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1. Construction Students' Safety Perception of the Presence of Drones on Job Sites

   https://doi.org/10.29007/hvk7  

   Zhu, Zixian; Cheng, Jiun-Yao; Jeelani, Idris; Gheisari, Masoud (May 2024, Associated Schools of Construction (ASC))

   Drones are increasingly being utilized in the construction industry, offering a wide range of applications. As these drones have to work with or alongside construction professionals, this integration could pose new safety risks and psychological impacts on construction professionals. Hence, it is important to understand their perceptions and attitudes towards drones and evaluate the cognitive demand of working with or near drones. Limited research has explored individuals' perceptions of drones, particularly when engaged in construction activities at job sites. This study specifically targets construction students, the future professionals in the field, to understand their responses to drone interactions on job sites. An immersive virtual reality construction site was developed using a VR game engine, allowing construction students to interact with drones while engaging in typical construction activities. Through a user-centered experiment, the influence of drone presence on construction students' attitude, cognitive workload, and perceived safety risk was evaluated. The results suggest that presence of drones did not significantly elevate cognitive load or foster significantly negative attitudes among construction students. Instead, they perceived only mild safety risks, suggesting a general acceptance and adaptability towards drone technology in construction settings. 

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2. Mental workload in worker-drone communication in future construction: Considering coexistence, cooperation, and collaboration interaction levels

   https://doi.org/10.1016/j.aei.2025.103110  

   Chang, Woei-Chyi; Hasanzadeh, Sogand (May 2025, Advanced Engineering Informatics)

   While unmanned aerial vehicles (a.k.a. drones) have been recognized as potential robotic teammates that could be incorporated into the construction industry, communication between workers and drones may impose additional mental demands and workloads that could lead to workers’ mental overload on construction jobsites. To address this concern, this study examines and quantifies workers’ mental demands while communicating with drones at different human-drone interaction levels—coexistence, cooperation, and collaboration. During a futuristic bricklaying experiment wherein workers needed to communicate with drones at different interaction levels, psychophysiological sensors measured electrodermal activity, brain activation, and eye movements to assess whether the respective interactions affected workers’ mental demands. The results indicate that coexistence requires workers’ visual attention, whereas cooperation imposes affective and perceptual demands since workers were frustrated and confused when decoding and responding to messages from the drone. Moreover, higher levels of mental demands were identified in collaborative communications because sharing an object with nearby drones raised workers’ safety concerns. This research contributes to the body of knowledge by demonstrating workers experience varying dimensions of mental demands during communication with drones, and the study suggests strategies to enhance effortless worker-drone communication at coexistence, cooperation, and collaboration levels to improve worker well-being in future construction. 

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3. AI-Driven Assistant for Worker Safety in Future Construction: Examining Opportunity and Challenges

   https://doi.org/10.1177/10711813251358804  

   Chang, Woei-Chyi; Zhou, Wei; Hasanzadeh, Sogand (July 2025, Proceedings of the Human Factors and Ergonomics Society Annual Meeting)

   The integration of robots, particularly drones, into future construction sites introduces new safety challenges requiring enhanced situational awareness (SA) among workers. To address these challenges, this study explores the effectiveness of an AI-driven assistant designed to inform workers about dynamic environmental changes via auditory and visual channels. A mixed-reality bricklaying experiment was developed, simulating worker-drone interactions across three interaction levels: coexistence, cooperation, and collaboration. One hundred five construction-background students participated in tasks with and without the AI assistant, during which their eye-tracking data, productivity, and subjective perceptions were collected. Results indicated that the AI assistant significantly expedited workers’ awareness of approaching drones but concurrently reduced bricklaying productivity. Although participants reported high perceived usefulness and low distraction by the AI assistant itself, findings revealed a trade-off: improved SA toward drones came at the cost of decreased task performance, likely due to increased attentional shifts toward drones. Furthermore, the effectiveness of the assistant varied depending on the interaction level with drones. This study highlights both the opportunities and challenges of applying AI-driven informational systems in future construction environments, offering critical insights for designing human-centered AI technologies that balance safety enhancement with productivity maintenance. 

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4. Revitalizing Students Perception and Knowledge of Construction Safety: Leveraging Virtual Reality as an Experiential Learning Tool for Construction Robotic Safety Education

   https://doi.org/10.1061/9780784485293.014  

   Ojha, Amit; Shayesteh, Shayan; Jebelli, Houtan; Akanmu, Abiola; Miller, Scarlett; Sharma, Priya (March 2024, Construction Research Congress 2024)

   Traditional lectures have difficulties instilling pragmatic skills in construction engineering students due to the inability to illuminate the complexities within the human-robot collaborative construction environment. While on-site can acclimatize construction students to reality and construct knowledge that can solve safety challenges, it is challenging to organize on-site training trips owing to the dangerous nature of construction workplaces. This research aimed to explore virtual reality (VR) as a tool to enhance students’ perception and knowledge of construction robotic safety. For this purpose, the study developed a virtual training platform for providing construction engineering students with safety knowledge on interacting with simulated robots within the virtual environment of construction sites. A self-assessment approach was leveraged among 20 recruited students to demonstrate the efficacy of students’ engagement and learning outcomes from the proposed learning approach over the traditional learning approach. Results indicated a statistical difference in students’ learning outcomes and engagement levels between the developed approach and the traditional approach. Findings demonstrated the implications of VR as an experiential tool to enhance the students’ learning of robotic safety in construction. 

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5. Developing an Introductory UAV/Drone Mapping Training Program for Seagrass Monitoring and Research

   https://doi.org/10.3390/drones4040070  

   Yang, Bo; Hawthorne, Timothy L.; Hessing-Lewis, Margot; Duffy, Emmett J.; Reshitnyk, Luba Y.; Feinman, Michael; Searson, Hunter (December 2020, Drones)

   null (Ed.)

   Unoccupied Aerial Vehicles (UAVs), or drone technologies, with their high spatial resolution, temporal flexibility, and ability to repeat photogrammetry, afford a significant advancement in other remote sensing approaches for coastal mapping, habitat monitoring, and environmental management. However, geographical drone mapping and in situ fieldwork often come with a steep learning curve requiring a background in drone operations, Geographic Information Systems (GIS), remote sensing and related analytical techniques. Such a learning curve can be an obstacle for field implementation for researchers, community organizations and citizen scientists wishing to include introductory drone operations into their work. In this study, we develop a comprehensive drone training program for research partners and community members to use cost-effective, consumer-quality drones to engage in introductory drone mapping of coastal seagrass monitoring sites along the west coast of North America. As a first step toward a longer-term Public Participation GIS process in the study area, the training program includes lessons for beginner drone users related to flying drones, autonomous route planning and mapping, field safety, GIS analysis, image correction and processing, and Federal Aviation Administration (FAA) certification and regulations. Training our research partners and students, who are in most cases novice users, is the first step in a larger process to increase participation in a broader project for seagrass monitoring in our case study. While our training program originated in the United States, we discuss our experiences for research partners and communities around the globe to become more confident in introductory drone operations for basic science. In particular, our work targets novice users without a strong background in geographic research or remote sensing. Such training provides technical guidance on the implementation of a drone mapping program for coastal research, and synthesizes our approaches to provide broad guidance for using drones in support of a developing Public Participation GIS process. 

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