Artificial intelligence

Scientific journal

ISSN 2710-1673

ONLINE: ISSN 2710-1681

Search by:

Year of publication
Author name
Paper title

Methods of assessment of functional safety wireless sensor network of plant condition

Ostapenko V.1
1 Glushkov Institute of Cybernetic of NAS of Ukraine

Full text (PDF)

UDC: 004.7
Publication Language: Ukrainian
Stuc. intelekt. 2017; 22(3-4):32-43

Abstract: The article reveals the current problem of evaluating the functional safety of wireless sensor networks, which are due to low performance, both in terms of guaranteeing transfer of data for a limited time, and in terms of information security. The methods of evaluation of functional safety in automated monitoring systems of distributed objects of medical-ecological complexes, namely, the monitoring of plant condition are considered. The urgency of the problem of evaluating hardware and software complexes in terms of functional security is the complexity of software and the need to use these complexes in field conditions.

Keywords: wireless sensor networks, functional reliability, monitoring of plant condition

References:

  1. Ragozin D.V. Modelirovanie sinhronizirovannyih sensornyih setey // Problemi programuvannya. – 2008. – # 2-3. SpetsIalniy vipusk – 721-729 s.
  2. IEC 61508:2010 Commented version, Functional safety of electrical/electronic/programmable electronic safety-related systems. – Geneva: International Electrotechnical Commission. – 2010.
  3. Romanov V., Artemenko D., Brayko Yu., Galelyuka I., Imamutdinova R., Kytayev O., Palagin O., Sarakhan Ye., Starodub M., Fedak V. Portable Biosensor: from Idea to Market. International Journal “Information Theories & Applications”. Vol. 19, Number 2. Sofia, Bulgaria. 2012. P. 126–131.
  4. Romanov V., Galelyuka I., Hrusha V., Sarakhan Ye. Biosensor for Express-Diagnostics of Plant States // ZbIrnik materIalIv mIzhnarodnoYi naukovo-praktichnoyi konferentsiyi «Radostim-2009. Guminovi rechovini ta fItogormoni v silskomu gospodarstvi», Dnipropetrovsk, 16-18 lyutogo. – 2010. – S. 153-154.
  5. Romanov V., Gribova V., Galelyuka I., Voronenko O. Multilevel sensor networks for precision farming and environmental monitoring. Information Technologies & Knowledge. Vol. 9, Number 1. Sofia, Bulgaria. 2015. P. 3–10.
  6. Voronenko A.V., Romanov V.A. Vyibor unifitsirovannyih sredstv protsessornoy obrabotki dannyih na osnove cortex-yadra dlya biosensornyih priborov // Komp’yuternI zasobi, merezhI ta sistemi: zb. nauk. pr. / K.: In-t kIbernetiki Im. V. M. Glushkova NAN UkraYini. – 2013 (#12). – C. 44-101.
  7. Grusha V.M. Vikoristannya bezdrotovoyi sensornoyi merezhi u doslidzhennyah metodu induktsiyi fluorestsentsiyi hlorofIlu // Komp’yuterni zasobi, merezhi ta sistemi: zb. nauk. pr. / K.: In-t kibernetiki im. V.M. Glushkova NAN Ukrayini. – 2013 (#12). – C. 54-63.
  8. Grusha V.M. Obrobka rezultativ eksperimentalnih doslidzhen, provedenih z vikoristannyam portativnogo fluorometra «Floratest». Komp’yuterni zasobi, merezhi ta sistemi. 2015. # 14. C. 109–116.
  9. Ot modeley povedeniya k iskusstvennomu intellektu / pod red. V.G. Redko - M.: KomKniga, 2006. - 456s.
  10. Ragozin D. V. Modelirovanie sinhronizirovannyih sensornyih setey // Problemi programuvannya. – 2008. – # 2-3. SpetsIalniy vipusk – 721-729 s.
  11. Romanov V.O., Galelyuka I.B., Voronenko O.V., Grusha V.M. Nova Informatsiyna tehnologiya ekspres- otsinyuvannya stanu roslin v umovah diyi stresovih faktoriv // Komp’yuterni zasobi, merezhi ta sistemi: zb. nauk. pr. / K.: In-t kibernetiki im. V.M. Glushkova NAN Ukrayini. – 2016 (#15). – C. 44-101.

View full text (PDF)