In recent years, there has been a growing interest in developing multiagent systems that combine the strengths of human, robotic, and virtual agents to perform complex tasks. In this project we theorize on how such a system could be implemented in bricklaying at a construction site, which traditionally relies heavily on human labor. With the advent of artificial intelligence , virtual/augmented reality, and robotics, there is an opportunity to revolutionize the way bricklaying is done. In this project, we will explore a multiagent system for bricklaying that uses human, robotic, and virtual agents working together to achieve efficient and high-quality results.