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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)
  • English  (29)
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  • Books  (29)
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  • English  (29)
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  • 1
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    Chapter Linked Data for the Categorization of Failures Mechanisms in Existing Unreinforced Masonry Buildings (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-04
    Description: Assessing the structural integrity of unreinforced masonry structures is a complex and time-consuming process that necessitates the knowledge of various experts and meticulous cross-referencing of diverse data to achieve a comprehensive understanding of the building. In recent years, the Architecture and Construction Industry has witnessed a digital transformation, largely driven by Building Information Modeling (BIM). BIM has proven immensely valuable in the conservation of historic buildings. However, while it excels in new construction projects, its full potential is not fully realized when dealing with existing structures. A clear example of this limitation can be observed in the Industry Foundation Classes (IFC) format, which lacks instances necessary for accurately representing existing building features. This research contribution aims to advance the process of semantic enrichment of BIM for existing buildings, building upon findings from existing literature. Leveraging the Linked Data Approach and utilizing both existing ontologies and newly proposed domain ontologies, the objective is to facilitate the identification of vulnerabilities and potential local failure mechanisms. The geometric information of the building is represented in the IFC STEP format and enriched semantically by establishing new relationships between classes that are not present in the standard IFC. This approach is applied to a case study in the historical center of Castelnuovo di Porto, Italy. The results of this work demonstrate how the proposed model, enhancing the BIM representation of existing buildings and enabling better identification of potential weaknesses, contributes to improved preservation and seismic resilience of historic structures
    Keywords: BIM ; Linked Data ; Semantic Modeling ; Historic Constructions ; Structural Masonry ; 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 Consistency Verification Between Cost and Geometric Information Based on IFC: Application on Structural Elements (2024)
    Firenze University Press
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    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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  • 3
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    Chapter Solar Potential and Energy Assessment Data in U-BEM Models: Interoperability Analysis Between Performance Simulation Tools and OpenBIM/GIS Platforms (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-03
    Description: To evaluate the energy and solar potential of the building stock and address feasibility studies of building retrofit interventions information standards are required to ensure proper data flow from building and urban models to simulation environments. Energy performance data are gathered from different information containers and therefore the result of simulations needs to be shared in BIM/GIS environments to better address energy policies and decision-making processes. Solar potential and energy retrofit estimation, developed by means of urban models (U-BEM) are too rough to support a decision-making process, even if at a feasibility stage. On the opposite, strategic decisions are defined with reference to large building stocks that require a U-BEM approach. To increase the reliability of this kind of simulations the study proposes to integrate U-BEMS with BIM-based data that are aggregated and published at urban scale as average performance indicators of built systems. The interoperability problem is analyzed both for simulation tools that need to manage this kind of data and openBIM/GIS platforms that need to share performance indicators and simulation results
    Keywords: Energy potential ; Solar potential ; IFC ; BIM ; U-BEM ; 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 Improving BIM Authoring Process Reproducibility with Enhanced BIM Logging (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-03
    Description: This paper presents an enhanced BIM logger designed to capture both geometry and attribute changes of building element geometries, thereby offering a transparent source of representation of the BIM authoring process. The authors developed the logger and reproduction algorithm using the Revit C# API based on the analysis of information required to define building elements and associated attributes. The enhanced BIM log was evaluated through a case study of Villa Savoye designed by Le Corbusier. Despite negligible discrepancies, the results show that the enhanced BIM log can accurately represent the BIM authoring process capturing and reproducing 92.45% of the building elements from the original BIM model. Future research can focus on expanding the scope of logging and probing the potential of automating the BIM authoring process using these enhanced BIM logs
    Keywords: Building information modeling (BIM) ; BIM log mining ; BIM authoring software ; Custom BIM log ; Authoring process reproducibility ; 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 Towards a Framework for Railway Network Assets Management Based on BIM/GIS Integration (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-04
    Description: Complex infrastructures such as railway networks face increasing challenges related to resource allocation, external events, constraints, and demands. Therefore, it is crucial to optimize the Asset Management (AM) phase to ensure the value and functionality of the assets. The integration of Building Information Modelling (BIM) and Geographic Information Systems (GIS) can support this phase, but it can only yield benefits with a comprehensive approach that considers and addresses the specific needs and resources of the assets and their AM organization. The main benefits include improved data management, manipulation, information visualization and optimized resource allocation. This study describes an intermediate step towards developing a BIM/GIS integration framework for AM that can guide both researchers and practitioners. The framework aims to bridge theory and practice by incorporating insights from literature reviews and case studies. Its main objectives are to provide a comprehensive multi-stakeholder view and methods for effectively integrating BIM and GIS in this context. To develop the framework, the study employed focus groups, interviews, and practical BIM/GIS tests, which provided insights reported in this article. Furthermore, the study provides research directions for effective BIM/GIS integration in infrastructure AM
    Keywords: Building Information Modeling ; BIM ; Geographic Information Systems ; GIS ; BIM/GIS integration ; Asset Management ; Railway ; 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 Application of Smart Technologies for Assessing Users’ Well-Being for Immersive Design Strategies: A State-of-the-Art Review (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-04
    Description: As never before, during the COVID-19 pandemic, the effectiveness of the digital design strategies on the user’s well-being has been questioned. However, a research branch astride digital design and neuroscience able to overcome net discipline borders to analyse users’ well-being seems to be lacking. Today mainly qualitative data are used in the design field for the investigation of users’ quality experience. Although fundamental, they also have great disadvantages such as unanswered questions, unconscientious responses, and respondents’ biases. As such, a systematic state of art review is presented to find methodologies and tools currently used in medicine to identify the impact of digital design strategies (XR) on users’ well-being through quantitative and objective data. The main technologies used for this purpose have been synthesized in a schematic chart by reporting the principal related biometric data (skin conductivity, heart rate metrics and breathing rates), as well as other technologies such as video/images/audio analysis based on sensors and machine learning to reach out mass numbers. In conclusion, gaps and future applications of this innovative approach within the virtual environment have been identified by the authors
    Keywords: extended reality ; virtual reality ; neuro-design ; digital design ; immersive experience ; user experience ; well-being assessment ; 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 Safety Training for Rigging Using Virtual Reality (2024)
    Firenze University Press
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    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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  • 8
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    Chapter Virtual Human-Building Interaction Experimentation Ontology (VHBIEO): A VHBIEO-Based Metadata-Driven Exploration (2024)
    Firenze University Press
    Details
    Publication Date: 2024-04-06
    Description: Virtual reality (VR) offers promise as a tool for building performance simulations, especially when considering human-building interactions in buildings or spaces still under design. However, the absence of standardized data protocols impedes the consistent sharing of VR-related experiments and findings. This makes advancing VR experimentation as a reliable method for studying human-building dynamics challenging. The authors introduced the Virtual Human-Building Interaction Experimentation Ontology (VHBIEO) to address the challenge. VHBIEO seeks to standardize experimentation details as a domain-specific ontology, enhancing their interoperability. It includes essential experimentation concepts and employs semantic web technologies to ensure machine readability. Moreover, it integrates an application view (APV) to tailor details to specific experiments. Using VHBIEO-based metadata, this paper presents a case study aiming to standardize experiments that validate thermal sensations in immersive virtual environments (IVE), encompassing experimental protocol, variables, design, and data gathering. By exploring the main characteristics of VHBIEO-based metadata, the authors discuss its potential to improve the reliability of human-building interaction research
    Keywords: Ontology ; Metadata ; Human-building interaction ; Occupant behavior ; Virtual reality ; Building ; 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 Urban Centres Management: A Digital Twin Approach (2024)
    Firenze University Press
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    Publication Date: 2024-04-05
    Description: The management of the built environment is a topic that requires reference to the management of complex systems. In fact, the variety of domains involved means that the management of urban centers is not only complicated, and therefore it is not enough to model a set of rules that are representative of phenomena related to the real environment. Not only that, but what is evident is that emergency management lacks the ability to access real-time information that could be decisive. Having tools that provide real-time data, that reprocess it, and that are able to provide an enriched and slightly predictive view of what is happening offers the possibility of having a real impact in the management of the built environment. In this sense, digital twins are a valuable approach to achieving the desired results. Digital twins through the integration of technologies such as lnternet of Things (IoT), simulators, Artificial Intelligence (AI), and Augmented Reality (AR) technologies make it possible to develop systems capable of exploiting the concept of collective intelligence, in a digital version, through a large number of heterogeneous agents working according to stigmergic mechanisms. This research work aims to propose its own architecture of digital twins for the management of resilient urban centers, with particular reference to the management of post-earthquake reconstruction scenarios
    Keywords: Digital twin ; urban environment management ; urban centers ; smart cities ; emergency management ; BIM ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
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  • 10
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    Chapter Semi-Automatic Workflow for Air-Conditioning System Zoning and Simulation (2024)
    Firenze University Press
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    Publication Date: 2024-04-04
    Description: Building information modeling (BIM) shows its potential in the performance driven design, where multiple design solutions are generated and selected against certain design goals. This paper proposes a workflow to generate and simulate multiple thermal zoning schemes toward a semi-automatic design process of air-conditioning (AC) system. Thermal zoning plays a pivotal role in the design thinking of engineers by synthesizing load calculation, equipment sizing, and pipe/duct layout. However, it is often done intuitively with influence on performance unknown at the initial stage. To make it quantitative, we decompose the zoning process into three levels (thermal/control/system) of space aggregation, joining both semantic and numeric characteristics. For the semantic part, space functions are considered by space labeling, accessibility, and adjacency. As to the numeric part, spaces are zoned based on their thermal response similarities, revealed by dynamic mode decomposition on simulated free-float temperature. Then, the system zoning is generated by rolling out convenient distribution network layouts, representing typical fan-coil or variable-air-volume systems. Variables at each level contribute to the "generative" zoning. Based on multiple zoning schemes, the configurations are serialized into EnergyPlus and Modelica inputs for co-simulation. Initial cost, energy consumption, and comfort level of conditioning join together for the zoning evaluation. The entire workflow is implemented in Grasshopper with self-developed plugins
    Keywords: BIM ; Thermal zoning ; Generative design ; HVAC system ; Performance simulation ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 11
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    Chapter Optimal Number of Cue Objects for Photo-Based Indoor Localization (2024)
    Firenze University Press
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    Publication Date: 2024-04-03
    Description: Building information modeling (BIM) is widely used to generate indoor images for indoor localization. However, changes in camera angles and indoor conditions mean that photos are much more changeable than BIM images. This makes any attempt at localization based on the similarity between real photos and BIM images challenging. To overcome this limitation, we propose a reasoning-based approach for determining the location of a photo by detecting the cue objects in the photo and the relationships between them. The aim of this preliminary study was to determine the optimal number of cue objects required for an indoor image. If there are too few cue objects in an indoor image, it results in an excessive number of location candidates. Conversely, if there are too many cue objects, the accuracy of object detection in an image decreases. Theoretically, a larger number of cue objects would improve the reasoning process; however, too many cue objects could lead to declining object detection performance. The experimental results demonstrated that of two to five cue objects, three cue objects is most likely to yield optimal performance
    Keywords: indoor location determination ; BIM ; reasoning ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
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  • 12
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    Chapter Collaborative Site Layout Planning Using Multi-Touch Table and Immersive VR (2024)
    Firenze University Press
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    Publication Date: 2024-04-06
    Description: Building Information Modeling (BIM) is changing the way architects and engineers produce and deliver design results, and object-oriented 3D models are now starting to replace traditional 2D drawings during the construction phase. This allows for a number of applications to increase efficiency, such as quantity take-off, cost-estimation, and planning, but it also supports better communication and increased understanding at the construction site by means of detailed 3D models together with various visualization techniques. However, even in projects with a fully BIM-based design, there is one remaining part that is still done primarily using 2D drawings and sketches – the construction site layout plan. In addition to not take advantage of the benefits offered by 3D, it also makes it difficult to integrate site layout planning within the openBIM ecosystem. In this paper we present the design and evaluation of a user-friendly, IFC-compatible software system that supports collaborative, multi-user creation of construction site layout plans using both multi-touch table and immersive VR. By allowing temporary structures, machines, and other components to be easily added and updated it is possible to continuously produce and communicate 3D site layout plans that are aligned with the schedule and supports integration with other BIM-tools
    Keywords: BIM ; VIRTUAL REALITY ; VR ; OPENBIM ; IFC ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 13
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    Chapter Leveraging Smart Contracts in Building Information Modeling (BIM) for Unified Project Execution: A Theoretical Framework. (2024)
    Firenze University Press
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    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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  • 14
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    Chapter A Collaborative Planning Model for Offsite Construction Based on Virtual Reality and Game Engines (2024)
    Firenze University Press
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    Publication Date: 2024-04-04
    Description: Accurate process planning is essential for successfully implementing offsite construction projects. New technologies, such as virtual reality (VR), have been proposed as potential proactive solutions that allow users to experience and train on OSC processes to ensure safety and efficiency in an immersive environment. However, current VR applications in OSC projects (VR-OSC) problems are limited to residential projects and target single phases of the OSC implementation. This study proposes a VR framework to train participants on modular bridge construction processes. The developed model comprises several OSC phases, such as fabrication, transportation, and assembly. Furthermore, the study explores the use of collaborative platforms that can be associated with the VR model to ease the model and the developed scenes. The model is tested on a sample of participants that evaluated the performance of the model and provided areas of improvement. The results showed the capabilities of the model in providing an immersive experience for participants and connecting different phases of the OSC projects. Also, the results show that the experiment length and complex controlling buttons are among the areas of improvement. The developed model is expected to facilitate safe and efficient training for complex OSC projects
    Keywords: Offsite Construction ; Building Information Modeling ; Virtual Reality ; Game Engines ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 15
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    Chapter BIM-GIS and BI Integration for Facility and Occupancy Management of University Assets: The UNITO Pilot Case (2024)
    Firenze University Press
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    Publication Date: 2024-04-03
    Description: The integration of Building Information Modelling (BIM) and Geographic Information System (GIS) with Business Intelligence (BI) is promising for managing vast and diffused assets. It enables valuable insights into asset performance and resource uses, supporting savings, improved efficiency, and sustainability. The research proposes a web-based Asset Management System application (AMS-app) via BIM-GIS-BI integration, providing an updated digital representation of university assets by combining spatial, performance, and operation data with related analytics. The AMS-app was developed in the context of the University of Turin's strategic plan as a pilot case to improve asset management procedures through a data-driven approach. Indeed, campuses are complex assets managed by multiple actors through still document-based and fragmented databases, often leading to ineffective and untimely decision-making processes. The AMS-app represents a valuable decision support system for facility managers aimed at asset monitoring and user experience improving through better and more sustainable decisions concerning space, occupancy, and indoor environmental quality (IEQ). To demonstrate the effectiveness of the BIM-GIS-BI integration through the AMS-app, several case studies were implemented with the following objectives: (i) the digitalization of university building data, (ii) the optimization of courses timetables according to space availability, (iii) the optimal workstations management, and (iv) the analysis, monitoring and optimizing of IEQ and comfort via IoT networks. The paper illustrates the advantages and applicability of the developed methodology through the case studies, and further developments in university asset management
    Keywords: Asset Management System ; BIM-GIS integration ; Business Intelligence ; Information management ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 16
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    Chapter Fast and Secure BIM Design Using Blockchain: An Example of Makeshift Hospital Project for COVID-19 Treatment in Hong Kong (2024)
    Firenze University Press
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    Publication Date: 2024-04-03
    Description: A crucial action of COVID-19 combat is the quick design and building of makeshift hospitals (MHs). Although adopting building information modeling (BIM) promotes the digitalization and communication of design collaboration, data security vulnerabilities (e.g., lacking traceability and transparency) are detected and have inevitably impeded the efficiency and productivity of the MH project. Such problems often lead to rework and unnecessary disputes, wasting valuable time on projects requiring ultra-fast construction speed. The emerging blockchain technology offers an immutable and traceable collaboration environment. However, limited studies have integrated blockchain in the BIM design process, especially design in emergency projects like MH. Therefore, this paper proposes a blockchain-enabled collaboration (BEC) framework for fast and secure BIM design. The framework is illustrated in an actual MH project in Hong Kong, and results show that: (1) it supports secure and automated BIM data exchange and (2) it saves 23 % of the time in a design coordination case
    Keywords: Covid-19 ; BIM ; Blockchain ; Makeshift Hospital ; Smart Contract ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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  • 17
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    Chapter Building Inspector XR: Streamlining Scan-to-BIM with Virtual and Mixed Reality (2024)
    Firenze University Press
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    Publication Date: 2024-04-06
    Description: Digitalization in the construction industry is increasingly striving to create digital twins in order to continuously exploit optimization potential in the management and utilization of existing buildings. Building Information Modeling (BIM)-based as-is or as-built documentation represents a promising basis in this context, which requires creating a geometric model for example based on point clouds as well as semantic enrichment in a Scan-to-BIM workflow. Conventionally, this is carried out manually by specialists on 2D screens and often is time-consuming and costly. The project "Building Inspector XR" addresses these issues and presents an intuitive solution for BIM-based as-is/as-built documentation using X-Reality (XR). In Virtual Reality (VR), BIM models are created off-site from point clouds and then are verified in Mixed Reality (MR) on-site. By integrating (partially) automated methods and targeting user-friendliness in our solution, Scan-to-BIM can be realized more efficiently and intuitively. In this paper, the focus lies on the innovative aspects of our XR application which encompass VR and MR environments, automation support, modeling schemes in compliance with BIM standards, and the registration of models in reality for MR. Additionally, the paper shows the interconnected toolchain that facilitates an efficient Scan-to-BIM workflow
    Keywords: Building Information Modeling ; Virtual Reality ; Mixed Reality ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
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  • 18
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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
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    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
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  • 19
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    Chapter Driving Simulator for Road Safety Design: A Comparison Between Virtual Reality Tests and In-Field Tests (2024)
    Firenze University Press
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    Publication Date: 2024-04-03
    Description: Virtual reality simulations conducted by driving simulators represent a methodology to assess both the quality of road design and road safety in a safe, controlled, and replicable environment. Nowadays, there are numerous studies that use driving simulators to analyze the driver's response when specific road safety treatments are planned before these are implemented. This approach allows the road designer/scientist to estimate the potential safety effectiveness of the countermeasure/design configuration considered. However, although virtual reality simulations are potentially extremely useful in the evaluation of road configuration design and treatments effectiveness, they also have cons. The two most important are the limitations in the reproducibility of the real world environment and the difference in drivers’ behavior due to the awareness that they are conducting a test. In this context, our research compared the data collected during virtual reality experiments with those collected in the field with an instrumented vehicle, after a few years from the implementation of the specific safety measure on a real road. Statistical analyses were conducted to compare the results of the two experiments to demonstrate the reliability of the virtual simulations and to identify the limitations
    Keywords: driving simulator ; road safety ; virtual reality ; road safety treatments ; road safety measures effectiveness ; in-field test ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
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  • 20
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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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    Chapter Integration Between Enterprise Resource Planning and Building Information Modelling (2024)
    Firenze University Press
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    Publication Date: 2024-04-05
    Description: Enterprise resource planning (ERP) is an integrated business management system aimed at monitoring and maximizing resources and efficiency; on the other hand, Building Information Modelling (BIM) represents a broad series of approaches to design, based on the development of virtual models that cover the building’s whole lifecycle. The integration of ERP systems within the Architecture, Engineering and Construction industry, while promising, has yet to reach the same results that its use has achieved in other fields. Although BIM and ERP are traditionally systems employed in different disciplines, they both deal with data integration and customization, and are designed to reconcile varied and scattered information. A mutual incorporation could allow for a more comprehensive understanding of the project starting from the initial phases, while also granting a more streamlined construction process and a reduction in errors and complications later on. The aim of this paper is to identify the possible connections between the two systems examining a case study, starting from an analysis of the current state of the art regarding this implementation, and by evaluating both the existing limits and the future possibilities of this implementation, for both small and medium enterprises (SMEs) and the industry at large
    Keywords: Enterprise Resource Planning (ERP) ; Building Information Modelling (BIM) ; Small Medium Enterprises (SMEs) ; AEC ; Construction ; Data integration ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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    Chapter Multi-Robot Federated Edge Learning Framework for Efficient Coordination and Information Management in Smart Construction (2024)
    Firenze University Press
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    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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    Chapter Evaluation of Immersive VR Experiences for Safety Training of Construction Workers: A Semi-Qualitative Approach Proposal (2024)
    Firenze University Press
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    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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    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
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    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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    Chapter Visibility Enhancement of Crane Operators Using BIM-Based Diminished Reality (2024)
    Firenze University Press
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    Publication Date: 2024-04-07
    Description: The limited visibility experienced by crane operators in construction sites poses significant challenges, leading to reduced performance and safety concerns. Obstructive elements, such as existing buildings, construction elements, or vehicles, can block the crane operator's field of view, hindering their ability to execute lifting operations with precision and confidence. To address this issue, this study presents a novel approach using Building Information Modelling (BIM)-based diminished reality (DR) to enhance visibility by dynamically removing obstructive objects from the crane operator's perspective in real-time. The research employs a marker-based registration system that effectively aligns BIM data with the physical environment, ensuring realistic and precise DR visualization. Additionally, a semi-automatic selection method that involves minimal intervention from the user is employed to select desired objects. To generate the background, the system utilizes real-time observation data from occluded areas. A validation through a case study demonstrates the practical applicability of the developed system in real-life construction scenarios
    Keywords: Diminished Reality (DR) ; Augmented Reality (AR) ; Mixed Reality (MR) ; Crane ; Visibility ; Building Information Modelling (BIM) ; HoloLens ; Construction industry ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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    Chapter Carbon Tracking in the Building Sector: A ‘CABBAGE’ Framework (2024)
    Firenze University Press
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    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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    Chapter A Comparative Study of Deep Learning Models for Symbol Detection in Technical Drawings (2024)
    Firenze University Press
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    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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    Chapter Application of Diminished Reality for Construction Site Safety Management (2024)
    Firenze University Press
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    Publication Date: 2024-04-03
    Description: Safety management in construction sites has always been one of the most sensitive aspects of the AECO industry and a problematic that recalls the complexity of such a multifactor domain. The high number of work accidents that occur on construction sites is also caused by the fact that not all the information to work safely is always available. For instance, visibility during some maneuvers is a key aspect of safety in operations, and this is often impeded due to the layout of the construction site and working methods, especially in the use of some equipment. The latest approaches in order to overcome complex situations is represented by the Digital Twin paradigm. This approach has among its main criticisms:1) the way of connecting physical reality and its digital replica and 2) the system for exploiting the combination of real-time data and digital applied intelligence for supporting operations on site. This paper proposes a framework for the development of digital twin of the construction site. An application of augmented reality that exploits the concept of diminished reality and workers location detection will improve visibility during critical operations
    Keywords: Diminished reality ; Augmented Reality ; Health and Safety ; Building Information Modelling ; Digital Twin ; Construction Site Management ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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    Chapter Building Information Modelling (BIM) for Construction Supply Chain: A Scientometric Analysis (2024)
    Firenze University Press
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    Publication Date: 2024-04-07
    Description: The automation and innovation have impacted Architecture, Engineering and Construction Industry, particularly when transitioning from traditional or conventional methods of construction to modular or Industrialized Building System (IBS). Thus, to ameliorate the processes surrounding built environment, researchers have been interested in the BIM’s integration into construction industry. To ensure BIM’s adoption and integration into construction supply chain, supply chain’s management and procurement, we need to have an extensive comprehensive research base regarding global outlook of BIM’s relation with supply chain. The purpose of this study is to identify global scientific research patterns and trends related to BIM’s role in supply chain, by performing scientometric analysis. The scientometric analysis will help us analyze the work being done in this field and whether a significant literature exists that supports or helps in adoption of this idea. Most of the already existing research on BIM is performed on various other aspects of BIM like infrastructure sustainability, green buildings, design, framework, management of facilities and other BIM related managerial aspects. Thus, it is highly imperative to systematize and analyze the existing global scientific literature research to identify the global trends and frontiers on current BIM’s relation with construction supply chain. Not only this would pave the way towards identification of current relevant literature but would also lay down the foundations for digital transformation in construction
    Keywords: Building information modelling (BIM) ; construction ; digitalisation ; procurement ; scientometric ; supply chain management ; thema EDItEUR::U Computing and Information Technology::UT Computer networking and communications::UTV Virtualization
    Language: English
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