The paper seeks to present an innovative Bio-mimicking approach that utilizes Cyber-Physical Systems technology as a construction system based on a Knowledge-Based System that can ease the integration of this technology to the built environment. The paper starts by reviewing the relation between biological and architectural systems. Then it moves to bio-mimicking as a sustainability achieving approach and executes a review for growth phenomenon and self-organizing process. It then tracks the current paradigms of architectural robotics, with a specific focus on cyber-physical systems. After that, it comprehensively analyses an especially developed knowledge-based system that is architecturally oriented to control the construction process based on cyber-physical systems. Finally, the paper presents a successful construction process simulation for a complex case study based on a previously developed cyber-physical systems prototype to examine the functionality of the knowledge-based system, especially on generating and modifying building configurations. The paper represents a benchmark for creating a comprehensive and functional software for the using cyber-physical systems on the built environment field; however, there are some remaining obstacles, especially on the hardware level. Additionally, there is a critical need for real-time experiments to validate the cyber-physical systems as a reliable construction system.

本文试图提出一种创新的生物模仿方法，该方法利用网络物理系统技术作为基于知识系统的建筑系统，可以简化该技术与建筑环境的集成。本文首先回顾了生物系统与建筑系统之间的关系。然后将其作为可持续发展的实现方法进行生物模仿，并对增长现象和自组织过程进行审查。然后，它跟踪了建筑机器人技术的当前范例，特别侧重于网络物理系统。之后，它全面分析了特别开发的基于知识的系统，该系统以体系结构为导向来控制基于网络物理系统的施工过程。最后，本文基于先前开发的网络物理系统原型为复杂的案例研究提供了成功的施工过程仿真，以检查基于知识的系统的功能，尤其是在生成和修改建筑配置方面。该文件代表了为在建筑环境领域使用网络物理系统创建功能全面的软件的基准；但是，仍然存在一些障碍，尤其是在硬件层面。此外，迫切需要进行实时实验，以将电子物理系统验证为可靠的构建系统。本文代表了一个基准，该基准旨在为在建筑环境领域使用网络物理系统创建功能全面的软件；但是，仍然存在一些障碍，尤其是在硬件层面。此外，迫切需要进行实时实验，以将电子物理系统验证为可靠的构建系统。该文件代表了为在建筑环境领域使用网络物理系统创建功能全面的软件的基准；但是，仍然存在一些障碍，尤其是在硬件层面。此外，迫切需要进行实时实验，以将电子物理系统验证为可靠的构建系统。