Why is the game engine a key part of the interactive application process of civil engineering visualization?
The game engine emerges as a pivotal component in the interactive application process of civil engineering visualization due to its superior capabilities in rendering, interactivity, and real-time visualization, which are essential for enhancing the understanding, planning, and execution of construction projects. Game engines, with their roots in the gaming industry, offer powerful visualization and interaction capabilities that are not fully exploited in traditional Building Information Modelling (BIM) due to its limited interactive potential. This synergy between game engines and BIM can significantly address the common issues of misunderstandings and poor information exchange in construction projects by facilitating enhanced interactive building walkthroughs . Moreover, the integration of game engines with architectural visualization tools transcends the limitations of conventional modeling tools, offering architects and clients a more immersive experience of the proposed designs through improved speed, interactivity, and real-time rendering quality. This advancement allows for "photo-realistic" visuals and interactive elements that provide a more accurate representation of real-life environments, thus bridging the gap between conceptualization and realization. The comparison between WebGL and game engines in the development of BIM visualization and interactive applications highlights the game engines' superior workflow and characteristics, making them more suitable for a wide range of stakeholders, including those without specialized training or access to expensive licenses. Additionally, the application of interactive visualization technology in prefabricated building construction demonstrates the potential of game engines to optimize construction technical schemes and improve construction quality through real-time interaction with building model information. Furthermore, game engines facilitate the visualization, simulation, and analysis of urban digital twins by enabling the use of real-world datasets with high graphical fidelity, thus supporting city development scenarios and sensor data applications in digital environments. They also offer innovative tools for analyzing complex structural engineering problems, such as the relationship between a building’s primary structure and its facade, by visualizing facade movements in real-time. The exploration of game engines in architectural design processes, particularly through the use of Unreal Engine for real-time design environments and AI technologies, underscores their role in enhancing design strategies and evaluating design options based on user flows. Lastly, the development of a framework for construction operations simulation visualization using game technologies underlines the game engines' contribution to making simulation models more intuitive and appealing to decision makers in the construction industry. In summary, the game engine is a key part of the interactive application process in civil engineering visualization due to its ability to provide immersive, accurate, and real-time visualizations that improve communication, planning, and decision-making in construction projects.
Answers from top 5 papers
Papers (5) | Insight |
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Game engines are crucial for interactive civil engineering visualization due to their ability to enhance accessibility and user experience, catering to diverse stakeholders' needs efficiently. | |
26 Jun 2017 6 Citations | Game engines offer real-time high-fidelity visuals and interactive elements, enhancing civil engineering visualizations by providing immersive experiences for users to explore proposed architectural designs realistically. |
Game engines enhance interactive building walkthroughs by improving visualization and interactions in construction projects. They address misunderstandings and poor information exchange, enhancing the civil engineering visualization process. | |
16 Sep 2022 | Game engines enhance interactive building walkthroughs by providing powerful visualization and interaction capabilities, addressing limitations in BIM models and improving collaboration in construction projects. |
Open access 01 Jan 2019 5 Citations | Game engines enhance architectural visualization by providing real-time rendering, interactive navigation, and improved performance compared to traditional modeling tools, aiding architects in better understanding and presenting their designs effectively. |