Extracting 3D Indoor Maps with Any Shape Accurately Using Building Information Modeling Data

Qiu, Qi; Wang, Mengjun; Qing-sheng, Xie; Han, Junjun; Zhou, Xiaoping

doi:10.3390/ijgi10100700

Cited by 2 publications

(2 citation statements)

References 37 publications

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“…In recent years, some studies focused on extracting, converting, and transferring BIM information to robots. Qiu et al (2021) developed a method for extracting 3D indoor maps using BIM data and a grid-based approach for indoor robots and autonomous navigation. Kim et al (2021) used BIM information enabling task planning and scheduling for autonomous painting robots.…”

Section: Literature Reviewmentioning

confidence: 99%

Layout modelling of the built environment for autonomous mobile robots using Building Information Modelling (BIM) and simulation

Byers

RazaviAlavi

2022

mocs

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Robotics is a fast-growing technology in the construction industry, particularly in off-site construction and Modern Methods of Construction (MMC). Recent advancements in technologies have made robots more intelligent and capable of autonomously undertaking tasks. Navigation of the robots in the built environment requires analysis of robots’ sensor data, which is computationally sophisticated and time consuming. Modeling the layout of the built environment using BIM and simulation can reduce the computational burden of the sensor data analysis. This research aims to develop a method to transfer the geometry data from BIM models to virtual robots in the simulation environment, and provide the robots with priori knowledge about the built environment. This method is simple-to-use and can enhance robot navigation in terms of accuracy and efficiency. The method was implemented in a case study to demonstrate its usefulness and practicality.

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Section: Literature Reviewmentioning

confidence: 99%

Layout modelling of the built environment for autonomous mobile robots using Building Information Modelling (BIM) and simulation

Byers

RazaviAlavi

2022

mocs

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“…Many applications require 3D object data, and examples can be found in civil and industrial engineering, construction [9] and road maintenance, urban planning, environmental analysis [2], and precision forestry. LiDAR (Light Detection and Ranging) was widely used over the years to scan objects or map the environment in 3D to support these applications.…”

Section: Introductionmentioning

confidence: 99%

Geospatial Technologies Used in the Management of Water Resources in West of Romania

Şmuleac¹,

Șmuleac²,

Popescu³

et al. 2022

Water

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Stability in time of major and important objectives is vital and can be achieved by 3D scanners which follow changes in time with construction, respective of the natural or artificial hydrotechnical dams and the obtaining of 3D data in real time with the possibility of evaluating and making quick decisions. This scientific paper approaches a research topic of great importance and actuality in the field of Civil Engineering, Hydrotechnics, and Geomatics using the 3D scanning technologies for the hydrotechnical arrangements (Topolovăţu Mic, Coșteiu and Sânmartinu Maghiar) and hydroameliorative (Cruceni Pumping Station). In Romania, data collection was carried out for the first time using the mobile scanning technology (MMS), “Backpack” type, namely, Leica Pegasus Backpack. Data collection using terrestrial laser scanning technology (Terrestrial Laser Scanning) was carried out with the Leica C10 equipment. The processing of point clouds was carried out using the Inertial Explorer program, and the processing of point clouds was carried out with the Cyclone program. The collection of ground checkpoints used for checking, correcting, and analyzing point clouds was carried out using the GPS Leica GS08 equipment. Compared with traditional methods using classical measuring instruments, precise data was obtained (with an error of 2–4 cm) through 3D laser scanning technology in a short time and with multiple possibilities of processing and visualizing point clouds.

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Extracting 3D Indoor Maps with Any Shape Accurately Using Building Information Modeling Data

Cited by 2 publications

References 37 publications

Layout modelling of the built environment for autonomous mobile robots using Building Information Modelling (BIM) and simulation

Layout modelling of the built environment for autonomous mobile robots using Building Information Modelling (BIM) and simulation

Geospatial Technologies Used in the Management of Water Resources in West of Romania

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