Identyfikatory
Warianty tytułu
Internet Rzeczy w inżynierii geotechnicznej
Języki publikacji
Abstrakty
The assumptions and selected applications of information technology, known as the Internet of Things (IoT), in civil and geotechnical engineering. The possibilities of using IoT solutions in geotechnical engineering and examples of systems used in geotechnical centrifuges or in monitoring geo-environment parameters. The authors’ IoT system designed and constructed basing on commonly available electronic components – the system of remote recording of temperature distribution in the ground. Exemplary results of observations with their back analysis.
Założenia i wybrane zastosowania w budownictwie i inżynierii geotechnicznej technologii informatycznej, znanej pod nazwą Internet Rzeczy (IoT). Możliwości wykorzystania rozwiązań IoT w inżynierii geotechnicznej oraz przykłady systemów wykorzystywanych w wirówkach geotechnicznych i w monitorowaniu parametrów charakteryzujących geośrodowisko. Autorski system IoT zaprojektowany i wykonany w oparciu o powszechnie dostępne elementy elektroniczne – system zdalnej rejestracji rozkładu temperatur w podłożu gruntowym. Przykładowe wyniki obserwacji wraz z ich analizą wsteczną.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
164--170
Opis fizyczny
Bibliogr. 25 poz., rys.
Twórcy
autor
- University of Warmia and Mazury in Olsztyn, Faculty of Geodesy, Geospatial and Civil Engineering
Bibliografia
- 1. Ashton K.: That ‘Internet of Things’ Thing. RFID Journal, 2009, http://www.rfidjournal.com/articles/view?4986.
- 2. Atzori L., Iera A., Morabito G.: The Internet of Things: A survey. Computer Networks, 54, 2010, 2787-2805.
- 3. Atzori L., Iera A., Morabito G., Understanding the Internet of Things: definition, potentials, and societal role of a fast evolving paradigm. Ad Hoc Networks, 56, 2017, 122-140.
- 4. Beemer R. D., Murali M., Biscontin G., Aubeny C.: Theory on Measuring Orientation with MEMS Accelerometers in a Centrifuge. IFCEE, March 17–21, 2015, San Antonio, Texas, USA, http://dx.doi.org/10.1061/9780784479087.240.
- 5. Bradley D., Russell D., Ferguson I., Isaacs J., MacLeod A., White R.: The Internet of Things – The future or the end of mechatronics. Mechatronics, 27, 2015, 57-74.
- 6. Deak G., Curran K., Condell J., Asimakopoulou E., Bessis N.: IoTs (Internet of Things) and DfPL (Device-free Passive Localisation) in a disaster management scenario. Simulation Modelling Practice and Theory, 35, 2013, 86-96.
- 7. Ding L. Y., Zhoua C., Dengb Q. X., Luo H. B., Ye X. W., Ni Y. Q., Guoa P.: Real-time safety early warning system for cross passage construction in Yangtze Riverbed Metro Tunnel based on the internet of things. Automation in Construction, 36, 2013, 25-37.
- 8. Domingo M. C.: An overview of the internet of underwater things. Journal of Network and Computer Applications, 35, 2012, 1879-1890;
- 9. Du C., Zhu S.: Research on urban public safety emergency management early warning system based on technologies for the internet of things. Procedia Engineering, 45, 2012, 748-754.
- 10. Fernandez-Gago C., Moyano F., Lopez J.: Modelling trust dynamics in the Internet of Things. Information Sciences, 396, 2017, 72-82.
- 11. Khajenasiri I., Estebsari A., Verhelst M., Gielen G.: A review on Internet of Things solutions for intelligent energy control in buildings for smart city applications, Energy Procedia, 111, 2017, 770-779.
- 12. Li C. Z., Hong J., Xue F., Shen G. Q., Xu X., Luo L.: SWOT analysis and Internet of Things-enabled platform for prefabrication housing production in Hong Kong. Habitat International, 57, 2016, 74-87.
- 13. Magruk A.: The most important aspects of uncertainty in the Internet of Things field – context of smart buildings. Procedia Engineering, 122, 2015, 220-227.
- 14. Raza S., Misra P., He Z., Voigt T.: Building the Internet of Things with bluetooth smart. Ad Hoc Networks, 57, 2017, 19-31.
- 15. Schmuck, C.: Applying SWE Standards in Geo-Monitoring, International Society for Rock Mechanics. ISRM Regional Symposium – EUROCK 2015, 7-10 October, Salzburg, Austria.
- 16. Sfar A.R., Natalizio E., Challal Y., Chtourou Z., A roadmap for security challenges in Internet of Things, Digital Communications and Networks, http://dx.doi.org/10.1016/j.dcan.2017.04.003.
- 17. Sun E., Zhang X., Li Z.: The internet of things (IOT) and cloud computing (CC) based tailings dam monitoring and pre-alarm system in mines. Safety Science, 50, 2012, 811-815.
- 18. Todisco L.: Funicularity and equilibrium for high-performance conceptual structural design. PhD thesis. Technical University of Madrid, Spain, 2016.
- 19. Weiser M.: The computer for the 21st century. Scientific American, 265(3), 1991, 94-104.
- 20. Wolf M.: Computers as Components (fourth edition). Chapter 8 - Internet-of-Things Systems, 2017, 423-448.
- 21. Yi H.-C., Park J. W., Design and implementation of an End-of-Life Vehicle Recycling Center based on IoT (Internet of Things) in Korea. Procedia CIRP, 29, 2015, 728-733.
- 22. Zambrano A. M., Perez I., Palau C., Esteve M., Technologies of Internet of Things applied to an Earthquake Early Warning System. Future Generation Computer Systems, 2016, http://dx.doi.org/10.1016/j.future.2016.10.009.
- 23. Zarpelão B. B., Miani R. S., Kawakani C. T., Carlisto de Alvarenga S., A survey of intrusion detection in Internet of Things. Journal of Network and Computer Applications, 84, 2017, 25-37.
- 24. Zheng X. Y., Shen J.: Research on life cycle monitoring of long distance diversion tunnel based on NFC context-awareness. Geotechnical and Geological Engineering, 33(4), 2015, 947-958.
- 25. Zhong R. Y., Pengc Y., Xue F., Fang J., Zou W., Luof H., Ngh S. T., Lu W., Shen G. Q. P., Huang G. Q.: Prefabricated construction enabled by the Internet-of-Things. Automation in Construction, 76, 2017, 59-70.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d69a4dea-e8af-4eec-9f53-6f4b4ddde840