Developing a BIM GIS–Integrated Method for Urban Underground Piping Management in China: A Case Study

Tang, Llewellyn; Chen, Chao; Li, Haotian; Mak, Didi Yat Yee

doi:10.1061/(asce)co.1943-7862.0002323

Cited by 12 publications

(4 citation statements)

References 28 publications

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“…It's about to cross across and become different from these two approaches. The study [18] suggested a new approach to life cycle management for underground plumbing. Integrating heterogeneous data from BIM and GIS allows for the development of a BIM in a GIS environment.…”

Section: Application Of Bim and Gismentioning

confidence: 99%

Application of BIM+GIS Integration Technology in the Construction of Urban Intelligent Water Informatization

Qiang Wu

2024

jes

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Urban intelligent water informatization is the process of managing and operating urban water systems with the use of contemporary information and communication technology in order to increase productivity, security, and sustainability. Establishing the appropriate infrastructure is the initial stage in building an intelligent water system so that management can choose wisely how to manage and operate the water system. Building information modeling (BIM) is a digital depiction of a building's or infrastructure's structural and functional details. In most metropolitan regions, a fast development phase is predicted to cause several water issues, including water resource shortages, floods, poor drainage, and water resource contamination. As a result, a practical approach is required for urban intelligent water information technology with the help of artificial intelligence techniques. Intelligent water systems may be built using Building Information Modeling (BIM) software to increase the system's effectiveness, stability, and durability. By offering a potent tool for storing and analyzing geographical data connected to the water distribution system, a geographic information system (GIS) can play a crucial role in the development of urban intelligent water informatization using ArcGIS mapping Software. The Internet of Things (IoT) system is used to implement intelligent water informatization, hardware implementation using ESP32, and software development using MQTT Broker and Node-Red. As a result, we recommended utilizing BIM+GIS integration technology for building urban intelligent water informatization. The suggested system is evaluated using management efficiency, urban flood control, innovative Construction, intensive management, and computation cost. In this research, the main objective is to identify where there are water leaks broken pipes and early warning system and monitoring system for flash flood disasters in urban areas. The result findings show that the integration of BIM and GIS provides a comprehensive platform for managing complex water informatization infrastructure projects and maximizes efficiency and sustainability.

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Section: Application Of Bim and Gismentioning

confidence: 99%

Application of BIM+GIS Integration Technology in the Construction of Urban Intelligent Water Informatization

Qiang Wu

2024

jes

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“…Data-driven site clustering [42], similarity evaluation [43], and underground pipeline management based on road information models [44] are widely used to optimize pipeline layout schemes based on similarities between sites. To ensure the uniformity of pipeline information management data and the actual situation, pipeline information management based on BIM technology [45], underground pipeline mapping with multi-location data [46,47], and three-dimensional trajectory measurement based on multi-sensor fusion [48] are widely used to obtain accurate information of underground pipelines. Combining the advantages of multi-source monitoring data [49] with informatization technology and a multi-model supported UUP management platform can enhance the design and management of pipeline information systems, reduce the likelihood of accidents, improve system reliability and efficiency, and promote the development of the underground pipeline industry.…”

Section: Literature Reviewmentioning

confidence: 99%

Tripartite Social Roles of Urban Underground Pipeline Informatization in China

Xie,

Liu,

Feng

et al. 2024

Sustainability

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Urban underground pipelines (UUPs) are critical infrastructure, and their safe operation has become a key concern in Chinese society. Currently, the tripartite social roles of the local people’s government, pipeline management departments, and the public are crucial in the informatization of urban underground pipelines. In this study, a survey was conducted among 126 professionals and technical personnel involved in underground pipeline informatization across eight cities in different regions of China. A quantitative weighted evaluation model was established using the Project Quantitative Index (PQI) and principal component analysis (PCA) to investigate the value of the tripartite aforementioned social groups in UUP informatization. The results indicate: (1) There is a significant positive correlation between the tripartite social roles and the promotion of UUP informatization. Moreover, the indicators with the highest PQI value are “Establishment of UUP informatization management departments” and “Support the work of the UUP informatization industry association” under the role of the local people’s government. (2) The informatization work of underground pipelines in different cities is affected differently by the tripartite social roles. This suggests that the local people’s government and professional management departments in different cities can proactively leverage their unique advantages in UUP informatization based on their specific circumstances. (3) PCA results showed that the indicators related to the public carried significant weight, indicating that the public also played an important role in UUP informatization. The degree of UUP informatization in the eight studied cities is ranked as follows: Guangzhou > Beijing > Qingdao > Kunming > Shanghai > Chengdu > Wuhan > Sian. This paper further discusses the unique roles and contributions of the tripartite social groups in UUP informatization, aiming to provide decision support for the future construction, management, and safe operation and maintenance of urban underground pipelines in China.

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“…Tang et al combined GIS and BIM to perform an integrated analysis of aboveground and underground buildings and the surrounding environment. They also realized the real-time monitoring and efficient management of underground pipelines via the monitoring data [71]. Many scholars also use BIM to carry out the quality assessment and defect detection of components, such as combination and laser scanning, storing the detailed dimensions of concrete in BIM, and conducting a quality assessment in combination with relevant specifications [72].…”

Section: Information Integration and Digital Twinsmentioning

confidence: 99%

Recent Research Progress in Intelligent Construction: A Comparison between China and Developed Countries

et al. 2023

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Intelligent construction (IC) has emerged as a new approach to transforming the architecture, engineering, and construction (AEC) industry through the integration of advanced information technologies such as artificial intelligence (AI) and the Internet of Things (IoT). However, due to its interdisciplinary nature, the relevant documents on IC are diverse and fragmented. To provide a comprehensive understanding of research progress and future opportunities in IC and to offer suggestions for both developing and developed countries, this study employed VOSviewer and Gephi to conduct a comparative review of relevant literature from the 21st century. A keyword search of Web of Science (WOS) identified 2788 relevant documents which were subjected to an overall co-citation and co-authorship analysis. To illustrate the differences between developing and developed countries, China, a representative developing country, was taken as the candidate to be compared with developed countries via a co-occurrence analysis. Differences between China and developed countries in the three sub-directions of IC, research foundation and domain knowledge transformation; information perception, fusion, and decision making; and embodied AI, were qualitatively discussed. Finally, four future research directions were suggested: (1) data fusion and decision-making, (2) improving the accuracy and efficiency of knowledge representation, learning, and utilization, (3) the establishment of large, pre-trained models in the field, and (4) embodied AI for taking actions according to the decisions made. This paper provides an overview of the relevant literature and the IC context for practitioners and scholars in the AEC industry in countries with different levels of development, as well as suggestions for the future development of IC. The findings of this study can serve both academia and industry in promoting IC in the AEC industry.

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Developing a BIM GIS–Integrated Method for Urban Underground Piping Management in China: A Case Study

Cited by 12 publications

References 28 publications

Application of BIM+GIS Integration Technology in the Construction of Urban Intelligent Water Informatization

Application of BIM+GIS Integration Technology in the Construction of Urban Intelligent Water Informatization

Tripartite Social Roles of Urban Underground Pipeline Informatization in China

Recent Research Progress in Intelligent Construction: A Comparison between China and Developed Countries

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