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KURUMSAL TEMİZLİK OPERASYONLARININ FLUTTER İLE GELİŞTİRİLMİŞ MOBİL UYGULAMADAN YÖNETİLMESİ: TEMİZLİK UYGULAMASI İLE VERİMLİLİĞİN MAKSİZİMİZE EDİLMESİ

Year 2024, Volume: 6 Issue: 3, 135 - 150, 26.10.2024
https://doi.org/10.47933/ijeir.1508477

Abstract

Bu çalışma, kurumsal işlemleri düzenlemek ve denetlemek için tasarlanmış bir mobil uygulamayı tanıtmaktadır. Uygulama, temizlik görevlerini yerine getiren çalışanlar ve denetleyiciler için sorunsuz koordinasyon sağlar. Üniversitemizde temizlikçiler, görevlerini kanıtlamak için kağıda işaretleme yapıyordu, ancak bu yöntemle temizlik süreleri ve detaylar izlenemiyordu. Bu sorunları çözmek amacıyla geliştirdiğimiz uygulama, temizlik görevlerinin izlenmesi için kurumsal dijital dönüşümde yeni bir yaklaşım sunmaktadır. Uygulama flutter dilinde programlanmış olup veri tabanı firebase üzerinden yapılmış olup, görev başlatma ve tamamlama sürelerinin kaydedilmesine olanak tanıyarak yöneticilere şeffaf bir genel bakış sağlar. Temizleyiciler, kullanıcı arabirimi ile görevleri erişir ve tamamlar. Yöneticiler ise yönetim arayüzü aracılığıyla temizleyicilerin faaliyetlerini izler, ilerlemeyi takip eder ve gün sonunda o günün raporunu oluşturur. Uygulamanın önemli bir özelliği, geçmiş verileri arşivleme yeteneğidir. Bu, yöneticilerin geçmiş kayıtlara erişebilmesini ve operasyonel eğilimler hakkında içgörüler elde etmesini sağlar. Ayrıca, raporların PDF formatında dışa aktarılabilmesi, erişilebilirlik ve paylaşım kolaylığı sunar. Üniversitemizin İdari ve Mali İşler Müdürlüğü'ne bağlı Temizlik Hizmetleri İzleme Birimi'nin verileri incelenerek uygulamanın değerlendirilmesi yapılmıştır. İncelenen veriler 280 günlük verilerdir ve 33587 adet veriden oluşmaktadır. Uygulama, görev başlatma ve tamamlama sürelerini titiz bir şekilde kaydederek yöneticilere analiz ve değerlendirme için şeffaf bir genel bakış sunar. Temizleyiciler, kullanıcı arabirimi ile etkileşime geçerek görevleri erişir ve tamamlar. Yöneticiler ise yönetim arayüzü aracılığıyla temizleyicilerin faaliyetlerini izler, ilerlemeyi takip eder ve genel operasyonları yönetir. Üniversitemizin İdari ve Mali İşler Müdürlüğü'ne bağlı Temizlik Hizmetleri İzleme Birimi'nin verilerine göre, uygulama sayesinde yapılan işlerdeki verimlilik 23% arttığı, yapılan işin süresinde ise %28 azalma tespit edilmiştir.Bu sebep ile temizlikçiler artık o gün fazladan bir işe daha gidebilmiştir. Bu, uygulamanın işlevselliği artırdığını ve operasyonları daha verimli hale getirdiğini göstermektedir.

References

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  • [8] Riyadi, S., & Cahyono, T. (2021, February). Information system for providing food services based on mobile application using flutter framework. In 4th International Conference on Sustainable Innovation 2020–Technology, Engineering and Agriculture (ICoSITEA 2020) (pp. 164-169). Atlantis Press.
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  • [10] Bhagat, S. A. (2022). Review on Mobile Application Development Based on Flutter Platform. International Journal for Research in Applied Science and Engineering Technology, 10(1), 803-809.
  • [11] Hjort, E. (2020). Evaluation of React Native and Flutter for cross-platform mobile application development.
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  • [13] Gonsalves, M. (2019). Evaluating the mobile development frameworks Apache Cordova and Flutter and their impact on the development process and application characteristics.
  • [14] Stošović, S., Stefanović, D., Bogdanović, M., & Vukotić, N. (2022). THE USE OF THE FLUTTER FRAMEWORK IN THE DEVELOPMENT PROCESS OF HYBRID MOBILE APPLICATIONS. KNOWLEDGE-International Journal, 54(3), 477-483.
  • [15] Cheon, Y., & Chavez, C. (2021, December). Converting Android native apps to Flutter cross-platform apps. In 2021 International conference on computational science and computational intelligence (CSCI) (pp. 1898- 1904). IEEE.
  • [16] TĂBUȘCĂ, A., Coculescu, C., & Pîrnău, M. (2022). FLUTTER TECHNOLOGY AND MOBILE SOFTWARE APPLICATIONS. Journal of Information Systems & Operations Management, 16(2).
  • [17] Johnson, E., & Wang, G. (2023). Flutter Framework Mobile Application Development of Gamified Automotive Reseller Team Management. Jurnal Info Sains: Informatika dan Sains, 13(03), 1125-1131.
  • [18] Pop, M. D., & Stoia, A. R. (2021, August). Improving the Tourists Experiences: Application of Firebase and Flutter Technologies in Mobile Applications Development Process. In 2021 International Conference Engineering Technologies and Computer Science (EnT) (pp. 146-151). IEEE.
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  • [22] Wiriasto, G. W., Aji, R. W. S., & Budiman, D. F. (2020, October). Design and development of attendance system application using android-based flutter. In 2020 Third International Conference on Vocational Education and Electrical Engineering (ICVEE) (pp. 1-6). IEEE.
  • [23] Huynh, T. (2021). A flashcard mobile application development with Flutter.
  • [24] Hamzah, N. A. B. A., Saad, M. R. B. A., Ismail, W. Z. B. W., Bhunaeswari, T., & Abd Rahman, N. Z. B. (2019). Development of A Prototype of An IoT Based Smart Home with Security System Flutter Mobile. Journal of Engineering Technology and Applied Physics, 1(2), 34-41.
  • [25] Krisnada, F. E., & Tanone, R. (2019). Aplikasi Penjualan Tiket Kelas Pelatihan Berbasis Mobile menggunakan Flutter. Jurnal Teknik Informatika Dan Sistem Informasi, 5(3).
  • [26] Nedyak A, Rudzeyt O, Zainetdinov A, Ragulin P, "Mobile Cross-platform App Development Tools", 2020.
  • [27] Abd Rahman, N., Syamil, F. I. M. R., & bin Rodzman, S. B. (2020). Development of mobile application for Malay translated hadith search engine. Indonesian Journal of Electrical Engineering and Computer Science, 20(2), 932-938.
  • [28] Qadir, A. M., & Cooper, P. (2020, June). GPS-based mobile cross-platform Cargo tracking system with web-based application. In 2020 8th International Symposium on Digital Forensics and Security (ISDFS) (pp. 1-7). IEEE.
  • [29] Desmond, A. (2020). Farouk (2020). Multimodal Biometric Authentication For a Computer-Based Test (CBT) Application. IRJCS:: International Research Journal of Computer Science, Volume VII, Issue VII, 179-196.
  • [30] Gałan, D., Fisz, K., & Kopniak, P. (2021). A multi-criteria comparison of mobile applications built with the use of Android and Flutter Software Development Kits. Journal of Computer Sciences Institute, 19, 107-113.
  • [31] Wibowo, A., Delima, R., & Rachmat, C. A. (2021, February). Designing and Developing an Agricultural Product Sales Application Catalog with a Hybrid Application Development Framework. In IOP Conference Series: Materials Science and Engineering (Vol. 1077, No. 1, p. 012050). IOP Publishing.
  • [32] Kleber, G., Alves, D., de Paiva, J., Diógenes, D., Valentim, R., & Medeiros, A. (2021). SOS Syphilis: smartphone application for the mapping of syphilis attention networks. Procedia Computer Science, 181, 434- 441.
  • [33] Sahu, S. K., Sharma, M. L., & Tripathi, K. C. (2021). COVID-19 india tracker application using flutter. Int J Mod Trends Sci Technol, 7(1), 10-15.
  • [34] Liaqat, A., Ilyas, S., & Mushtaq, G. (2023). Distributed Computation Offloading of an application from mobile/IoT device to cloud. arXiv preprint arXiv:2302.02481.
  • [35] Kanivets, O. V., Kanivets, I. M., Gorda, T. M., Gorbenko, O. V., & Kelemesh, A. O. (2023, March). Using a mobile application to teach students to measure with a micrometer during remote laboratory work. In CTE Workshop Proceedings (Vol. 10, pp. 294-314).
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  • [37] Zhang, X., Li, M., Hilton, A., Pal, A., Dey, S., & Debroy, S. (2022, August). End-to-end latency optimization of multi-view 3D reconstruction for disaster response. In 2022 10th IEEE International Conference on Mobile Cloud Computing, Services, and Engineering (MobileCloud) (pp. 17-24). IEEE.
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MANAGING CORPORATE CLEANING OPERATIONS WITH A FLUTTER-DEVELOPED MOBILE APP: MAXIMIZING EFFICIENCY WITH THE CLEANER APP

Year 2024, Volume: 6 Issue: 3, 135 - 150, 26.10.2024
https://doi.org/10.47933/ijeir.1508477

Abstract

This study introduces a mobile application designed to streamline and supervise institutional operations. The application facilitates seamless coordination for cleaning staff and supervisors. At our university, cleaners used to mark their tasks on paper to prove completion, but this method did not allow for tracking cleaning durations and details. To address these issues, we developed an application that offers a new approach to institutional digital transformation for monitoring cleaning tasks. The application is programmed in Flutter, with a Firebase database, and allows for the recording of task start and completion times, providing managers with a transparent overview. Cleaners access and complete tasks via the user interface, while managers monitor activities, track progress, and generate daily reports through the management interface. A key feature of the application is its ability to archive historical data, allowing managers to access past records and gain insights into operational trends. Additionally, the capability to export reports in PDF format offers accessibility and ease of sharing. The evaluation of the application was conducted by examining data from the Cleaning Services Monitoring Unit under the University's Administrative and Financial Affairs Department. The examined data comprises 280 days and includes 33,587 records. By meticulously recording task start and completion times, the application provides managers with a transparent overview for analysis and evaluation. According to the data from the Cleaning Services Monitoring Unit, the application has increased efficiency by 23% and reduced task completion times by 28%. As a result, cleaners have been able to complete an additional task each day. This demonstrates that the application enhances functionality and makes operations more efficient.

References

  • [1] Tashildar, A., Shah, N., Gala, R., Giri, T., & Chavhan, P. (2020). Application development using flutter. International Research Journal of Modernization in Engineering Technology and Science, 2(8), 1262-1266.
  • [2] Kuzmin, N., Ignatiev, K., & Grafov, D. (2020). Experience of developing a mobile application using flutter. In Information Science and Applications: ICISA 2019 (pp. 571-575). Springer Singapore.
  • [3] Wu, W. (2018). React Native vs Flutter, Cross-platforms mobile application frameworks.
  • [4] Dagne, L. (2019). Flutter for cross-platform App and SDK development.
  • [5] Boukhary, S., & Colmenares, E. (2019, December). A clean approach to flutter development through the flutter clean architecture package. In 2019 international conference on computational science and computational intelligence (CSCI) (pp. 1115-1120). IEEE.
  • [6] Krisnada, F. E., & Tanone, R. (2019). Aplikasi Penjualan Tiket Kelas Pelatihan Berbasis Mobile menggunakan Flutter. Jurnal Teknik Informatika Dan Sistem Informasi, 5(3).
  • [7] Mamoun, R., Nasor, M., & Abulikailik, S. H. (2021, February). Design and development of mobile healthcare application prototype using flutter. In 2020 International Conference on Computer, Control, Electrical, and Electronics Engineering (ICCCEEE) (pp. 1-6). IEEE.
  • [8] Riyadi, S., & Cahyono, T. (2021, February). Information system for providing food services based on mobile application using flutter framework. In 4th International Conference on Sustainable Innovation 2020–Technology, Engineering and Agriculture (ICoSITEA 2020) (pp. 164-169). Atlantis Press.
  • [9] Olsson, M. (2020). A Comparison of Performance and Looks Between Flutter and Native Applications: When to prefer Flutter over native in mobile application development.
  • [10] Bhagat, S. A. (2022). Review on Mobile Application Development Based on Flutter Platform. International Journal for Research in Applied Science and Engineering Technology, 10(1), 803-809.
  • [11] Hjort, E. (2020). Evaluation of React Native and Flutter for cross-platform mobile application development.
  • [12] Işıtan, M., & Koklu, M. (2020). Comparison and evaluation of cross platform mobile application development tools. International Journal of Applied Mathematics Electronics and Computers, 8(4), 273-281.
  • [13] Gonsalves, M. (2019). Evaluating the mobile development frameworks Apache Cordova and Flutter and their impact on the development process and application characteristics.
  • [14] Stošović, S., Stefanović, D., Bogdanović, M., & Vukotić, N. (2022). THE USE OF THE FLUTTER FRAMEWORK IN THE DEVELOPMENT PROCESS OF HYBRID MOBILE APPLICATIONS. KNOWLEDGE-International Journal, 54(3), 477-483.
  • [15] Cheon, Y., & Chavez, C. (2021, December). Converting Android native apps to Flutter cross-platform apps. In 2021 International conference on computational science and computational intelligence (CSCI) (pp. 1898- 1904). IEEE.
  • [16] TĂBUȘCĂ, A., Coculescu, C., & Pîrnău, M. (2022). FLUTTER TECHNOLOGY AND MOBILE SOFTWARE APPLICATIONS. Journal of Information Systems & Operations Management, 16(2).
  • [17] Johnson, E., & Wang, G. (2023). Flutter Framework Mobile Application Development of Gamified Automotive Reseller Team Management. Jurnal Info Sains: Informatika dan Sains, 13(03), 1125-1131.
  • [18] Pop, M. D., & Stoia, A. R. (2021, August). Improving the Tourists Experiences: Application of Firebase and Flutter Technologies in Mobile Applications Development Process. In 2021 International Conference Engineering Technologies and Computer Science (EnT) (pp. 146-151). IEEE.
  • [19] Allain, H. (2020). Improving productivity and reducing costs of mobile app development with Flutter and Backend-as-a-Service (Master's thesis).
  • [20] Gałan, D., Fisz, K., & Kopniak, P. (2021). A multi-criteria comparison of mobile applications built with the use of Android and Flutter Software Development Kits. Journal of Computer Sciences Institute, 19, 107-113.
  • [21] Aminuddin, R., Khan, N. A. M. N., Noor, M. H. M., Ismail, I., Isa, M. A. M., Elias, S. S. M., ... & Ilias, N. F. (2022, May). Istiqamah App: A Mobile Application for Sunnah and Hadith reminder using Flutter framework. In 2022 IEEE 18th International Colloquium on Signal Processing & Applications (CSPA) (pp. 237-242). IEEE.
  • [22] Wiriasto, G. W., Aji, R. W. S., & Budiman, D. F. (2020, October). Design and development of attendance system application using android-based flutter. In 2020 Third International Conference on Vocational Education and Electrical Engineering (ICVEE) (pp. 1-6). IEEE.
  • [23] Huynh, T. (2021). A flashcard mobile application development with Flutter.
  • [24] Hamzah, N. A. B. A., Saad, M. R. B. A., Ismail, W. Z. B. W., Bhunaeswari, T., & Abd Rahman, N. Z. B. (2019). Development of A Prototype of An IoT Based Smart Home with Security System Flutter Mobile. Journal of Engineering Technology and Applied Physics, 1(2), 34-41.
  • [25] Krisnada, F. E., & Tanone, R. (2019). Aplikasi Penjualan Tiket Kelas Pelatihan Berbasis Mobile menggunakan Flutter. Jurnal Teknik Informatika Dan Sistem Informasi, 5(3).
  • [26] Nedyak A, Rudzeyt O, Zainetdinov A, Ragulin P, "Mobile Cross-platform App Development Tools", 2020.
  • [27] Abd Rahman, N., Syamil, F. I. M. R., & bin Rodzman, S. B. (2020). Development of mobile application for Malay translated hadith search engine. Indonesian Journal of Electrical Engineering and Computer Science, 20(2), 932-938.
  • [28] Qadir, A. M., & Cooper, P. (2020, June). GPS-based mobile cross-platform Cargo tracking system with web-based application. In 2020 8th International Symposium on Digital Forensics and Security (ISDFS) (pp. 1-7). IEEE.
  • [29] Desmond, A. (2020). Farouk (2020). Multimodal Biometric Authentication For a Computer-Based Test (CBT) Application. IRJCS:: International Research Journal of Computer Science, Volume VII, Issue VII, 179-196.
  • [30] Gałan, D., Fisz, K., & Kopniak, P. (2021). A multi-criteria comparison of mobile applications built with the use of Android and Flutter Software Development Kits. Journal of Computer Sciences Institute, 19, 107-113.
  • [31] Wibowo, A., Delima, R., & Rachmat, C. A. (2021, February). Designing and Developing an Agricultural Product Sales Application Catalog with a Hybrid Application Development Framework. In IOP Conference Series: Materials Science and Engineering (Vol. 1077, No. 1, p. 012050). IOP Publishing.
  • [32] Kleber, G., Alves, D., de Paiva, J., Diógenes, D., Valentim, R., & Medeiros, A. (2021). SOS Syphilis: smartphone application for the mapping of syphilis attention networks. Procedia Computer Science, 181, 434- 441.
  • [33] Sahu, S. K., Sharma, M. L., & Tripathi, K. C. (2021). COVID-19 india tracker application using flutter. Int J Mod Trends Sci Technol, 7(1), 10-15.
  • [34] Liaqat, A., Ilyas, S., & Mushtaq, G. (2023). Distributed Computation Offloading of an application from mobile/IoT device to cloud. arXiv preprint arXiv:2302.02481.
  • [35] Kanivets, O. V., Kanivets, I. M., Gorda, T. M., Gorbenko, O. V., & Kelemesh, A. O. (2023, March). Using a mobile application to teach students to measure with a micrometer during remote laboratory work. In CTE Workshop Proceedings (Vol. 10, pp. 294-314).
  • [36] Bi, J., Zhang, K., Yuan, H., & Zhang, J. (2022). Energy-efficient computation offloading for static and dynamic applications in hybrid mobile edge cloud system. IEEE Transactions on Sustainable Computing, 8(2), 232-244.
  • [37] Zhang, X., Li, M., Hilton, A., Pal, A., Dey, S., & Debroy, S. (2022, August). End-to-end latency optimization of multi-view 3D reconstruction for disaster response. In 2022 10th IEEE International Conference on Mobile Cloud Computing, Services, and Engineering (MobileCloud) (pp. 17-24). IEEE.
  • [38] Oh, S., Lee, M., Lee, H., Bertino, E., & Kim, H. (2023, April). Appsniffer: Towards robust mobile app fingerprinting against VPN. In Proceedings of the ACM Web Conference 2023 (pp. 2318-2328).
  • [39] Zaitseva, E., Hovorushchenko, T., Pavlova, O., & Voichur, Y. (2023). Identifying the Mutual Correlations and Evaluating the Weights of Factors and Consequences of Mobile Application Insecurity. Systems, 11(5), 242.
  • [40] Rezazadeh, A., & Lutfiyya, H. (2023). Multi-microservice migration modelling, comparison, and potential in 5G/6G mobile edge computing: A non-average parameter values approach. IEEE Access.
  • [41] Lim, G., Kang, D., Ham, M., & Eom, Y. I. (2023, July). SWAM: Revisiting Swap and OOMK for Improving Application Responsiveness on Mobile Devices. In Proceedings of the 29th Annual International Conference on Mobile Computing and Networking (pp. 1-15).
  • [42] Zhang, C., Han, D., Qiao, Y., Kim, J. U., Bae, S. H., Lee, S., & Hong, C. S. (2023). Faster segment anything: Towards lightweight sam for mobile applications. arXiv preprint arXiv:2306.14289.
  • [43] Huang, Y., Wang, J., Liu, Z., Wang, Y., Wang, S., Chen, C., ... & Wang, Q. (2024, February). Crashtranslator: Automatically reproducing mobile application crashes directly from stack trace. In Proceedings of the 46th IEEE/ACM International Conference on Software Engineering (pp. 1-13).
  • [44] Booch, G., Rumbaugh, J., & Jacobsen, I. (1997). UML: unified modeling language. Versão.
There are 44 citations in total.

Details

Primary Language English
Subjects Information Systems User Experience Design and Development
Journal Section Research Articles
Authors

Cem Özkurt 0000-0002-1251-7715

Early Pub Date October 26, 2024
Publication Date October 26, 2024
Submission Date July 1, 2024
Acceptance Date August 11, 2024
Published in Issue Year 2024 Volume: 6 Issue: 3

Cite

APA Özkurt, C. (2024). MANAGING CORPORATE CLEANING OPERATIONS WITH A FLUTTER-DEVELOPED MOBILE APP: MAXIMIZING EFFICIENCY WITH THE CLEANER APP. International Journal of Engineering and Innovative Research, 6(3), 135-150. https://doi.org/10.47933/ijeir.1508477

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