Decentralized and Asymmetric Multi-Agent Learning in Construction Sites

Yakov Miron, Dan Navon, Yuval Goldfracht, Dotan Di Castro, Itzik Klein

Research output: Contribution to journalArticlepeer-review

Abstract

Multi-agent collaboration involves multiple participants working together in a shared environment to achieve a common goal. These agents share information, divide tasks, and synchronize their actions. Key aspects of multi-agent collaboration include coordination, communication, task allocation, cooperation, adaptation, and decentralization. On construction sites, surface grading is the process of leveling sand piles to increase a specific area's height. There, a bulldozer grades while a dumper allocates sand piles. Our work aims to utilize a multi-agent approach to enable these vehicles to collaborate effectively. To this end, we propose a decentralized and asymmetric multi-agent learning approach for construction sites (DAMALCS). We formulate DAMALCS to reduce expected collisions for operating vehicles. Therefore, we develop two heuristic experts capable of achieving their joint goal optimally, by applying an innovative prioritization method. In this approach, the bulldozer's movements take precedence over the dumper's operations. This enables the dozer to clear the path for the dumper and ensure continuous operation of both vehicles. As heuristics alone are insufficient in real-world scenarios, we utilize them to train AI agents, which proves to be highly effective. We simultaneously train dozer and dumper agents to operate within the same environment, aiming to avoid collisions and optimizing performance in terms of time efficiency and sand volume handling. Our trained agents and heuristics are evaluated in both simulation and real-world lab experiments, testing them under various conditions such as visual noise and localization errors. The results demonstrate that our approach significantly reduces collision rates for these vehicles.

Original languageEnglish
Pages (from-to)1587-1599
Number of pages13
JournalIEEE Open Journal of Vehicular Technology
Volume5
DOIs
StatePublished - 2024

Bibliographical note

Publisher Copyright:
© 2020 IEEE.

Keywords

  • Multi-agents
  • construction-sites automation
  • decentralized decision making
  • deep learning
  • localization uncertainties

ASJC Scopus subject areas

  • Automotive Engineering

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