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  • Books  (29)
  • thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization  (29)
  • Firenze University Press  (29)
  • PANGAEA
  • English  (29)
  • 2020-2024  (29)
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  • Books  (29)
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  • English  (29)
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  • 2020-2024  (29)
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  • 1
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    Chapter A Comparative Study of Deep Learning Models for Symbol Detection in Technical Drawings (2024)
    Firenze University Press
    Details
    Publication Date: 2024-05-13
    Description: Symbols are a universal way to convey complex information in technical drawings since they can represent a wide range of elements, including components, materials, or relationships, in a concise and space-saving manner. Therefore, to enable a digital and automatic interpretation of pixel-based drawings, accurate detection of symbols is a crucial step. To enhance the efficiency of the digitization process, current research focuses on automating this symbol detection using deep learning models. However, the ever-increasing repertoire of model architectures poses a challenge for researchers and practitioners alike in retaining an overview of the latest advancements and selecting the most suitable model architecture for their respective use cases. To provide guidance, this contribution conducts a comparative study of prevalent and state-of-the-art model architectures for the task of symbol detection in pixel-based construction drawings. Therefore, this study evaluates six different object detection model architectures, including YOLOv5, YOLOv7, YOLOv8, Swin-Transformer, ConvNeXt, and Faster-RCNN. These models are trained and tested on two distinct datasets from the bridge and residential building domains, both representing substantial sub-sectors of the construction industry. Furthermore, the models are evaluated based on five criteria, i.e., detection accuracy, robustness to data scarcity, training time, inference time, and model size. In summary, our comparative study highlights the performance and capabilities of different deep learning models for symbol detection in construction drawings. Through the comprehensive evaluation and practical insights, this research facilitates the advancement of automated symbol detection by showing the strengths and weaknesses of the model architectures, thus providing users with valuable guidance in choosing the most appropriate model for their real-world applications
    Keywords: Computer Vision ; Technical Drawings ; Symbol Detection ; Comparative Study ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 2
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    Chapter Carbon Tracking in the Building Sector: A ‘CABBAGE’ Framework (2024)
    Firenze University Press
    Details
    Publication Date: 2024-05-11
    Description: The great challenge of global climate change urges world economies to reduce greenhouse gas emissions and promote sustainable development, where the building sector plays a vital role. Carbon tracking technology is one of the keys to capturing carbon emissions for sustainable construction such as net-zero buildings. This paper reviews five key carbon tracking technologies – life cycle assessment (LCA), energy modeling, building operation monitoring, carbon accounting software, and green certification and rating systems. With summarized advantages, beneficiaries, and limitations of the five technologies, we propose a Carbon Tracking ‘Cabbage’ (CTC) framework that incorporates all carbon tracking tools as inner technological layers for multiple stakeholders at multiple stages of construction management. The main contribution of this paper is the CTC framework that rationalizes the scopes and adoption strategies of carbon tracking technologies by collaborative stakeholders to achieve informed decision-making, implement effective carbon reduction strategies, and subsequently contribute to climate change mitigation actively
    Keywords: Carbon tracking ; Building sector ; Carbon tracking cabbage framework ; multi-stakeholder ; Technology adoption ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 3
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    Chapter Evaluation of Immersive VR Experiences for Safety Training of Construction Workers: A Semi-Qualitative Approach Proposal (2024)
    Firenze University Press
    Details
    Publication Date: 2024-05-09
    Description: The diffusion of Building Information Modeling (BIM) and advanced visualization technologies in the increasingly digitalised construction sector is fostering the development and implementation of disruptive approaches for workforce Health and Safety (H&S) training. Project-specific risks, safety procedures and information can be administered through immersive Virtual Reality (VR) experiences where construction site environments and activities are reproduced without exposing the trainees to real hazards. However, despite numerous research and industry applications demonstrating the potential benefits of these technologies, a standardized framework and methodology for the evaluation of VR safety training effectiveness for construction workers is still lacking hence hindering its large scale-adoption and recognition from policymakers. Within the scope of previous authors contributions on the development and implementation of BIM-based VR experiences for construction workers’ safety training, this paper aims to address the evaluation of their effectiveness proposing a novel semi-qualitative approach based on the integration of trainees’ subjective and objective data. A post-experience evaluation questionnaire is developed to collect trainees’ direct and qualitative feedback about the experience immersivity and perceived safety content transfer. Furthermore, the integration with trainees’ spatial tracking data is proposed to complement the qualitative feedback with the quantitative evaluation of their use of the virtual space for safety training purposes. The application of the presented approach in case study is currently undergoing and the related results will be subject of future contributions
    Keywords: Virtual Reality (VR) ; Construction worker ; Safety training ; Evaluation ; Spatial tracking ; Heatmap visualization ; Survey ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 4
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    Chapter Evaluation of Computer Vision-Aided Multimedia Learning in Construction Engineering Education (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-11
    Description: Due to the practice-oriented nature of construction engineering education and barriers associated with physical site visits, videos are invaluable means to expose students to practical curricula content. Prior studies have investigated various design principles of multimedia pedagogical tools to enhance student learning and reduce cognitive load. These design principles and computer vision techniques can afford the design and usage of a multimedia learning environment with annotated content to teach students construction safety practices. Hence, using subjective and objective measures such as self-reported cognitive load, eye tracking metrics and verbal feedback, this study assesses the effectiveness of a computer vision-aided multimedia learning environment as well as examines variations across students’ demographics. Students were exposed to both annotated and unannotated versions of the learning environment. The annotated version of the learning environment was considered more effective in triggering students’ attention to learning content, but higher cognitive load levels were reported by participants. The same demographic groups that dwelled longer and on more annotated areas of interest also reported higher overall cognitive load. Keeping with individual differences principle of multimedia learning, demographic variations in participants' cognitive load and effectiveness of the learning environment were reported. The study provides implications for instructors in construction engineering programs on effective use of computer vision-aided annotated videos as instructional materials. This study could serve as a benchmark for future studies on artificial intelligence techniques for signaling in multimedia learning. This study reveals the affordances of computer vision-aided multimedia learning in construction engineering education and the need for adaptation of multimedia learning tools to students’ demographics
    Keywords: Computer vision ; construction engineering education ; demographic differences ; multimedia learning ; video. ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 5
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    Chapter Consistency Verification Between Cost and Geometric Information Based on IFC: Application on Structural Elements (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-07
    Description: Cost estimation for tendering is one of the leading causes of legal disputes in the architecture, engineering, construction, and facilities management (AEC/FM) industry. The lack of a standardised support procedure to verify the association of cost data with the objects model causes waste of time and inaccuracy in the cost estimation. This research work, starting from a previous study where the research group integrated a cost domain in the IFC data schema, investigated the possible applications of this IFC based cost domain integrated with an IFC geometrical information model. The current paper investigates a specific case study focused on a structural model to verify current and future applications. Furthermore, rules for BIM information requirements will be defined through the Information Delivery Specification (IDS) to ensure an easy way for humans and computers to understand it. This will allow to specify which data must be present in the geometric model to subsequently ensure validation and verification of uniqueness of the cost data associated with geometric data. The results show the possibility to define a structured cost items in IFC associated through relationships to other entities and then verify their association to geometric data to guarantee its consistency and uniqueness
    Keywords: IFC ; cost ontology ; BIM ; cost item ; Information Delivery Specification (IDS) ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 6
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    Chapter Safety Training for Rigging Using Virtual Reality (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-07
    Description: Tower and Mobile Cranes are some of the most commonly used heavy equipment in all construction sites, and any crane failures could lead to significant human and monetary losses. Moreover, rigging configuration determination is a critical task that requires the rigging crew to have significant experience and knowledge of various failure modes that can be encountered when performing lifting operations. However, despite the criticality of training riggers, there has yet to be a comprehensive tool used to train and guide inexperienced riggers, and hence, more practical tools are needed. This paper proposes a framework for using Virtual reality (VR) and simulation to train riggers to identify the optimal rigging configurations based on the lift type and the external conditions. Through 3D modeling, the critical components of the rigging system are modeled to accurately simulate the rigging system and their performance when faced with critical loading scenarios. The developed framework is expected to allow inexperienced riggers to identify critical failure modes and enhance construction operations' overall safety performance and productivity. Furthermore, several scenarios are assessed based on historical evidence for rigging configuration failures, and the efficiency of the training tool is assessed through real-life scenarios and tests
    Keywords: Crane Operations ; Lift Planning ; Rigging ; Safety ; Training ; Virtual Reality ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 7
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    Chapter Leveraging Smart Contracts in Building Information Modeling (BIM) for Unified Project Execution: A Theoretical Framework. (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-07
    Description: Over time, several procurement methods have been adopted to facilitate the successful delivery of construction projects with minimal financial losses in order to offer maximum value to clients. In recent years, the Integrated Project Delivery (IPD) procurement model has been introduced for better overall financial performance. In this model, every member of the project team has a stake in overall profit or risk irrespective of the extent of their roles and change orders and correction of errors and omissions are managed effectively with minimal contractual disruptions. This paper aims to address some of the previously cited barriers in earlier scholarly work, and it proposes a conceptual framework that integrates two novel concepts towards tackling technological and financial barriers in adopting IPD namely, BIM and Smart Contracts (SC). A framework is developed for a BIM-blockchain-IPD whereby the BIM model is integrated with blockchain technology, thereby acting as an immutable and transparent information repository and a platform for interdisciplinary collaboration in Architecture, Engineering and Construction (AEC) projects. The smart contract feature of blockchain technology offers an automated equitable distribution of risk and reward amongst project stakeholders based on agreements at project inception. Thus, the research contributes to a more efficient project delivery method by avoiding information asymmetry amongst stakeholders through a tamper-proof, BIM-enabled Common Data Environment (CDE). The proposed framework is validated with qualitative analysis of information obtained based on AEC industry procurement workflows
    Keywords: Integrated Project Delivery ; Smart Contract ; Blockchain ; BIM ; AEC ; Common Data Environment ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 8
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    Chapter Implementation of Building Information Modeling (BIM) for Economic Sustainable Construction Minimizing Material Waste in Terms of Value Engineering (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-07
    Description: The construction industry consumes a large amount of raw materials and produces large amounts of carbon dioxide emissions. However, studies have shown that philosophies alone are not efficient in solving problems in the construction industry. They must be supported by new tools and methodologies. Therefore, this study aimed to achieve a more sustainable building field by integrating BIM technology and value engineering principles in the management of building materials. to achieve the highest possible consumption of environmental resources and materials through value engineering. The methodology employed in this study was to develop a material waste management system for construction projects. Starting in the early design phase, develop a decision-making process for selecting the optimum floor tile size according to room dimensions. Some materials, such as floor tiles, wooden panels, and marble, can be used more efficiently using BIM and scheduling tools. Floor tiles are essential finishing materials in the AEC industry. The initial findings outline the benefits that can be obtained by using BIM tools to achieve waste minimization through value engineering principles by creating an automation process to choose the best floor tile size according to the space width and length and minimize the percentage of cut tiles to the total number of tiles that are used in the space. This provides a game-changing solution for construction stakeholders
    Keywords: Building Information Modeling ; Value Engineering ; Sustainable Construction ; Material Management ; Construction Site Management ; Architectural Engineering and Construction ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 9
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    Chapter Multi-Robot Federated Edge Learning Framework for Efficient Coordination and Information Management in Smart Construction (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-07
    Description: Smart construction involves a growing array of devices that generate extensive data, capable of enhancing construction efficiency and productivity. Nonetheless, the handling of this diverse and abundant information, along with the geographical spread of construction sites, poses challenges to effective communication and information processing within the management system. Multi-robot systems, as a new type of Internet of Things device, have the potential ability to coordinate workers to complete their work while serving as an edge node for information storage and processing. This paper presents a multi-robot federated edge learning framework that facilitates construction information management and communication. The work demonstrates the role of distributed databases in processing information during project execution, in contrast to centralized information systems. To address the intricacies of construction sites and the wide array of equipment involved, unmanned aerial vehicles and quadruped robots are employed as edge nodes. The formation of a federated edge learning framework ensures the real-time processing of massive data and data privacy issues. The Federated Multi-Robot (FedMR) framework is a global sharing model focused on preserving differential privacy protection. This framework is distributed to multiple edge robots in each round, enabling local real-time processing of robot tasks. The system can accomplish target detection and tracking of workers based on computer vision. Additionally, we collect MiC energy consumption data during the construction process and predict carbon emissions. Based on the implementation and testing of the system, it has been shown to provide structured and reliable information, fast local transmission, and the ability to process information in real-time. The system's ability to coordinate workers and process information makes it a valuable tool in smart construction
    Keywords: Construction management ; federated learning ; multi-robots ; Information management ; differential privacy ; Modular Integrated Construction(MiC) ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 10
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    Chapter Integrating Real-Time Object Detection into an AR-Driven Task Assistance Prototype: An Approach Towards Reducing Specific Motions in Therbligs Theory (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-07
    Description: Due to challenges in filling vacant positions and the heightened demands posed on existing staff, employers and project managers are progressively considering the recruitment of inexperienced individuals and seeking strategies to swiftly provide them with essential job-specific knowledge. The potential of industrial AR has been widely researched to support workers in overcoming skill-related knowledge and enhancing industrial processes. However, most studies focus on demonstrating technology usability across different processes and overcoming engineering hurdles on a case-by-case basis. There is no direct benefit analysis on how AR assists construction tasks at human motion level, and how to eliminate the ineffective motions and reduce the duration of effective motions. To fill this gap, this paper first establishes an AR-based near real-time object detection system of small tools and components involved in task processes for egocentric perception of workers in the construction industry. Later, the Standard Operating Procedure (SOP) for scaffolding assembly activities is deconstructed from a manual process into Therbligs-based elemental motions. Finally, this research conducted a comparative study of two prototypes across four dimensions of evaluation. As a step forward in this direction, this paper renews the connotations of Therbligs theory under industry 5.0 era, rethinks the AR-assisted construction task processes, and applies appropriate technologies enhancing the adaptability of AR technology for construction workers’ needs
    Keywords: Augmented Reality (AR) ; Microsoft HoloLens 2 ; Object Detection ; Task Assistance ; Therbligs ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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