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Ultrasonic microcontroller device for distance measuring between dustcart and container of municipal solid wastes

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
PL
Ultradźwiękowy mikrokontroler do pomiaru odległości między śmieciarką a pojemnikiem odpadów komunalnych
Języki publikacji
EN
Abstrakty
EN
In the paper structural diagram of the device and block scheme of microcontroller control algorithm for measuring distance have been proposed. The main characteristics of the proposed device are provided. The results of experimental tests are shown for measuring distance with consideration of environmental parameters. The results of experimental studies, presented in the work, confirm reliability of the parameter being measured.
PL
W artykule przedstawiono schemat konstrukcyjny urządzenia oraz schemat blokowy algorytmu sterowania mikrokontrolerem do pomiaru odległości. Podano główne cechy proponowanego urządzenia. Wyniki badań eksperymentalnych przedstawiono dla pomiaru odległości z uwzględnieniem parametrów środowiskowych. Przedstawione w pracy wyniki badań potwierdzają wiarygodność mierzonego parametru.
Rocznik
Strony
146--150
Opis fizyczny
Bibliogr. 36 poz., rys., tab.
Twórcy
  • Vinnytsia National Technical University, Vinnytsia, Khmelnytske shose 95, 21021 Vinnytsia, Ukraine
  • Vinnytsia National Technical University, Vinnytsia, Khmelnytske shose 95, 21021 Vinnytsia, Ukraine
  • Vinnytsia National Technical University, Vinnytsia, Khmelnytske shose 95, 21021 Vinnytsia, Ukraine
  • East Kazakhstan State Technical University named after D.Serikbayev
  • East Kazakhstan State Technical University named after D.Serikbayev
Bibliografia
  • [1] Verkhovna Rada Ukrainy, (30.11.2015), Dostupno: http://zakon2.rada.gov.ua/laws/show/984_011/page.
  • [2] Bereziuk O. V., Matematychne modeliuvannia prohnozuvannia obiemiv utvorennia tverdykh pobutovykh vidkhodiv ta ploshch polihoniv i smittiezvalyshch v Ukraini, Naukovo-Tekhnichnyi Zbirnyk, 7 (2009), No. 2, 88-91
  • [3] Bereziuk O. V., Ohliad konstruktsii mashyn dlia zbyrannia ta pervynnoi pererobky tverdykh pobutovykh vidkhodiv, Visnyk mashynobuduvannia ta transportu, (2015), No. 1, 3-8
  • [4] Kabinet Ministriv Ukrainy, Pro zatverdzhennia Prohramy povodzhennia z tverdymy pobutovymy vidkhodamy, Postanova No. 265 (2004,Berez.4) Dostupno: http://zakon1.rada.gov.ua/laws/show/265-2004-%D0%BF.
  • [5] Sydoruk O.O., Realizatsiia tsyfrovykh pryladiv na bazi Arduino, Dostupno:https://conferences.vntu.edu.ua/index.php/allfksa/all-fksa- 2016/paper/view/961/1070.
  • [6] Cvjetkovic V. M., Stankovic U., Arduino Based Physics and Engineering Remote Laboratory, International Journal of Online Engineering, 1(2017), No. 13, 87-105
  • [7] Sidik M. A. B., Rusli M. Q. A., Adzis Z., Buntat Z., Arief Y. Z., Shahroom H., Jambak M. I., Arduino-Uno based mobile data logger with GPS feature, in Telkomnika - Telecommunication Computing Electronics and Control , 1 (2015), No. 13, 250-259
  • [8] Mahzan N.N., Omar A. M., Rimon L., Noor S. Z. M., Rosselan M. Z., Design and development of an arduino based data logger for photovoltaic monitoring system, International Journal of Simulation: Systems, Science and Technology, 41 (2017) No. 17, 15.1-15.5
  • [9] Kim J., Udpa L., Development and application of arduino based scanning system for non-destructive testing, International Journal of Applied Engineering Research, 14 (2016), No. 11, 8217-8220
  • [10] Bohachuk V.V., Mokin B.I., Metody ta zasoby vymiriuvalnoho kontroliu volohosti poroshkopodibnykh materialiv, : monohrafiia UNIVERSUM-Vinnytsia, (2008), 141
  • [11] Bereziuk O.V., Lemeshev M.S., Bohachuk V.V., Means for measuring relative humidity of municial solid wastes based on the microcontroller Arduino Uno R3, Photonics Applications in Astronomy, Communications, Industry, and High Energy Physics Experiments, (2018)
  • [12] Ultrasonic ranging module : HC-SR04 : Datasheet, ITead Studio, (2010), 2
  • [13] Chelyabinsk: GlavAvtomatika, Ultrazvukovyie datchiki v okruzhayuschey srede, (2012), Dostupno: http://snt.mega-sensor.ru
  • [14] Sutorihin I. A., Litvinenko S.A., Klimaticheskie i prirodnyie faktoryi, vliyayuschie na rasprostranenie akusticheskih voln, Izvestiya Altayskogo gosudarstvennogo universiteta, 69 (2011), No. 1-1, 197- 199
  • [15] Temnikova E. Yu., Bogomolov A. R., Shevyirevyu S. A., Metodicheskie ukazaniya k laboratornoy rabote, Opredelenie teploemkosti vlazhnogo vozduha, (2016), 12
  • [16] Kalinkin A. I., Holopov I. S., Kompensatsiya oshibki izmereniya impulsnyih ultrazvukovyih dalnomerov po pokazaniyam datchikov temperaturyi, atmosfernogo davleniya i otnositelnoy vlazhnosti vozduha, Vestnik RGRTU, 52 (2015), No. 2, 125-130
  • [17] ATmega328 8-bit AVR Microcontroller with 4/8/16/32K Bytes In- System Programmable Flash: Datasheet, (2010), 32
  • [18] Temperature and humidity module DHT11 Product Manual, Guangzhou: Aosong Electronics Co.,8
  • [19] Vasilevskyi O. M., Advanced mathematical model of measuring the starting torque motors, Tekhn. Elektrodin. 76 (2013), No. 6
  • [20] Eichstädt S., Elster C., Smith M.I, Esward T.J., Evaluation of dynamic measurement uncertainty – an open-source software package to bridge theory and practice, J. Sens. Sens. Syst., (2017), No. 6, 97–105
  • [21] Vasilevskyi O. M., Yakovlev M. Yu., Kulakov P. I., Spectral method to evaluate the uncertainty of dynamic measurements, Tekhn. Elektrodin., 72 (2017), No. 4
  • [22] Vasilevskyi O. M., A frequency method for dynamic uncertainty evaluation of measurement during modes of dynamic operation, Int. J. Metrol. Qual. Eng., 202 (2015), No. 6
  • [23] Vasilevskyi O. M., Evaluation of uncertainty of the results of dynamic measurements, conditioned the limited properties used the measuring instrume, Analysis of Dynamic Measurements http://mathmet.org/resources/DYNAMIC2016/ Vasilevski,- Alexsandre-Dynamic-uncertainty.pdf
  • [24] Vasilevskyi O. M., Kulakov P. I., Ovchynnykov K. V., Didych V. M., Evaluation of dynamic measurement uncertainty in the time domain in the application to high speed rotating machinery, International Journal of Metrology and Quality Engineering, 8 (2017), No. 25, 9
  • [25] Vasilevskyi O. M., Kulakov P. I., Didych V. M., Technique Of Research Uncertainty Dynamic Measurements Of Vibration Acceleration Of Rotating Machines, IOSR Journal of Electrical and Electronics Engineering (IOSR-JEEE), 11 (2016), No. 05, 34-39
  • [26] Vasilevskyi O.M., Kulakov P.I., Dudatiev I.A., Didych V.M., Kotyra A., Suleimenov B., Assembay A., Kozbekova A., Vibration diagnostic system for evaluation of state interconnected electrical motors mechanical parameters, Proc. SPIE 10445, (2017)
  • [27] Broch J. T., Mechanical Vibrations and Shock measurements, Brüel & Kjær, (1984).
  • [28] IEC 60747-14-4:2011, Semiconductor devices - Discrete devices - Part 14-4: Semiconductor accelerometers (IEC, Switzerland, 2011).
  • [29] ISO 2954:2012, Mechanical vibration of rotating and reciprocating machinery - Requirements for instruments for measuring vibration severity, (ISO, Switzerland, 2012).
  • [30] Maina A., Veldman I., Ploug H., NMISA, KEBS, BKSV trilateral vibration comparison results, ACTA IMEKO, 5 (2016), No. 1, 69‐80
  • [31] Doscher J., Accelerometer Design and Applications, Analog Divices, (1998)
  • [32] Azarov O., Chernyak O., et al., High-speed counters in Fibonacci numerical system, Proc. SPIE 10445, (2017)
  • [33] Azarov O.D., Tetiana I. Troianovska, et al., Quality of content delivery in computer specialists training system, Proc. SPIE 10445, (2017)
  • [34] Kotyra A., Optoelectronic systems in diagnostic and measurement applications, Informatyka, Automatyka, Pomiary w Gospodarce i Ochronie Środowiska - IAPGOŚ, 4 (2014), No. 2, 9-10
  • [35] Azarov O.D., Krupelnitskyi L.V., Komada P., AD systems for processing of low frequency signals based on self calibrate ADC and DAC with weight redundancy, Przegląd Elektrotechniczny, 97 (2017), No. 5, 125-128
  • [36] Osadchuk O., Osadchuk V., Osadchuk I, The Generator of Superhigh Frequencies on the Basis Silicon Germanium Heterojunction Bipolar Transistors, 13th International Conference on Modern Problems of Radio Engineering, Telecommunications and Computer Science (TCSET), (2016), 336–338
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e597dcb3-6997-4609-affb-607cd5472770
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