Fangqiang Yu scite author profile

Hospital buildings usually contain sophisticated facility systems and special medical equipment, strict security requirements, and business systems. Traditional methods such as BIM are becoming less capable of real-time updates of building status and big data volume. By proposing innovations both in technique and management—a “continuous lifecycle integration” method based on the concept of Digital Twin (DT) and “early movement” of the general contractor, this paper reported a successful project case in a large hospital in China. The case realized continuous, scheduled integration of static data and dynamic data of more than 20 management systems from the design, construction, pre-O&M phase up to the O&M phase. Then, a DT software system with real-time visual management and artificial intelligent diagnosis modules was developed and deployed in a newly built DT control center. Managers have the ability to grasp the detailed status of the whole hospital by visual management and receive timely facility diagnosis and operation suggestions that are automatically sent back from the digital building to reality. The case has been steadily running for more than a year in the hospital and achieved desired performance by reducing energy consumption, avoiding facility faults, reducing the number of requested repairs, and enhancing the quality of daily maintenance work.

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A Natural‐Language‐Based Approach to Intelligent Data Retrieval and Representation for Cloud BIM

Lin

Zhang

et al. 2015

Computer aided Civil Eng

126

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Construction and facility management of large MEP projects using a multi-Scale building information model

Zhang

et al. 2016

Advances in Engineering Software

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A multi-server information-sharing environment for cross-party collaboration on a private cloud

Zhang

Liu

et al. 2017

Automation in Construction

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A Framework of Cloud-Computing-Based BIM Service for Building Lifecycle

Zhang

Liu

et al. 2014

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With the amount increasing, the BIM (Building Information Modeling or Building Information Model) data exchange and sharing face a series of challenges including integration of disparate data models, fast information extraction and data consistency maintenance. Since the existing BIM data storing and transferring method based on neutral files or a centralized database cannot meet the above-mentioned requirements, a framework of distributed BIM service on a private cloud platform was proposed. By this BIM service, multi-stage participants store relevant data on their own servers, which are virtually integrated through a CC (cloud computing) platform to form a logically complete BIM. It supports participants to establish, manage and transfer consistent BIM data efficiently with ensuring of data privacy. To achieve this BIM service, a BIM integration and service platform (BIMISP) based on IFC (Industry Foundation Classes) and CC was developed. Proved by experiments, the research achievements are useful for improving the efficiency and quality of information extraction and delivery, ensuring the safety and legality of data sharing during building lifecycle.

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Fangqiang Yu

Digital Twin Hospital Buildings: An Exemplary Case Study through Continuous Lifecycle Integration

A Natural‐Language‐Based Approach to Intelligent Data Retrieval and Representation for Cloud BIM

Construction and facility management of large MEP projects using a multi-Scale building information model

A multi-server information-sharing environment for cross-party collaboration on a private cloud

A Framework of Cloud-Computing-Based BIM Service for Building Lifecycle

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