REACT ILOVALARI SAMARADORLIGINI OPTIMALLASHTIRISH USULLARI VA MATEMATIK TA’MINOTI

Go‘zal Gulmirzaeva; Dauranbek Joldasbaev; Jaloliddin Rajabov; Ajiniyaz Umirbayev

Авторы

Go‘zal Gulmirzaeva Muhammad al-Xorazmiy nomidagi Toshkent Axborot Texnologiyalari Universiteti
Dauranbek Joldasbaev Muhammad al-Xorazmiy nomidagi Toshkent Axborot Texnologiyalari Universiteti
Jaloliddin Rajabov Berdaq nomidagi Qoraqalpoq davlat universiteti
Ajiniyaz Umirbayev Berdaq nomidagi Qoraqalpoq davlat universiteti

Ключевые слова:

React, web ilova samaradorligi, matematik modellashtirish, rendering jarayoni, front-end arxitektura, samaradorlik tahlili

Аннотация

Maqolada React asosida ishlab chiqilgan web‑ilovalarning samaradorligini oshirishga qaratilgan usullar va ularning matematik ta’minoti tahlil qilinadi. Zamonaviy web-interfeyslar tezkorlik, kam resurs talab qilishi va yuqori foydalanuvchanlik talablarini qondirishi zarur. Shu munosabat bilan, maqolada web‑ilovaning yuklanish vaqti, xotira sarfi va qayta renderlar soniga ta’sir etuvchi omillar asosida bir nechta matematik modellar taklif etilgan. Xususan, memoizatsiya va lazy loading kabi texnik usullarning amaliy ta’siri hisoblab chiqilgan va integral samaradorlik indeksi (E) orqali baholangan. Tadqiqot davomida real kod fragmentlari va optimallashtirilgan arxitektura variantlari asosida eksperimentlar o‘tkazildi. Hisoblash natijalari taklif etilgan modellarning ishonchli ekanini tasdiqladi hamda React ilovalarini samaradorlik jihatdan baholash va takomillashtirish uchun universal yechimlar ishlab chiqish imkonini beradi.

Библиографические ссылки

Hassan, M. A., Jamshidi, M. (Behdad), Manh, B. D., Chu, N. H., Nguyen, C.-H., Hieu, N. Q., Nguyen, C. T., Hoang, D. T., Nguyen, D. N., Van Huynh, N., Alsheikh, M. A., & Dutkiewicz, E. (2025). Enabling technologies for Web 3.0: A comprehensive survey. Computer Networks, 264, 111242. doi: 10.1016/j.comnet.2025.111242

‘Web 2.0 vs. Web 3.0: The Evolution of the Internet’, BairesDev. / [Elektron manba] https://www.bairesdev.com/blog/web-2-vs-web-3/ (murojaat sanasi: 15.07.2025)

Mesbah, A., & van Deursen, A. (2008). A component- and push-based architectural style for ajax applications. Journal of Systems and Software, 81(12), 2194–2209. doi: 10.1016/j.jss.2008.04.005

CACM Staff. (2016). React. Communications of the ACM, 59(12), 56–62. doi: 10.1145/2980991

Lei, Z., Zhou, H., Hu, W., & Liu, G.-P. (2022). Toward an international platform: A web-based multi-language system for remote and virtual laboratories using react framework. Heliyon, 8(10), e10780. doi: 10.1016/j.heliyon.2022.e10780

Diniz-Junior, R. N. V., Figueiredo, C. C. L., De S.Russo, G., Bahiense-Junior, M. R. G., Arbex, M. V. L., Dos Santos, L. M., Da Rocha, R. F., Bezerra, R. R., & Giuntini, F. T. (2022). Evaluating the performance of web rendering technologies based on JavaScript: Angular, React, and Vue. In 2022 XVLIII Latin American Computer Conference (CLEI) (pp. 1–9). 2022 XVLIII Latin American Computer Conference (CLEI). IEEE. doi: 10.1109/clei56649.2022.9959901

Kaushalya, T., & Perera, I. (2021). Framework to Migrate AngularJS Based Legacy Web Application to React Component Architecture. In 2021 Moratuwa Engineering Research Conference (MERCon) (pp. 693–698). 2021 Moratuwa Engineering Research Conference (MERCon). IEEE. doi: 10.1109/mercon52712.2021.9525659

Borze, A., Poszet, O., Cuc, A.-M., & Vari-Kakas, S. (2025). Comparative Study Between React and Svelte: Performance and Usability. In 2025 18th International Conference on Engineering of Modern Electric Systems (EMES) (pp. 1–4). 2025 18th International Conference on Engineering of Modern Electric Systems (EMES). IEEE. doi: 10.1109/emes65692.2025.11045600

Gackenheimer, C. (2015). Introduction to React. Apress. doi: 10.1007/978-1-4842-1245-5

Ferreira, F., Borges, H. S., & Valente, M. T. (2024). Refactoring react-based Web apps. Journal of Systems and Software, 215, 112105. doi: 10.1016/j.jss.2024.112105

Kolomoyets, M., & Kynash, Y. (2023). Modern approaches to interact Smart-Contracts in React.js development with ThirdWeb framework. In 2023 IEEE 18th International Conference on Computer Science and Information Technologies (CSIT). 2023 IEEE 18th International Conference on Computer Science and Information Technologies (CSIT). IEEE. doi: 10.1109/csit61576.2023.10324190

‘Usage Statistics and Market Share of React for Websites, July 2025’ / [Elektron manba] https://w3techs.com/technologies/details/js-react (murojaat sanasi: 20.07.2025)

eSparkBiz, ‘45+ Effective React Statistics, Facts & Insights for 2025’, eSparkBiz Technologies Pvt Ltd. [Elektron manba] https://www.esparkinfo.com/software-development/technologies/reactjs/statistics (murojaat sanasi: 20.07.2025)

‘React Usage Statistics’. / [Elektron manba] https://trends.builtwith.com/javascript/React (murojaat sanasi: 20.07.2025)

Yash Jani. (2020). The Critical Importance of React Performance Optimization: Strategies for Success. Unpublished. doi: 10.13140/RG.2.2.31470.63048

‘React Optimization Techniques to Help You Write More Performant Code’, freeCodeCamp.org. / [Elektron manba] https://www.freecodecamp.org/news/react-performance-optimization-techniques/ (murojaat sanasi: 20.07.2025)

Yerokhin, A., & Kameniev, D. (2025). Optimizing re-rendering in web applications: problem analysis and a React-based solution. Management Information System and Devises, 184, 90–99. doi: 10.30837/0135-1710.2025.184.090

Karka, N. R. (2025). STATE MANAGEMENT IN LARGE-SCALE REACT APPLICATIONS: A COMPREHENSIVE ANALYSIS. INTERNATIONAL JOURNAL OF ADVANCED RESEARCH IN ENGINEERING AND TECHNOLOGY, 16(2), 108–132. doi: 10.34218/ijaret_16_02_007

Chen, K. (2025). Improving Front-end Performance through Modular Rendering and Adaptive Hydration (MRAH) in React Applications (Version 1). arXiv. doi: 10.48550/ARXIV.2504.03884