Use of Wireless Technologies in the Automation of Technological Processes
Abstract
Necessary conditions for the system of communication networks in the management of technological processes effectively support hybrid in process networks and traffic, durability, reliability, security and scalability technological management is important in the industrial environment. To develop an industrial-strength wireless network that can work hard process automation requirements, network restrictions is the design that includes the hardware and software components used. to the system to achieve the required quality of service, a broad view of systems should be considered as a general network-based indicator and applications based on operation, interaction and cooperation formed on the basis of individual components. To reach the accepted network, various problems are solved. As part of this study, three specific issues were addressed: the problem of time synchronization distributed systems, closed-loop management of limited resources wireless network and transmission power monitoring. wireless field nodes are created. They solve a limited problem. That's it maximum use of available resources in the nodes of the distributed area is envisaged. Recent developments in wireless communication technologies that create new opportunities for wireless communication gas and communication with field equipment in many fields examples include processes in oil distribution and chemical refining. Wireless communications can help the above areas improve the plant and knowledge, measurements by getting filler where wired communication is not allowed, operations and devices can be attached to the technological automation system. Operational field communication network requirements active support for hybrid traffic, durability, reliability, in an industrial environment, it is necessary to take advantage of security and scalability. In addition, the organization of such a network at scale the fact that it does not have any strong network is a concern in this regard and creates several problems.
References
2. Бектурганова, З., & Jumamuratov, R. (2016). Методические особенности и характер формирования понятий по химии.
3. Kaipbergenov, A., & Jumamuratov, R. (2019). The methodology of teaching chemistry based on the use of computer programs.
4. Каипберганов, А., Косназаров, С., Нургалиева, М., Jumamuratov, R., & Жумамуратов, Р. (2018). АНАЛИЗ ПРОЦЕССА ПОЛУЧЕНИЯ ТРОНЫ МЕТОДОМ КАРБОНИЗАЦИИ СОДОВОГО РАСТВОРА УГЛЕКИСЛОТОЙ.
5. Aynazarova, S., & Jumamuratov, R. (2020). ЗНАЧЕНИЕ БИОЛОГИИ В ЖИЗНИ ЧЕЛОВЕКА.
6. Bekturganova, Z., Bektileyova, G., & Jumamuratov, R. (2017). ИСПОЛЬЗОВАНИЕ НОВЫХ ИНФОРМАЦИОННЫХ ТЕХНОЛОГИЙ В ОБУЧЕНИИ ХИМИИ.
7. Aynazarova, S., Embergenova, U., & Jumamuratov, R. (2021). KIMYONI O’QITISH VOSITALARI TIZIMI VA UNING DIDAKTIK IMKONIYATLARINI O’RGANISH.
8. Abdirazakov, I., & Jumamuratov, R. (2022). MAKTABDA KIMYO FANINI O’QITISHDA KOMPYUTER MODELLARINI QO’LLASH.
9. Kaipbergenov, A., Aynazarova, S., & Jumamuratov, R. (2022). XIMIYA SABAQLIĞIN OQITIWDA INFORMACIYALIQ TEXNOLOGIYALARINAN PAYDALANIW.
10. Bekturganova, Z., Tangirbergenova, R., & Jumamuratov, R. (2017). ТЕХНОЛОГИИ ОБУЧЕНИЯ НА УРОКАХ ХИМИИ.
11. Бектурганова, З., Жумамуратов, Р., & Султанов, Д. (2017). РЕКОМЕНДАЦИИ ПО РАЗРАБОТКЕ И ПРОВЕДЕНИЮ С МЕТОДОМ ПРОБЛЕМНОГО ОБУЧЕНИЯ НА УРОКАХ ХИМИИ.
12. O'TELBAYEVA Muhayyo Alisherovna. (2023). METHODOLOGY AND THEORY OF CHEMISTRY TEACHING IN SCHOOLS, METHODS AND PROCESSES OF THEIR STUDY. Journal of Experimental Studies, 2(2), 10–16. https://doi.org/10.5281/zenodo.7623700
13. O'TELBAYEVA Muhayyo Alisherovna. (2023). ANALYSIS OF PEDAGOGICAL AND PSYCHOLOGICAL METHODS AND APPROACHES. Pedagogical and Psychological Studies, 2(2), 12–16. https://doi.org/10.5281/zenodo.7624764
14. Yeshmuratova A. MINE BLASTING PROCESSES OPTIMIZATION STAGES OF DIGITAL TECHNOLOGY OF DETONATORS //Scienceweb academic papers collection. – 2023.
15. Utepbaeva G. et al. FOAM FLOTATION PROCESS, STAGES AND TECHNOLOGICAL PARAMETERS //Science and innovation. – 2023. – Т. 2. – №. A2. – С. 136-140.
16. Утемисов А. О., Юлдашова Х. Б. К. СИСТЕМЫ АВТОМАТИЧЕСКОГО УПРАВЛЕНИЯ //Universum: технические науки. – 2022. – №. 5-2 (98). – С. 45-47.
17. Tulepbergenovich K. B., Orazimbetovich U. A. Classification and analysis of computer programs for the physical preparation of athletes and expasure of prospects for their studies //European science review. – 2015. – №. 7-8. – С. 11-13.
18. Kaipbergenov A. T., Utemisov A. O., Yuldashova H. B. K. STEADY OF AUTOMATIC CONTROL SISTEMS //Academic research in educational sciences. – 2022. – Т. 3. – №. 6. – С. 918-921.
19. Orazimbetovich U. A. THE USE OF INFORMATION TECHNOLOGY IN THE FIELD OF PHYSICAL CULTURE AND SPORTS //European Journal of Research and Reflection in Educational Sciences Vol. – 2019. – Т. 7. – №. 2.
20. Djaksimuratov, K., O’razmatov, J., Yuldashev, S., Toshpulatov, D., & O’telbayev, A. (2021). Geological-Geochemical and Mineralogical Properties of Basalt Rocks of Karakalpakstan.
21. Djaksimuratov, K., O’razmatov, J., Mnajatdinov, D., & O’telbayev, A. (2021). PROPERTIES OF COAL, PROCESSES IN COAL MINING COMPANIES, METHODS OF COAL MINING IN THE WORLD.
22. Djaksimuratov, K., Toshev, O., O’razmatov, J., & O’telbayev, A. (2021). MEASURING AND CRUSHING THE STRENGTH OF ROCKS USE OF VARIOUS TYPES OF SURFACTANTS FOR GRINDING.
23. Djaksimuratov, K., Ravshanov, Z., O’razmatov, J., & O’telbayev, A. (2021). Comprehensive monitoring of surface deformation in underground mining, prevention of mining damage. Modern technologies and their role in mining.
24. Djaksimuratov, K., O’razmatov, J., Maulenov, N., & O’telbayev, A. (2021). FACTORS INFLUENCING THE CONDITIONS OF OPEN PIT MINING, ORE MASS AND DEFORMATION, PROCESSES THAT LEAD TO IMBALANCE DURING EXCAVATION.
25. Djaksimuratov, K., Jumabayeva, G., Maulenov, N., & Rametullayeva, M. (2022). Improving the Efficiency of Excavators Increasing the Efficiency of Temporary Ditch Excavator.
26. Djaksimuratov, K., Jumabayeva, G., Maulenov, N., & Rametullayeva, M. (2022). MONITORING THE CONDITION OF THE DEPOSIT IN MINING ENTERPRISES. MODERN METHODS OF DETERMINING THE LOCATION OF MINERALS.
27. Djaksimuratov, K., Joldasbayeva, A., Bayramova, M., Tolibayev, E., & Maulenov, N. (2022). TECHNOLOGICAL CLASSIFICATION OF UNDERGROUND EXCAVATION WORKS IN GEOTECHNICAL MONITORING SYSTEMS.
28. Djaksimuratov, K., Maulenov, N., Ametov, R., Rametullayeva, M., & Bayramova, M. (2022). MODERN TECHNICAL METHODS OF MONITORING LANDSLIDES IN OPEN MINES.
29. Joldasbayeva, A., Ametov, R., Embergenov, A., Maulenov, N., & Kulmuratova, A. (2022). Technology to prevent Methane or coal dust explosions in the mine.
30. Djaksimuratov, K., Maulenov, N., Rametullayeva, M., Kulmuratova, A., & Embergenov, A. (2022). Technology for Determining the Force of Impact on Buildings in the Vicinity during Blasting Operations in Mines.
31. Djaksimuratov, K., Jumabayeva, G., Maulenov, N., & Rametullayeva, M. (2022). CORROSION OF METALS AND FACTORS AFFECTING IT. METHODS OF PREVENTING CORROSION OF METALS.
32. Kulmuratova, A., Utepbaeva, G., Azizov, A., Yo’ldashova, H., & O’telbayev, A. (2022). AUTOMATION AND ROBOTIZATION OF UNDERGROUND MINES.
33. Ravshanov, Z., O’razmatov, J., Zaytova, M., Kulmuratova, A., & O’telbayev, A. (2022). Conveyor belt structure and mode of operation in mines.
34. Djaksimuratov, K., Maulenov, N., Joldasbayeva, A., O’razmatov, J., & O’telbayev, A. (2022). Model Of Stages of Determination of Strength of Dynamic Fracture of Rocks and Digital Technological Verification.
35. Djaksimuratov, K., Ravshanov, Z., Ergasheva, Z., O’razmatov, J., & O’telbayev, A. (2022). Underground mine mining systems and technological parameters of mine development.
36. Djaksimuratov, K., Maulenov, N., Joldasbayeva, A., O’razmatov, J., & O’telbayev, A. (2022). Methods of Determining the Effect of Temperature and Pressure on the Composition of Rocks.
37. Ravshanov, Z., Joldasbayeva, A., Bayramova, M., & O’telbayev, A. (2023). MINING TECHNOLOGICAL EQUIPMENT THAT DETERMINES THE SLOPE ANGLES OF THE MINE BY MEANS OF LASER BEAMS.
38. Yeshmuratova, A., Kulmuratova, A., Maulenov, N., & Otemisov, U. (2023). MINE BLASTING PROCESSES OPTIMIZATION STAGES OF DIGITAL TECHNOLOGY OF DETONATORS.
39. Ravshanov, Z., Joldasbayeva, A., Maulenov, N., & O’telbayev, A. (2023). Determination of mineral location coordinates in geotechnology and mining enterprises.
40. Djaksimuratov, K., Batirova, U., Otemisov, U., & Aytmuratov, S. (2023). STEPS FOR DETERMINING THE SLOPE ANGLE OF AN OPEN MINE.
41. Djaksimuratov, K., Batirova, U., Abdullaev, A., & Joldasbayeva, A. (2023). GATHERING COORDINATES OF THE GEOLOGICAL AND GEOTECHNICAL LOCATION OF THE MINE.
42. Ravshanov, Z., Joldasbayeva, A., Bayramova, M., & Madreymov, A. (2023). IN GEOLOGICAL AND GEOTECHNICAL PROCESSES IN THE MINE USE OF TECHNOLOGICAL SCANNING EQUIPMENT IN THE UNDERGROUND MINING METHOD.
43. Djaksimuratov, K., Jumabayeva, G., Maulenov, N., & Rametullayeva, M. (2022). Casting And Evaluation of Properties for an Aluminum Alloy Material and Optimizing the Quality Control Parameters.
44. Djaksimuratov, K., Jumabayeva, G., Batirova, U., & O’telbayev, A. (2023). GROUNDWATER CONTROL IN MINES
45. Abdiramanova, Z., Jumabayeva, G., Batirova, U., & O’telbayev, A. (2023). ACTIVITY OF TEBINBULAK IRON ORE MINING ENTERPRISES IN THE REPUBLIC OF KARAKALPAKSTAN.
46. Qurbonov.A.A, Djaksimuratov Karamatdin Mustapaevich, & O'telbayev Azizbek Alisher o'g'li. (2021). FACTORS INFLUENCING THE CONDITIONS OF OPEN PIT MINING, ORE MASS AND DEFORMATION. PROCESSES THAT LEAD TO IMBALANCE DURING EXCAVATION. Eurasian Journal of Academic Research, 1(6), 45–49. https://doi.org/10.5281/zenodo.5500210
47. Oʻtelbayev Azizbek Alisher oʻgʻli. (2022). STRENGTH PROPERTIES OF ROCKS AND FACTORS INFLUENCING THEM AND THE PROCESS OF CHANGING THE PROPERTIES OF ROCKS. https://doi.org/10.5281/zenodo.6034442
48. Joldasbayeva, A., Maulenov, N., Mnajatdinov, D., & O’telbayev, A. (2023). PROCESSES OF DRAWING UP A VENTILATION SYSTEM SCHEME IN MINES.
49. Maulenov, N., Joldasbayeva, A., O’razmatov, J., & Mnajatdinov, D. (2023). TECHNOLOGICAL MODES OF MONITORING THE LOCATION OF MINES IN THE MINE AND THE SLOPE BORDER OF THE BLAST AREA.
50. Maulenov, N., Joldasbayeva, A., Amanbaev, N., & Mnajatdinov, D. (2023). PROCESSES OF BENEFICIATION AND EXTRACTION OF ORES IN IRON MINES (IN THE EXAMPLE OF TEBIN BULAK IRON MINE).
51. Maulenov, N., Joldasbayeva, A., Amanbaev, N., & Mnajatdinov, D. (2023). DETERMINATION OF VIBRATIONS CAUSED BY BLASTING PROCESSES IN OPEN PIT MINING AT MINING ENTERPRISES.
52. Maulenov, N., Joldasbayeva, A., O’razmatov, J., & Mnajatdinov, D. (2023). MOBILE TECHNOLOGICAL METHODS OF SAFETY MANAGEMENT IN SURFACE MINING.
53. Jumabayeva Guljahon Jaqsilikovna. (2023). CONTROL OF UNDERGROUND WATER IN THE MINE, DETECTION AND PREVENTION OF RISKS. ACADEMIC RESEARCH IN MODERN SCIENCE, 2(5), 159–166. https://doi.org/10.5281/zenodo.7648010
54. Утемисов А. О., Юлдашова Х. Б. К. СИСТЕМЫ АВТОМАТИЧЕСКОГО УПРАВЛЕНИЯ //Universum: технические науки. – 2022. – №. 5-2 (98). – С. 45-47.
55. Ametov Bayram Tursynbaevich, Uzakbaeva Akmaral Sulayman Kizi, & Allamuratov Guljamal Bisengali Kizi. (2022). Wind Mill and Solar Energy. Texas Journal of Engineering and Technology, 15, 178–179. Retrieved from https://zienjournals.com/index.php/tjet/article/view/3068
56. Tolibayev Y. et al. WITH CHARGE MELTING METHODS AND LOW METAL CONTENT IN THE FURNACE EFFECT OF ELECTRODES //Международная конференция академических наук. – 2023. – Т. 2. – №. 2. – С. 151-160.
57. Tolibayev Y. et al. ENVIRONMENTALLY FRIENDLY METHODS OF MINING METAL ORES //Академические исследования в современной науке. – 2023. – Т. 2. – №. 7. – С. 45-56.
58. Tolibayev Y. et al. METHODS OF ENSURING THE INCREASE IN THE QUALITY OF EXTRACTION OF NON-FERROUS, RARE, RARE EARTH METALS //Science and innovation in the education system. – 2023. – Т. 2. – №. 3. – С. 22-31.
59. Tolibayev Y. et al. DISADVANTAGES OF TECHNOLOGICAL AUTOMATION IN METAL MELTING //Development and innovations in science. – 2023. – Т. 2. – №. 2. – С. 136-146.
60. Tolibayev Y. et al. IN METALLURGICAL PROCESS MODELING SYSTEM HIGH TEMPERATURE COPPER REFINING PROCESSES //Models and methods in modern science. – 2023. – Т. 2. – №. 3. – С. 12-22.
61. Abdiramanova Zamira Uzaqbayevna. (2023). STUDIES ON THE CHEMICAL COMPOSITION AND PROPERTIES OF PORTLAND CEMENT. EURASIAN JOURNAL OF ACADEMIC RESEARCH, 3(3), 13–21. https://doi.org/10.5281/zenodo.7712581
62. Najimova Nursuliw Bazarbaevna. (2023). GENERAL INFORMATION ABOUT CHEMICAL PROCESSES AND REACTORS. EURASIAN JOURNAL OF ACADEMIC RESEARCH, 3(3), 28–37. https://doi.org/10.5281/zenodo.7773462
63. Ravshanov, Z., Ergasheva, Z., Maxsitaliyeva, L., Pardaev, S., & O’telbayev, A. (2022). 3D Technological System of Management of Geological Exploration Processes of Mining Enterprises.
64. Mirzabek qizi, A. M., & Orinbay qizi, K. S. (2023). Application of Modern Microprocessors in Technological Measuring Devices and Principles of their Use. Miasto Przyszłości, 32, 320–326. Retrieved from https://miastoprzyszlosci.com.pl/index.php/mp/article/view/1158
65. Kulmuratova Aliya Janabay qizi. (2023). Automation Technique Design Classification of Technological Objects. International Journal of Scientific Trends, 2(2), 128–136. Retrieved from https://scientifictrends.org/index.php/ijst/article/view/66
66. Elmurodovich T. O. et al. Measuring and crushing the strength of rocks use of various types of surfactants for grinding //ACADEMICIA: An International Multidisciplinary Research Journal. – 2021. – Т. 11. – №. 10. – С. 557-561.
67. Djaksimuratov K. Comprehensive monitoring of surface deformation in underground mining, prevention of mining damage. Modern technologies and their role in mining //Scienceweb academic papers collection. – 2021.
68. Mustapaevich D. K. et al. FACTORS INFLUENCING THE CONDITIONS OF OPEN PIT MINING, ORE MASS AND DEFORMATION, PROCESSES THAT LEAD TO IMBALANCE DURING EXCAVATION //Galaxy International Interdisciplinary Research Journal. – 2021. – Т. 9. – №. 10. – С. 648-650.
69. Muxtar o’g’li A. R. et al. Technology to prevent Methane or coal dust explosions in the mine //The Peerian Journal. – 2022. – Т. 10. – С. 22-32.
70. Axmet o’g’li M. A. et al. IN GEOLOGICAL AND GEOTECHNICAL PROCESSES IN THE MINE USE OF TECHNOLOGICAL SCANNING EQUIPMENT IN THE UNDERGROUND MINING METHOD //Intent Research Scientific Journal. – 2023. – Т. 2. – №. 1. – С. 20-27.
71. Maulenov N. et al. PROCESSES OF DRAWING UP A VENTILATION SYSTEM SCHEME IN MINES //Академические исследования в современной науке. – 2023. – Т. 2. – №. 4. – С. 161-166.
72. Maulenov N. et al. TECHNOLOGICAL MODES OF MONITORING THE LOCATION OF MINES IN THE MINE AND THE SLOPE BORDER OF THE BLAST AREA //Development and innovations in science. – 2023. – Т. 2. – №. 2. – С. 27-32.
73. Jumabayeva Guljahon Jaqsilikovna. (2023). CONTROL OF UNDERGROUND WATER IN THE MINE, DETECTION AND PREVENTION OF RISKS. ACADEMIC RESEARCH IN MODERN SCIENCE, 2(5), 159–166. https://doi.org/10.5281/zenodo.7648010
74. Нажимова Н. Б. и др. ВЛИЯНИЕ ИНФОРМАЦИОННЫХ И КОММУНИКАЦИОННЫХ ТЕХНОЛОГИЙ И ЛАБОРАТОРНОЙ МОДЕЛИ ПРИ ОБУЧЕНИИ ХИМИИ //ЛУЧШАЯ ИССЛЕДОВАТЕЛЬСКАЯ РАБОТА 2021. – 2021. – С. 416-420.
75. Нажимова Н. Б. и др. ҚОРАҚАЛПОҒИСТОН ФОСФОРИТЛАРИ ВА ГЛАУКОНИТЛАРИ ТАВСИФИ ҲАМДА УЛАРНИНГ ХУСУСИЯТЛАРИ //Oriental renaissance: Innovative, educational, natural and social sciences. – 2022. – Т. 2. – №. 12. – С. 186-190.
76. Abdiramanova, Z. (2023). STUDIES ON THE CHEMICAL COMPOSITION AND PROPERTIES OF PORTLAND CEMENT.
77. Jumabayeva , G. . (2023). PLANNING AND MINE DESIGN IN OPEN-PIT MINING PROCESSES AT MINING ENTERPRISES. Евразийский журнал академических исследований, 3(3 Part 2), 135–143. извлечено от https://in-academy.uz/index.php/ejar/article/view/11147
78. Kaipbergenov, B., & Utemisov, A. (2015). Classification and analysis of computer programs for the physical preparation of athletes and expasure of prospects for their studies.
79. Utemisov, A., & Kaipbergenov, B. (2015). ОТДЕЛЬНЫЕ ВОПРОСЫ МОДЕЛИРОВАНИЯ И ДИАГНОСТИКИ ФИЗИЧЕСКИХ НАГРУЗОК У ЗАНИМАЮЩИХСЯ СПОРТОМ (С ПРИМЕНЕНИЕМ КОМПЬЮТЕРНЫХ ТЕХНОЛОГИЙ).
80. Utemisov, A. (2017). ЭЛЕКТРОН ДАРСЛИК ЗАМОНАВИЙ ЎҚУВ ЖАРАЁНИНИНГ ЭНГ АСОСИЙ ЭЛЕМЕНТИ.
81. Ильясов, А., & Utemisov, A. (2018). ИННОВАЦИОН ТЕХНОЛОГИЯЛАР АСОСИДА ТАЪЛИМНИ ТАШКИЛ ЭТИШ ШАКЛЛАРИ ВА ТУРЛАРИ.
82. Utemisov, A. (2019). MODERN INFORMATION TECHNOLOGIES IN THE TRAINING OF SPECIALISTS IN PHYSICAL CULTURE AND SPORTS.
83. Нажимова Н. Б. ИССЛЕДОВАНИЕ ТЕРМИЧЕСКИХ СВОЙСТВ СЫРЬЯ АСФАЛЬТОБЕТОННЫХ СМЕСЕЙ //ПРОРЫВНЫЕ НАУЧНЫЕ ИССЛЕДОВАНИЯ: ПРОБЛЕМЫ, ЗАКОНОМЕРНОСТИ, ПЕРСПЕКТИВЫ. – 2020. – С. 30-32.
84. Ravshanov, Z., Ergasheva, Z., Maxsitaliyeva, L., Pardaev, S., & O’telbayev, A. (2022). 3D Technological System of Management of Geological Exploration Processes of Mining Enterprises.
85. Djaksimuratov, K., O’razmatov, J., Mnajatdinov, D., & O’telbayev, A. (2021). PROPERTIES OF COAL, PROCESSES IN COAL MINING COMPANIES, METHODS OF COAL MINING IN THE WORLD.
86. Ravshanov, Z. (2022). MINING PROCESSES OF DRILLING MACHINES. INFORMATION ABOUT THE TECHNOLOGICAL ALARM SYSTEM OF DRILLING MACHINES.
87. O’telbayev, A. (2022). STRENGTH PROPERTIES OF ROCKS AND FACTORS INFLUENCING THEM AND THE PROCESS OF CHANGING THE PROPERTIES OF ROCKS. «BEST INNOVATOR IN SCIENCE - 2022» Organized by Innovative Academy. https://doi.org/https://doi.org/10.5281/zenodo.6034441
88. Kulmuratova Aliya Janabay qizi, Utepbaeva Gulnaz Saken qizi, O‘telbayev Azizbek Alisher o‘g‘li, Azizov Azatbek Jumabek o‘g‘li, & Yo’ldashova Hilola Baxtiyor qizi. (2022). AUTOMATION AND ROBOTIZATION OF UNDERGROUND MINES. Open Access Repository, 9(10), 20–28. https://doi.org/10.17605/OSF.IO/UYH93
89. Ravshanov Zavqiddin Yahyo oʻgʻli, O‘telbayev Azizbek Alisher o‘g‘li, O‘razmatov Jonibek Ikromboy o‘g‘li, Zaytova Madina Nazarbay qizi, & Kulmuratova Aliya Janabay qizi. (2022). Conveyor belt structure and mode of operation in mines. Eurasian Journal of Engineering and Technology, 11, 72–80. Retrieved from https://geniusjournals.org/index.php/ejet/article/view/2360
90. Туремуратов Ш. Н., Нажимова Н. Б. Химические и физико-химические свойства карбонатных минералов плато Устюрт //Universum: химия и биология. – 2020. – №. 10-1 (76). – С. 61-63.
91. Кадирбаев А. Б. и др. ПРИМЕР ИСПОЛЬЗОВАНИЯ ТРАДИЦИОННЫХ ТЕХНОЛОГИЙ ПРОИЗВОДСТВА ИЗВЕСТИ //ПРИОРИТЕТНЫЕ НАПРАВЛЕНИЯ РАЗВИТИЯ НАУКИ И ОБРАЗОВАНИЯ. – 2021. – С. 15-17.
92. Ravshanov Zavqiddin Yahyo oʻgʻli, O‘telbayev Azizbek Alisher o‘g’li, Joldasbayeva Aysulu Baxitbay qizi, & Bayramova Minevvar Axmet qizi. (2023). MINING TECHNOLOGICAL EQUIPMENT THAT DETERMINES THE SLOPE ANGLES OF THE MINE BY MEANS OF LASER BEAMS. Neo Scientific Peer Reviewed Journal, 6, 17–23. Retrieved from https://neojournals.com/index.php/nspj/article/view/96
93. Нажимова Н. Б. и др. РОЛЬ МИНЕРАЛЬНОГО НАПОЛНИТЕЛЯ В АСФАЛЬТОВОЙ СМЕСИ //МОЛОДОЙ УЧЁНЫЙ. – 2021. – С. 15-18.
94. Ravshanov Zavqiddin Yahyo oʻgʻli, Joldasbayeva Aysulu Baxitbay qizi, Maulenov Nurlibek Axmet o’g’li, & O‘telbayev Azizbek Alisher o‘g’li. (2023). Determination of mineral location coordinates in geotechnology and mining enterprises. Global Scientific Review, 11, 8–14. Retrieved from http://scienticreview.com/index.php/gsr/article/view/134
95. Uteniyazov, A. K., Leyderman, A. Y., Gafurova, M. V., Juraev, K. N., & Dauletov, K. A. (2021). The effect of ultrasonic treatments on current transport processes in Al-Al2O3-p-CdTe-Mo structure. Advances in Materials Science and Engineering, 2021, 1-6.
96. Dauletov K. A. et al. A heat-resistant Schottky diode based on Ge/GaAs heterosystem //Poverkhnost. – 1999. – №. 3. – С. 60-62.
97. Boltovets, N. S., Basanets, V. V., Dauletov, K. A., Gavrilenko, V. V., Kholevchuk, V. V., Konakova, R. V., ... & Popov, V. P. (1998). editors: Guobang C., Steimle FW.
98. Dauletov K. A., Mitin V. F. The production technology of semiconductor epitaxial films. – 2011.
99. O‘telbayeva, M. ., & O‘telbayev, A. . (2023). EXPERIMENTAL WORKS BASED ON ADVANCED, PEDAGOGICAL-PSYCHOLOGICAL AND MODERN METHODS OF TEACHING CHEMISTRY AT SCHOOL. Евразийский журнал академических исследований, 3(3), 79–88. извлечено от https://in-academy.uz/index.php/ejar/article/view/11332