1. bookVolumen 3 (2019): Edición 1 (October 2019)
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eISSN
2391-8160
Primera edición
15 Aug 2014
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1 tiempo por año
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access type Acceso abierto

Managing Earthwork Construction Business Institutions Applying Industry 4.0 Relating Technologies – The Case of German SMEs

Publicado en línea: 04 May 2020
Volumen & Edición: Volumen 3 (2019) - Edición 1 (October 2019)
Páginas: 299 - 306
Conferencia Detalles
License
Formato
Conferencia
eISSN
2391-8160
Primera edición
15 Aug 2014
Calendario de la edición
1 tiempo por año
Idiomas
Inglés
Abstract

The interest in Industry 4.0 relating technology in earthwork construction is increasing and continues to gain more and more in popularity. Earthwork contractors have begun to think about alternative and innovative ways to increase productivity by applying new ICT technologies. In this context they try e.g. to utilize sensors, software and information and communication tools to improve processes and to reduce workforce and total costs at the same time. However, as with many innovations, there exist companies that have not invested in these technologies yet. The objective of this paper is to investigate in technologies associated with Industry 4.0 and their potential future application-possibilities in the field of earthwork construction. Therefore, this paper conducted an in-depth literature review of relevant Industry 4.0 technology topics. Additionally, semi-structured interviews among German earthwork industry experts were conducted, which revealed several insights regarding benefits, challenges and barriers of managing relevant technologies.

Keywords

Aoalsteinsson, D. H. (2008). Machine Guidance in Construction Equipment. BSc. Thesis, Reykjavik University, School of Science and Engineering, Haskolinn, Iceland.Search in Google Scholar

Azar, E., ---amp--- Kamaat, V. (2017). Earthmoving Equipment Automation: A Review of Technical Advances and Future Outlook. Journal of Information Technology in Construction, Vol.22, pp. 247-265.Search in Google Scholar

Bilal, M., Oyedele, L., Qadir, J., Munir, K., Ajayi, S., Akinade, O.,. . . Pasha, M. (2016). Big Data in the construction industry: A review of present status, opportunities, and future trends. Advanced Engineering Informatics(No.30), pp. 500-521.10.1016/j.aei.2016.07.001Search in Google Scholar

Caterpillar Inc. (2006). Caterpillar. Abgerufen am 16. June 2018 von Road Production Study: https://www.bentleyuser.dk/sites/default/files/e7_machine_control_ii_-_production_study.pdfSearch in Google Scholar

Caterpillar Inc. (2015). Caterpillar. Abgerufen am 3. June 2018 von Caterpillar and the Internet of Big Things: https://www.caterpillar.com/en/news/caterpillarNews/innovation/caterpillar-disrupted.htmlSearch in Google Scholar

Chen, M., ---amp--- Chen, S. (2016). RFID Technologies for Internet of Things. Florida, USA: Springer.10.1007/978-3-319-47355-0Search in Google Scholar

CTC ---amp--- Associates LLC. (2015). California Department of Transportation. Abgerufen am 5. June 2018 von Quantitative Cost-Benefit Analyses of the Use of Automated Machine Guidance in Construction: An Examination of Current Practice: http://dot.ca.gov/newtech/researchreports/preliminary_investigations/docs/automated_machine_guidance_preliminary_investigation.pdfSearch in Google Scholar

Dadhich, S., Bodin, U., ---amp--- Andersson, U. (2016). Key Challenges in Automation of Earth-Moving Machines. Automation in Construction(No.68), pp. 212-222.10.1016/j.autcon.2016.05.009Search in Google Scholar

Forrestel, R. (2007). 3D Models for Machine Guidance Systems. Highway Engineering Exchange Program International Conference. Albany, New York.Search in Google Scholar

Higgins, M. (2009). Positioning Infrastructures for Sustainable Land Governance. FIG-World Bank Conference. Washington, D.C.Search in Google Scholar

Jonasson, S., Dunston, P., Ahmed, K., ---amp--- Hamilton, J. (2000). Factors in Productivity and Unit Cost for Advanced Machine Guidance. Journal of Construction, Engineering and Management, Vol.128(No.5), pp. 367-374.Search in Google Scholar

Kang, H., Lee, J., Choi, S., Kim, H., Park, J., Son, J., ---amp--- Noh, S. (kein Datum). Smart Manufacturing: Past Research, Present Findings and Future Directions. International Journal of Precision Engineering and Manufacturing Green Technology, Vol.3(No.1),pp. 111-128.10.1007/s40684-016-0015-5Search in Google Scholar

Kaplinsky, O., Koseleva, N., ---amp--- Ropaite, G. (2016). Big Data in Civil Engineering: A State-Of-The-Art Survey. Engineering Structures and Technologies, Vol.8(No.4), pp. 165-175.10.3846/2029882X.2016.1257373Search in Google Scholar

Kelp, R., ---amp--- Kaufmann, D. (November 2017). Construction Machines in the Digital Age: Construction Equipment Makers Need to Find Their Place in Smart Building Sites. Abgerufen am 2018. June 16Search in Google Scholar

von Oliver Wyman: https://www.oliverwyman.com/content/dam/oliver-wyman/v2/publications/2017/nov/Construction-machines-in-the-digital-age.pdfSearch in Google Scholar

Kim, H., Chen, Z., Cho, C.-S., Moon, H., Ju, K., ---amp--- Choi, W. (2015). Integration of BIM and GIS: Highway Cut and Fill Earthwork Balancing. Congress on Computing in Civil Engineering, Proceedings, (pp. 468-474).10.1061/9780784479247.058Search in Google Scholar

Kirchbach, K., Zeeshan, A., ---amp--- Tezel, A. (2015). Abgerufen am 17. June 2018 von Earthworks Control Automation: http:usir.salford.ac.uk/35597/1/Earthworks%20Control%20Automation.pdfSearch in Google Scholar

Krotov, V. (2017). The Internet of Things and new Business Opportunities. Business Horizons(No.60), pp. 831-841.10.1016/j.bushor.2017.07.009Search in Google Scholar

Moon, S., ---amp--- Seo, J. (2017). Virtual Graphic Representation of Construction Equioment for Developing a 3D Earthwork BIM. Journal of Civil Engineering and Management(No.8), pp. 977-984.10.3846/13923730.2017.1348981Search in Google Scholar

Parpala, R., ---amp--- Iacob, R. (2017). Application of IoT Concept on Predictive Maintenance of Industrial Equipment. MATEC Web of Conferences 121.10.1051/matecconf/201712102008Search in Google Scholar

Roarty, E. (2015). Mapping Utilities using BIM and GIS.Search in Google Scholar

Saarikko, T., Westergren, U., ---amp--- Blomquist, T. (2017). The Internet of Things: Are you ready for what’s coming? Business Horizons(No.60), pp. 667-676.Search in Google Scholar

Santos, I., Machado, M., Russo, E., Manguinho, D., Almeida, V., Wo, R., ---amp--- Silva, W. (2015). Big Data Analytics for Predictive maintenance Modeling: Challenges and Opportunities. Offshore Technology Conference. Brazil.10.4043/26275-MSSearch in Google Scholar

Seo, J., Lee, H., Cassule, L., ---amp--- Moon, S. (2015). Machine Guidance Based Site Control Technology (SCT) for Earthwork Equipment Fleet. 32nd International Symposium on Automation and Robotics in Construction. Oulu, Finland.10.22260/ISARC2015/0061Search in Google Scholar

Tanoli, W., Raza, H., Lee, S., ---amp--- Seo, J. (2017). PAD Based 3D Earthwork BIM Design Module for Machine Guidance. 34th International Symposium on Automation and Robotics in Construction (ISARC 2017). Taipe, Taiwan.10.22260/ISARC2017/0087Search in Google Scholar

World Economic Forum. (2016). Shaping the Future of Construction - A Breakthrough in Mindset and Technology.Search in Google Scholar

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