Abstract
Automatically recognizing and tracking construction equipment activities is the first step towards performance monitoring of a job site. Recognizing equipment activities helps construction managers to detect the equipment downtime/idle time in a real-time framework, estimate the productivity rate of each equipment based on its progress, and efficiently evaluate the cycle time of each activity. Thus, it leads to project cost reduction and time schedule improvement. Previous studies on this topic have been based on single sources of data (e.g., kinematic, audio, video signals) for automated activity-detection purposes. However, relying on only one source of data is not appropriate, as the selected data source may not be applicable under certain conditions and fails to provide accurate results. To tackle this issue, the authors propose a hybrid system for recognizing multiple activities of construction equipment. The system integrates two major sources of data—audio and kinematic—through implementing a robust data fusion procedure. The presented system includes recording audio and kinematic signals, preprocessing data, extracting several features, as well as dimension reduction, feature fusion, equipment activity classification using Support Vector Machines (SVM), and smoothing labels. The proposed system was implemented in several case studies (i.e., ten different types and equipment models operating at various construction job sites) and the results indicate that a hybrid system is capable of providing up to 20% more accurate results, compared to cases using individual sources of data.
Highlights
IntroductionThree important resources at job sites are crews, materials, and equipment
In the construction industry, three important resources at job sites are crews, materials, and equipment
The authors collected and processed data of pieces of construction machines working at three different job sites: (1)
Summary
Three important resources at job sites are crews, materials, and equipment. The costs depend on several factors, including the idle and working hours, as well as productivity and efficiency rates. When it comes to working hours and productivity rates, two types of problems can occur during equipment working shifts. The lack of operation while the equipment engine is working. This situation can result from poor planning (e.g., lack of a sufficient number of dump trucks to be loaded by an excavator), human factors, etc. The second type of problem is downtime when equipment is inactive, due to mechanical/electrical problems and the need to be repaired
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
