieving manipulation skill transfer.

Keywords