ABSTRACT
Advanced technology for the acquisition of knowledge (DAQ), such as smart tags, ultrasonic sensors, and environmental devices, offers precise, total, and early data collection to improve the management of construction activities. This chapter describes the shortcomings and abilities of appropriate sensor conceptual frameworks. This assessment showed that no specific ontology is used for the processing system to describe DAQ resources in their original context. A representative paradigm has, therefore, been created, which builds on different elements of the current ontology. i-Cons are representations of conceptual language virtues. These photographs are characterized by quantitative space relationships, parenthood, and connection. Using a platform-mediated technology (e.g., a computer graphics implementation), i-Cons are connected to virtual representations of the elements to help the user to understand them semantically and to draw more precise conclusions effectively. Vision-based motion collection was currently introduced as a promising technology for monitoring and analysis of the employee’s behavior, without any extra time or expense. In line with motion detection, which derives movement models from 3D skeleton film, the motion classification methods for automated identification of workers’ activities are presented in this chapter. For strategic planning of building construction projects, case-based thinking, which is the method of addressing new challenges based on the outcomes of previous encounters, is commonly used. In this chapter, a specialist decision-making framework for building projects is suggested using case-based thinking. The breadth of the possible skills the game will convey can be considerably improved by combining immersive training experiences with a 4D modeling ethos. This chapter explores how 4D and 5D cross-pollination will provide for a stronger atmosphere for expertise and information transfer. In this segment, the massive landslide tracking device is digitally available through the Internet and contains information on the current condition of the monitor span in real-time. To verify the reliability and accuracy of the tracking system, experimental examinations were performed. This section also examines a large number of simulation cycles available for the assessment of simulation studies in infrastructure projects and decreases the minimum completion time effectively without raising the processing requirements. In this regard, it is proposed that a predetermined colored Petri net model be combined with a multi-agent model to create a model for simulations.
