GAZ BALLONLI AVTOMOBILLARDA RADIOTO‘LQINLI UZATMALAR ASOSIDA TAKOMILLASHTIRILGAN TEXNIK NAZORAT TIZIMINING IQTISODIY SAMARADORLIGINI BAHOLASH
DOI:
https://doi.org/10.5281/zenodo.18790029Keywords:
Gaz ballonli avtomobillar; RFID texnologiyasi; takomillashtirilgan texnik nazorat tizimi; iqtisodiy samaradorlik; ekspluatatsion xarajatlar; texnik xizmat ko‘rsatishAbstract
Mazkur maqolada gaz ballonli avtomobillarda radioto‘lqinli identifikatsiya (RFID) texnologiyasi asosida
takomillashtirilgan texnik nazorat tizimini joriy etishning iqtisodiy samaradorligi tadqiq etilgan. Amaldagi texnik xizmat
ko‘rsatish tizimlari tahlili ularning inson omiliga sezilarli darajada bog‘liqligi, mehnat va vaqt sarfining yuqoriligi hamda
ekspluatatsion jarayonlarda samaradorlikni yanada oshirish imkoniyatlari mavjudligini ko‘rsatdi. Taklif etilgan RFID
asosidagi tizim gaz ballonlarini kontaktsiz identifikatsiya qilish, texnik sinov muddatlari va sertifikat holatini avtomatik
ravishda nazorat qilish imkonini beradi. Iqtisodiy baholash natijalari texnik nazorat vaqtining qisqarishi, mehnat sarfi
va ekspluatatsion xarajatlarning kamayishini tasdiqladi hamda ushbu tizimni joriy etish iqtisodiy jihatdan samarali va
maqsadga muvofiq ekanligini ko‘rsatdi.
References
Zulpukarova G.A., Mirzayev B.N. Gaz ballonli avtomobillarni texnik xizmat jarayonining texnik nazorati. Journal of
Transport, 2025, Vol. 2, Issue 1, pp. 64–67.
UNECE Regulation No. 110. Uniform provisions concerning the approval of vehicles using compressed natural gas
(CNG).
ISO 11439:2013. Gas cylinders — High pressure cylinders for the on-board storage of natural gas as a fuel for
automotive vehicles.
ISO 15500. Road vehicles — Compressed natural gas (CNG) fuel system components.
Shishkov V.A., Yerokhov V.I. Gazoballonnoe oborudovanie avtomobiley. Moscow: Mashinostroenie Publ., 2017, 240 p.
Pevnev N.G. Safety assessment of gas-cylinder vehicles. Transport Safety Journal, 2018, Vol. 12, No. 3, pp. 45–52.
Sun P., Zhou R. RFID-based monitoring systems in vehicle maintenance. Sensors, 2021, Vol. 21, Issue 8, pp. 1–15.
Kim S., Lee J. Contactless inspection technologies for automotive safety systems. IEEE Access, 2020, Vol. 8, pp.
–112356.
Rovner G., Shen G. Automated inspection systems using RFID technology. Automation in Construction, 2019, Vol.
, pp. 56–65.
Zulpukarova G.A., Mirzayev B.N. Method and results of selecting radioelectronic transmissions. Development of
Science, 2025, Vol. 3, No. 1, pp. 145–151.
Danilecki K., Teremyakin P.G. Economic evaluation of vehicle inspection systems. Journal of Transport Economics,
, Vol. 46, Issue 3, pp. 215–228.
Chamberlain S., Modarres M. Reliability and cost analysis of automated inspection systems. Reliability Engineering &
System Safety, 2020, Vol. 195, Article 106115.
Samaras Z., Toumasatos Z. Cost–benefit analysis of vehicle safety systems. Energy Policy, 2018, Vol. 119, pp. 432–
Zhou Z., Chen X. Artificial intelligence in vehicle inspection systems. Applied Sciences, 2021, Vol. 11, Issue 14, Article
Zulpukarova G.A., Mirzayev B.N. Radiolokatsion uzatmalar yordamida gaz ballonli avtomobillar texnik ekspluatatsiyasini
nazorat qilish. Muhandislik va iqtisodiyot, 2024, No. 5, pp. 32–36.
Li Y., Wang H. Digital transformation of automotive maintenance systems. Sustainability, 2022, Vol. 14, Article 11289.
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