Improvement, optimization and comparison of a remote monitoring architecture based on wsn application to the crossbow platform

Authors

  • Marzak A RITM Laboratory, CED Engineering Sciences, Ecole Supérieure de Technologie, Hassan II University of Casablanca, Morocco
  • Hamraoui M RITM Laboratory, CED Engineering Sciences, Ecole Supérieure de Technologie, Hassan II University of Casablanca, Morocco

Keywords:

Wireless Sensor Networks, Hybrid Architecture, Supervision, Fault Tolerance, Availability, Reliability, Raspberry Pi 3

Abstract

Recently, wireless sensor networks have moved to the concept of hybrid networks. This new concept which merged into Machine To Machine systems, has allowed the wireless sensor networks, to integrate common platforms and exploitable integrals in several types of monitoring and information gathering applications. In this article, we suggest, in an experimental setting, a remote monitoring architecture with high availability and resilience. It allows one to sense, to process and provide real-time data via hybrid communications technologies. Several scenarios for data processing and routing of sensed data by the wireless sensor network (ZigBee Technology) were tested and compared in real time in two different environments.

References

A. Sahu, E. B. Fernandez, M. Cardei, et M. Vanhilst, “A Pattern for a Sensor Node”, in Proceedings of the 17th Conference on Pattern

Languages of Programs, New York, NY, USA, 2010, p. 7:1–7:7.

M. Cardei, E. B. Fernandez, A. Sahu, et I. Cardei, “A Pattern for Sensor Network Architectures”, in Proceedings of the 2Nd Asian Conference on Pattern Languages of Programs, New York, NY, USA, 2011, p. 10:1–10:8.

A. Marzak, M. Hamraoui, H. Belhadaoui, “Conception et réalisation d’une architecture hybride intégrant des réseaux de capteurs sans fil et technologies d’information et de communication” Mediterranean Telecommunications Journal « MTJ », Vol. 6, N° 2, June 2016.

M. Cardei, A. Marcus, I. Cardei, et T. Tavtilov, “Web-based heterogeneous WSN integration using pervasive communication”, in Performance Computing and Communications Conference (IPCCC), 2011 IEEE 30th International, 2011, p. 1‑6.

D. Barata, G. Louzada, A. Carreiro, et A. Damasceno, “System of Acquisition, Transmission, Storage and Visualization of Pulse Oximeter and ECG Data Using Android and MQTT”, Procedia Technol., vol. 9, p. 1265‑1272, 2013.

H. Huang, S. Xiao, X. Meng, et Y. Xiong, “A Remote Home Security System Based on Wireless Sensor Network and GSM Technology”, in

Second International Conference on Networks Security Wireless Communications and Trusted Computing (NSWCTC), 2010, vol. 1, p. 535‑538.

S. Nadir, A. Marzak, K. Lahma, H. Belhadaoui, et M. Hamraoui, “Design and complexity analysis of algorithm treating the credibility of the information: Application to WSN”, NNGT Int J Netw. Comput., vol. 2, févr. 2015.

A. Marcus, M. Cardei, I. Cardei, E. Fernandez, F. Frati, et E. Damiani, “A Pattern for Web-based WSN Monitoring (Invited Paper)”, J. Commun., vol. 6, no 5, août 2011.

A. Marzak, M. Hamraoui, H. Belhadaoui, “Heterogeneous Networks of Remote Monitoring with High Availability and Resilience Application to Wireless Sensor Networks” The International Journal of Computer Science and Information Security “IJCSIS”, Vol. 15 No. 8

Aug. 2017.

A. Marzak, M. Hamraoui, “Architecture de télésurveillance basée sur les réseaux de capteurs sans fils. Application à la plateforme de

capteurs CrossBow” Mediterranean Telecommunications Journal “MTJ”, Vol. 8, N° 2, August 2018.

R. T. Fielding, “Architectural Styles and the Design of Network-based Software Architectures”, University of California, Irvine, 2000.

« The ZigBee Alliance | Control your World ». [En ligne]. Disponible sur: http://www.zigbee.org/.

F. Shariff, N. A. Rahim, et W. P. Hew, “Zigbee-based data acquisition system for online monitoring of grid-connected photovoltaic system”, Expert Syst. Appl., vol. 42, no 3, p. 1730‑1742, févr. 2015.

“IEEE-SA - The IEEE Standards Association – Home”. [En ligne]. Disponible sur: http://standards.ieee.org/.

C. Suh, Z. H. Mir, et Y.-B. Ko, “Design and implementation of enhanced IEEE 802.15.4 for supporting multimedia service in Wireless

Sensor Networks”, Comput. Netw., vol. 52, no 13, p. 2568‑2581, sept. 2008.

“IEEE Xplore Abstract - MQTT-S — A publish/subscribe protocol for Wireless Sensor Networks”. [En ligne]. Disponible sur:

http://ieeexplore.ieee.org/xpl/login.jsp?tp=&arnumber=4554519&url=http%3A%2F%2Fieeexplore.ieee.org%2Fxpls%2Fabs_all.jsp%3Farnu

mber%3D4554519.

R. Fielding, J. Gettys, J. Mogul, H. Frystyk, L. Masinter, P. Leach, et T. Berners-Lee, “Hypertext transfer protocol--HTTP/1.1. RFC 2616”,

June, 1999.

K. L. Calvert et M. J. Donahoo, “TCP/IP sockets in Java : practical guide for programmers.” Morgan Kaufmann, 2011.

P. Mühlethaler et O. Salvatori, “802.11 et les réseaux sans fil”. Eyrolles, 2002.

R. M. Metcalfe et D. R. Boggs, “Ethernet : distributed packet switching for local computer networks”, Commun. ACM, vol. 19, no 7, p. 395‑404, 1976.

J. Lee, Y. Su, C. Shen, “A comparative study of wireless protocols: Bluetooth, UWB, ZigBee, and Wi-Fi”, IEEE IECONN, Nov. 2007, pp.

-51.

J. Postel, “Internet Protocol”, 1981.

T. Halonen, J. Romero, et J. Melero, “GSM, GPRS and EDGE performance : evolution towards 3G/UMTS”. John Wiley & Sons, 2004.

Jain, S., Vaibhav, A., & Goyal, L. (2014, February). “Raspberry Pi based interactive home automation system through E-mail”. In Optimization, Reliabilty, and Information Technology (ICROIT), 2014 International Conference on (pp. 277-280). IEEE.

Crossbow, W. S. N. Professional Kit: http://www. xbow. com. Products/productdetails. aspx.

Downloads

Published

2024-02-26

How to Cite

Marzak, A., & Hamraoui, M. (2024). Improvement, optimization and comparison of a remote monitoring architecture based on wsn application to the crossbow platform. COMPUSOFT: An International Journal of Advanced Computer Technology, 7(10), 2831–2837. Retrieved from https://ijact.in/index.php/j/article/view/447

Issue

Section

Original Research Article

Similar Articles

<< < 9 10 11 12 13 14 15 16 17 18 > >> 

You may also start an advanced similarity search for this article.