Empowering Sustainable Household Waste Management through Rubbin: App-Based Transactions using Google Maps API and QR Code Recognition

Authors

• H.A. Danang Rimbawa, The Republic of Indonesia Defense UniversityFollow
• Muhammad Abditya Arghanie, The Republic of Indonesia Defense UniversityFollow
• Muhammad Rey Renoult, The Republic of Indonesia Defense UniversityFollow
• Dea Dwi Ananda, The Republic of Indonesia Defense UniversityFollow

Abstract

The Digitization of environmentally friendly technology must be applied to advance smart cities. Waste management carried out conventionally often causes irregularities in the classification data collection, difficulties in accessing information related to garbage collection schedules, and a lack of transaction history information, which causes a decrease in the quality of waste collection. The development of functional application features is urgently needed as a container for proper waste management. The Rubbin App has been created, which implements Google Maps API for route optimization and waste mapping, QR code recognition using Enhanced Adaptive Median Filter, and private chat for clients and collectors as additional features. The purpose of designing this research is to overcome the impacts of climate change, significantly reducing gas emissions, by proposing a digital waste management system by providing iOS and Android multiplatform applications with attractive and easy-to-use UI/UX interfaces. The Rubbin application utilizes Google Maps API technology to enable waste tracking and route optimization while employing QR codes to streamline the transaction process between clients and collectors, ensuring efficient waste management operations. The Rubbin application results show a change in the community's waste management habits, forming a culture of caring for the environment.

Bahasa Abstract

Digitalisasi teknologi ramah lingkungan harus diterapkan untuk memajukan kota pintar. Pengelolaan sampah yang dilakukan secara konvensional sering kali menyebabkan ketidakteraturan dalam pengumpulan data klasifikasi, kesulitan dalam mengakses informasi terkait jadwal pengumpulan sampah, serta kurangnya informasi riwayat transaksi, yang semuanya menyebabkan penurunan kualitas pengumpulan sampah. Oleh karena itu, pengembangan fitur aplikasi yang fungsional sangat diperlukan sebagai wadah untuk pengelolaan sampah yang tepat. Aplikasi Rubbin telah dibuat, yang mengimplementasikan Google Maps API untuk optimasi rute dan pemetaan sampah, pengenalan kode QR menggunakan Enhanced Adaptive Median Filter, serta fitur chat pribadi untuk klien dan kolektor sebagai fitur tambahan. Tujuan dari perancangan penelitian ini adalah untuk mengatasi dampak perubahan iklim dan secara signifikan mengurangi emisi gas, dengan mengusulkan sistem pengelolaan sampah digital melalui penyediaan aplikasi multiplatform iOS dan Android dengan antarmuka UI/UX yang menarik dan mudah digunakan. Aplikasi Rubbin memanfaatkan teknologi Google Maps API untuk memungkinkan pelacakan sampah dan optimasi rute, serta menggunakan kode QR untuk menyederhanakan proses transaksi antara klien dan kolektor, sehingga memastikan operasi pengelolaan sampah yang efisien. Hasil penggunaan aplikasi Rubbin menunjukkan perubahan dalam kebiasaan pengelolaan sampah di masyarakat, membentuk budaya peduli lingkungan.

References

Abidin, J., Hasibuan, E. A., & Alwendi. (2022.). Pentingnya Kesadaran untuk Peduli untuk Menjaga dan Melestarikan Lingkungan. Jurnal Nauli, 1(3), 59-65.

Adam, B. (2017). React and react native. Packt Publishing Ltd.

Ang, T., Salem, M., Kamarol, M., Das, H. S., Nazari, M. A., & Prabaharan, N. (2022.). A Review of Hybrid Renewable Energy Systems and MPPT Methods.International Journal of Smart Grid-IJSMARTGRID. https://doi.org/10.20508/ijsmartgrid.v6i3.248.g243

Budi, P. R. (2020). Pengelolaan Sampah di Kota Bertipe Sedang: Studi Kasus di Kota Cirebon dan Kota Surakarta. Aspirasi: Jurnal Masalah-Masalah Sosial, 11(1), 1-16.

Czarniawska, B. (2002). A tale of three cities—or the glocalization of city management. Oxford: Oxford University Press.

Delgado, A., & Sosa, J. (2019). Mobile application design of geolocation to collect solid waste: A case study in Lima, Peru.International Conference on Electronics, Electrical Engineering and Computing (INTERCON) (pp. 1-4). IEEE.

Faudzi, N. A. M., & Zaaba, Z. (2018). Interactive and Usable Waste Management System: A Concept by My Intelligent Waste(MIB). International Conference on Promising Electronic Technologies (ICPET)(pp. 19-24). IEEE.

Horan, T. (2000). Digital places: building our city of bits. Washington DC: Urban Land Institute.

Huo, L., Zhu, J., & Singh, P. K. (2021). Research on QR image code recognition system based on artificial intelligence algorithm. Journal of Intelligent Systems, 30(1), 855-867.

Idris, A. M., Sasongko, N. A., & Kuntjoro, Y. D. (2022). Energy Conversion and Conservation Technology in Facing Net Zero-Emission Conditions and Supporting National Defense. Trends Renew Energy, 8(1), 49–66.

Krishnan, B., Arumugam, S., & Maddulety, K. K. (2020). Critical success factors for the digitalization of smart cities. International Journal of Technology Management & Sustainable Development, 19(1), 69-86.

Labib, S. (2017). Volunteer GIS (VGIS) based waste management: A conceptual design and use of web 2.0 for smart waste management in Dhaka City. Third International Conference on Research in Computational Intelligence and Communication Networks (ICRCICN) (pp. 137-141). IEEE.

Lee, U., Han, J., & Wang, M. (2017). Evaluation of landfill gas emissions from municipal solid waste landfills for the life-cycle analysis of waste-to-energy pathways. Journal of Cleaner Production, 166, 335-342.

Nugrahaeningtyas, E., Baek, C. Y., Jo, J. H., & Park, K. H. (2018). Greenhouse gas emission intensities for the livestock sector in Indonesia, based on the national specific data. Sustainability, 10(6), 1912.

Oliver, A., & Moritz, S. (2023). Education for sustainable development through research-based learning in an online environment. International Journal of Sustainability in Higher Education, 24(1), 118-140.

Qadir, A. M., & Cooper, P. (2020). GPS-based mobile cross-platform Cargo tracking system with web-based application. 8th International Symposium on Digital Forensics and Security (ISDFS). IEEE, pp.1-7.

Surya, W., Tolle, H., Kharisma, A., & Putra, A. (2019). Pengembangan Aplikasi Mobile Transaksi Bank Sampah Online Berbasis Android (Studi Kasus: Bank Sampah Malang). Jurnal Pengembangan Teknologi Informasi dan Ilmu Komputer, 3(7), 6548-6555.

Sutandi, S. (2020). Perbaikan Proses Bisnis Logistik Sampah di Kota Cirebon Menggunakan Metode Business Process Improvement (BPI). Jurnal Logistik Indonesia, 4(1), 64-73.

Widaningsih, S., & Suheri, A. (2021). Design of Waste Management System Using QR Code for Effective Management in Wastebank. Journal of Physics: Conference Series. IOP Publishing, p. 012066.

Recommended Citation

Rimbawa, H.A. Danang; Arghanie, Muhammad Abditya; Renoult, Muhammad Rey; and Ananda, Dea Dwi (2026) "Empowering Sustainable Household Waste Management through Rubbin: App-Based Transactions using Google Maps API and QR Code Recognition," Smart City: Vol. 4: Iss. 2, Article 11.
DOI: 10.56940/sc.v4.i2.13
Available at: https://scholarhub.ui.ac.id/smartcity/vol4/iss2/11