A flexible platform for wireless sensor nodes intended to measure bridges vibrations
DOI:
https://doi.org/10.37537/rev.elektron.4.1.94.2020Keywords:
sensor networks, civil structures, vibrationsAbstract
Traditional wireless sensor networks work with scalar data like temperature o humidity because they have strong restrictions on bandwidth and energy consumption. Nevertheless, in recent years, technological advances have permitted a significant growth in the use of these networks for processing and transmitting complex signals like audio, video or vibrations. This work reports the development of an adaptable platform for sensor nodes, which are able to measure, process, store and wirelessly transmit diverse physical variables. The design of these nodes allows the adaptation of them for the use in applications that require to measure and process signals of varied complexity. In addition, the nodes permit the wireless transmission of the information obtained from the local processing of the signals mentioned above. Finally, the adaptation of the platform to measure vibration in road bridges is described as a case study.Downloads
References
M. Bhende, S. J. Wagh and A. Utpat , “A Quick Survey On Wireless Sensor Networks”, in Proc. of Fourth International Conference on Communication Systems and Network Technologies, 2014.
F. Al-Turjman and A. Radwan, “Data Delivery in Wireless Multimedia Sensor Networks: Challenging and Defying in the IoT Era”, IEEE Wireless Communications, vol. 24, Issue 5, pp. 125-131, 2017.
H. Shen and G. Bai, “Routing in Wireless Multimedia Sensor Networks: A Survey and Challenges Ahead”, Journal ofNetworkandComputerApplications, Issue7, pp. 30–49, 2016.
I.T. Almalkawi, M. Guerrero Zapata, J. N. Al-Karaki, J. Morillo-Pozo, “Wireless Multimedia Sensor Networks: Current Trends and Future Directions”, Sensors Journal , Issue 10, pp. 6662 – 6717, 2010.
G. Viscardi, M. Roveri, R. Camplani and C. Alippi, “Netbrick: A high-performance, low-power hardware platform for wireless and hybrid sensor networks“, in Proc. of IEEE 9th International Conference on Mobile Ad-Hoc and Sensor Systems (MASS 2012), 2012, pp. 111-117.
M. Anupama Reddy, D. Anjaneyulu, D. Prasanth Varma and G. Rama Rao, “WSN in IOT Environment Interfacing with Smart Sensors using Arm7 with Zigbee for Industries”, International Journal of Engineering Research and Development, vol. 12, Issue 8, pp. 54-60, 2016.
R. Corti, E. Giandoménico, J. Belmonte, R. Martínez, “Implementación de una Red de Sensores para aplicaciones de supervisión ambiental”, en Anales de la VII Jornada de Ciencia y Tecnología de SECyT/UNR, Rosario 2013.
G. A. Al-Suhail, J. Mehdi, G. Nikolakopoulos. “A Practical Survey on Wireless Sensor Network Platforms”, Journal of Communications Technology, Electronics and Computer Science, Issue 13, 2017.
M. T. Lazarescu, "Design of a WSN Platform for Long-Term Environmental Monitoring for IoT Applications," IEEE Journal on Emerging and Selected Topics in Circuits and Systems, vol. 3, no. 1, pp. 45-54, March 2013.
S. Bader, M. Krämer, B. Oelmann, “A Domain-Specific Platform for Research in Environmental Wireless Sensor Networks”, in Proc. of The Seventh International Conference on Sensor Technologies and Applications,2013, pp 200 -207.
J. Chen, P. Li, G. Song, Y. Tan, Y. Zheng and Y Han, “ Systematic Development of a Wireless Sensor Network for Piezo-Based Sensing”, Hindawi, Journal of Sensors vol. 2018, Article ID 9315364, 12 pages, 2018.
K Sreevallabhan, B Nikhil Chand and S. Ramasamy, “Structural health monitoring using wireless sensor networks”, IOP Conference Series: Materials Science and Engineering, vol. 263, 14th International Conference on Science, Engineering and Technology (14th ICSET-2017) 2–3 May 2017, VIT University, Vellore, Tamil Nadu, India.
C. Ayyildiz, H. Erdem, T. Dirikgil, O. Dugenci, T. Kocak, F. Altun and V. Cagri Gungor. “Structure health monitoring using wireless sensor networks on structural elements”, Ad Hoc Networks, Issue 82 , pp. 68 - 76, 2019.
A. B. Noel, A. Abdaoui, T. Elfouly, M. Hossam Ahmed, A. Badawy, and M. S. Shehata, “Structural Health Monitoring using Wireless Sensor Networks: A Comprehensive Survey”, IEEE Communications Surveys & Tutorials, · vol. 19 Issue 3, pp 1403 – 1423, April 2017.
T. J. matarazzo , P. santi , shamim n. Pakzad, K. Carier, C. Ratti, B. Moaveni, C. Osgood, and N. Jacob, Crowdsensing Framework for Monitoring Bridge Vibrations Using Moving Smartphones, in Proc. of the IRRR, vol. 106, No. 4, April 2018, pp.577 – 593.
F. Navarro-Henríquez, D. Ureña-Muñoz, “Mediciones y análisis de vibraciones en el puente Virilla, ruta nacional N° 1”, Tecnología en Marcha,. vol. 28, No 2, pp. 16-32 Abril-Junio 2015.
R. Corti, “Clustering dinámico para tiempo de encendido mínimo en redes inalémbricas de sensores (CLUDITEM)”, Tesis de Maestría, ISBN 978-950-34-0851-3, e-Book, 1a ed., La Plata, Argentina, 2012.
M. Abdulkarem, K. Samsudin, F. Z. Rokhani and M. F.Rasid, “Wireless sensor network for structural health monitoring: A contemporary review of technologies, challenges, and future direction”, Structural Health Monitoring, pp. 1 – 43, 2019.
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