Digital Twin-Based Safety Risk Coupling of Prefabricated Building Hoisting

Liu, Zhansheng; Meng, Xintong; Xing, Zezhong; Jiang, Antong

doi:10.3390/s21113583

Cited by 72 publications

(45 citation statements)

References 43 publications

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“…In the case of applying digital twins in the monitoring of railway turnouts based on taking into account the data coming from the measurement station T szyn WS1 WIFI together with the fundamental data, the created model will be dynamic and will be a reflection of the turnout system and the process existing in the real world. Additionally, digital coupling of turnout safety risks based on digital twin technology is possible [ 28 ]. In practice, digital twins can be applied in different ways leading to different designs [ 29 , 30 ].…”

Section: Resultsmentioning

confidence: 99%

The Fundamental Approach of the Digital Twin Application in Railway Turnouts with Innovative Monitoring of Weather Conditions

Kampczyk

Dybeł

2021

Sensors

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Improving railway safety depends heavily on the reliability of railway turnouts. The realization of effective, reliable and continuous observations for the spatial analysis and evaluation of the technical condition of railway turnouts is one of the factors affecting safety in railway traffic. The mode and scope of monitoring changes in geometric parameters of railway turnouts with associated indicators needs improvement. The application of digital twins to railway turnouts requires the inclusion of fundamental data indicating their condition along with innovative monitoring of weather conditions. This paper presents an innovative solution for monitoring the status of temperature and other atmospheric conditions. A UbiBot WS1 WIFI wireless temperature logger was used, with an external DS18B20 temperature sensor integrated into an S49 (49E1)-type rail as Tszyn WS1 WIFI. Measurements were made between January and May (winter/spring) at fixed time intervals and at the same measurement point. The aim of the research is to present elements of a fundamental approach of applying digital twins to railway turnouts requiring the consideration and demonstration of rail temperature conditions as a component in the data acquisition of railway turnout condition data and other constituent atmospheric conditions through an innovative solution. The research showed that the presented innovative solution is an effective support for the application of digital twins to railway turnouts and ongoing surveying and diagnostic work of other elements of rail transport infrastructure. The applicability of the TgCWRII second temperature difference indicator in the monitoring of railway turnouts was also confirmed.

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Section: Resultsmentioning

confidence: 99%

The Fundamental Approach of the Digital Twin Application in Railway Turnouts with Innovative Monitoring of Weather Conditions

Kampczyk

Dybeł

2021

Sensors

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“…Furthermore, more sophisticated techniques have been advanced (e.g., Mata et al [46]). For example, Liu et al [47] proposed a model that integrates the Internet of Things (IoT), Building Information Modeling (BIM), a security risk analysis method, the Apriori algorithm, and a complex network.…”

Section: Perceived Risks Of Crcbpsmentioning

confidence: 99%

“…Poor technical specifications R 47 Mismatch of layout with site location R 48 Inaccuracies in realistic calculations and estimates R 49 Non-compliance with design codes R 50 Lack of maintenance period in designing process R 51 Lack of a specific contract with contractors R 52 Contractor's claim R 53 Lack of coordination between the design process and manufacturing technology Delays in construction R 57 Poor quality of workshop supervision R 58 Incomplete description of tasks in contracts R 59 Failure to complete work items in anticipated times…”

Section: R 46mentioning

confidence: 99%

Identification and Prioritization of Critical Risk Factors of Commercial and Recreational Complex Building Projects: A Delphi Study Using the TOPSIS Method

et al. 2021

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Construction development of Commercial and Recreational Complex Building Projects (CRCBPs) is one of the community needs of many developing countries. Since the implementation of these projects is usually very costly, identifying and evaluating their Critical Risk Factors (CRFs) are of significant importance. Therefore, the current study aims to identify and prioritize CRFs of CRCBPs in the Iranian context. A descriptive-survey method was used in this research; the statistical population, selected based on the purposive sampling method, includes 30 construction experts with hands-on experience in CRCBPs. A questionnaire related to the risk identification stage was developed based on a detailed study of the research literature and also using the Delphi survey method; 82 various risks were finally identified. In order to confirm the opinions of experts in identifying the potential risks, Kendall’s coefficient of concordance was used. In the first stage of data analysis, qualitative evaluation was performed by calculating the severity of risk effect and determining the cumulative risk index, based on which 25 CRFs of CRCBPs were identified for more accurate evaluation. At this stage, the identified CRFs were evaluated based on multi-criteria decision-making techniques and using the TOPSIS technique. Results show that the ten CRFs of CRCBPs are external threats from international relations, exchange rate changes, bank interest rate fluctuations, traffic licenses, access to skilled labor, changes in regional regulations, the condition of adjacent buildings, fluctuations and changes in inflation, failure to select a suitable and qualified consultant, and employer’s previous experiences and records. Obviously, the current study’s results and findings can be considered by CRCBPs in both the private and public sectors for proper effective risk identification, evaluation, and mitigation.

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“…Structural Health Monitoring (SHM) applications provide information on the state of structures, their functioning, and their structural response. As pointed out by many scholars (see, e.g., [ 5 ]), SHM can be used to calibrate structural models of real structures (digital twins [ 6 ]) that mimic the infrastructure performance to assess the decision-making process during the maintenance phase [ 7 , 8 , 9 ].…”

Section: Introductionmentioning

confidence: 99%

“…5 Frequency range: the accurate, readable range of frequencies. 6 Spectral Noise: the power spectral density of noise per unit of bandwidth (1 Hz). 7 Operational temperature: temperature range where the sensor works accurately.…”

Section: Introductionmentioning

confidence: 99%

Development of a Low-Cost System for the Accurate Measurement of Structural Vibrations

Komarizadehasl

Mobaraki

et al. 2021

Sensors

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Nowadays, engineers are widely using accelerometers to record the vibration of structures for structural verification purposes. The main obstacle for using these data acquisition systems is their high cost, which limits its use to unique structures with a relatively high structural health monitoring budget. In this paper, a Cost Hyper-Efficient Arduino Product (CHEAP) has been developed to accurately measure structural accelerations. CHEAP is a system that is composed of five low-cost accelerometers that are connected to an Arduino microcontroller as their data acquisition system. Test results show that CHEAP not only has a significantly lower price (14 times cheaper in the worst-case scenario) compared with other systems used for comparison but also shows better accuracy on low frequencies for low acceleration amplitudes. Moreover, the final output results of Fast Fourier Transformation (FFT) assessments showed a better observable resolution for CHEAP than the studied control systems.

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Digital Twin-Based Safety Risk Coupling of Prefabricated Building Hoisting

Cited by 72 publications

References 43 publications

The Fundamental Approach of the Digital Twin Application in Railway Turnouts with Innovative Monitoring of Weather Conditions

The Fundamental Approach of the Digital Twin Application in Railway Turnouts with Innovative Monitoring of Weather Conditions

Identification and Prioritization of Critical Risk Factors of Commercial and Recreational Complex Building Projects: A Delphi Study Using the TOPSIS Method

Development of a Low-Cost System for the Accurate Measurement of Structural Vibrations

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