On rapid development of reactive wireless sensor systems

• Autorzy: Gburzyński Paweł , Kopciuszewska Elżbieta

Identyfikatory

DOI

10.2478/czoto-2019-0073

• Konferencja: 7th International Conference System Safety: Human - Technical Facility - Environment, CzOTO 2018 (7 ; 12-14.12.2018 ; Zakopane, Poland)
• Języki publikacji: EN

Abstrakty

EN

We present a software platform for designing and testing wireless networks of sensors and actuators (WSNs). The platform consists of three components: an operating system for small-footprint microcontrollers (dubbed PicOS), a software development kit (SDK) amounting to a C-based, event-oriented (reactive) programming language, and a virtual execution platform (VUE2 ) capable of emulating complete deployment environments for WSNs and thus facilitating their rapid development.1 Its most recent incarnation introduced in the present paper is a component of the WSN lab being currently set up at Vistula in collaboration with Olsonet Communications Corporation. 2 We highlight the platform’s most interesting features within the context of a production WSN installed at independent-living facilities.

Słowa kluczowe

EN

wireless sensor networks; people and asset tracking; monitoring; reactive systems

PL

bezprzewodowe sieci czujników pomiarowych; monitoring; układy reaktywne

• Wydawca: De Gruyter
• Czasopismo: System Safety : Human - Technical Facility - Environment
• Rocznik: 2019
• Tom: Vol. 1, nr 1
• Strony: 574--582
• Opis fizyczny: Bibliogr. 17 poz., rys.

Twórcy

autor

Gburzyński Paweł

• 6-6215 1 Vistula University, Poland

autor

Kopciuszewska Elżbieta

• 6-6215 1 Vistula University, Poland

Bibliografia

• [1] Adame, T., Bel, A., Carreras, A., Melia-Segui, J., Oliver, M. i Pous, R., 2018. CUIDATS: An RFID--WSN hybrid monitoring system for smart health care environments. Future Generation Computer Systems, 602-615.
• [2] Akhmetshina, E., Gburzyński, P., & Vizeacoumar, F., 2003. PicOS: A Tiny Operating System for Extremely Small Embedded Platforms. Proceedings of ESA'03, (pp. 116-122). Las Vegas.
• [3] Boers, N. M., Chodos, D., Gburzyński, P., Guirguis, L., Huang, J., Lederer, R., Stroulia, E., 2010. The smart condo project: services for independent living. EHealth, assistive technologies and applications for assisted living: challenges and solutions. IGI Global.
• [4] Boers, N. M., Gburzyński, P., Nikolaidis, I., Olesiński, W., 2010. Developing wireless sensor network applications in a virtual environment. Telecommunication Systems, 45, 165-176. doi:10.1007/s11235-009-9246-x
• [5] Boers, N., Nikolaidis, I., Gburzyński, P., & Olesiński, W., 2012. PICOS & VNETI: Enabling Real Life Layer-less WSN Applications. Proceedings of Sensornets'12. Rome.
• [6] Dobosiewicz, W., Gburzyński, P., 1993. SMURPH: An Object Oriented Simulator for Communication Networks and Protocols. Proceedings of MASCOTS'93, Tools Fair Presentation, (strony 351-352).
• [7] Gburzyński, P., Nikolaidis, I., 2006. Wireless Network Simulation Extensions in SMURPH/SIDE. Proceedings of the 2006 Winter Simulation Conference (WSC'06). Monetery, CA.
• [8] Gburzyński, P., Olesiński, W., 2008. On a practical approach to low-cost ad hoc wireless networking. Journal of Telecommunications and Information Technology, 2008, 29-42.
• [9] Gburzyński, P., Kaminska, B., Olesiński, W., 2007. A Tiny and Efficient Wireless Adhoc Protocol for Low-cost Sensor Networks. Proceedings of DATE'07, (pp. 1562- 1567). Nice.
• [10] Gburzynski, P., Olesinski, W., Van Vooren, J., 2016. A WSN-based, RSS-driven, Real-time Location Tracking System for Independent Living Facilities. 13-th International Joint Conference on e-Business and Telecommunications. Lisbon.
• [11] Haque, I., Nikolaidis, I., Gburzyński, P., 2009. A Scheme for Indoor Localization through RF Profiling. ICC'09. Dresden.
• [12] Levis, P., others, 2005. TinyOS: An Operating System for Sensor Networks. W W. Weber, J. M. Rabaey, E. Aarts (Editors), Ambient Intelligence (pp. 115-148). Springer.
• [13] Olesiński, W., Rahman, A., Gburzyński, P., 2003. TARP: a tiny ad-hoc routing protocol for wireless networks. Australian Telecommunication, Networks and Applications Conference ({ATNAC}). Melbourne.
• [14] Regehr, J., Reid, A., Webb, K., 2005. Eliminating stack overflow by abstract interpretation. ACM Transactions on Embedded Computing Systems (TECS), 4, 751-778.
• [15] Texas Instruments, 2013. CC430 User's Guide. Available at: http://www.ti.com/lit/ug/slau259e/slau259e.pdf.
• [16] Wang, C., Xing, L., Vokkarane, V. M., Sun, Y. L., 2016. Infrastructure communication sensitivity analysis of wireless sensor networks. Quality and Reliability Engineering International, 32, 581-594.
• [17] Whitehouse, K., Tolle, G., Taneja, J., Sharp, C., Kim, S., Jeong, J., Culler, D., 2006. Marionette: using RPC for interactive development and debugging of wireless embedded networks. Proceedings of the 5th international conference on Information processing in sensor networks, (pp. 416-423).

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).