Mengoptimalkan Jaringan Sensor Nirkabel dalam Aplikasi Monitor Lingkungan dengan Teknologi IoT di Indonesia

Penulis

  • Zunan Setiawan Universitas Ahmad Dahlan
  • Abrar Hiswara Universitas Bhayangkara Jakarta Raya
  • Hanifah Nurul Muthmainah Universitas Siber Muhammadiyah

DOI:

https://doi.org/10.58812/jmws.v2i10.704

Kata Kunci:

Jaringan Sensor Nirkabel, Lingkungan, Teknologi IoT, Indonesia

Abstrak

Integrasi teknologi Internet of Things (IoT) dengan jaringan sensor nirkabel (WSN) telah mengantarkan era baru dalam pemantauan lingkungan dan pengumpulan data. Di Indonesia, negara yang kaya akan keanekaragaman ekologi dan tantangan lingkungan, penerapan teknologi IoT untuk mengoptimalkan WSN untuk pemantauan lingkungan menjadi sangat penting. Penelitian ini mengeksplorasi kondisi pemantauan lingkungan saat ini di Indonesia, mengidentifikasi tantangan dan peluang, dan mengevaluasi aspek teknis dari optimalisasi WSN. Survei dan wawancara mendalam dengan para pemangku kepentingan mengungkapkan terbatasnya adopsi IoT, tantangan infrastruktur, dan kekhawatiran mengenai privasi dan keamanan data. Evaluasi teknis penyebaran node sensor menunjukkan tantangan dalam efisiensi transmisi data dan konsumsi daya. Studi kasus menggambarkan tantangan kontekstual dan solusi inovatif dalam pengaturan lingkungan yang beragam. Untuk mengatasi masalah-masalah ini, rekomendasi yang diberikan termasuk mempromosikan adopsi IoT, standarisasi, peningkatan infrastruktur, keamanan data, efisiensi energi, inisiatif kolaboratif, dan pemantauan berkelanjutan. Rekomendasi-rekomendasi ini bertujuan untuk mendorong Indonesia menuju infrastruktur pemantauan lingkungan yang lebih efisien dan berkelanjutan, serta memastikan kelestarian ekosistem dan sumber dayanya yang unik.

Referensi

Allahham, A. A., & Rahman, M. A. (2018). A smart monitoring system for campus using Zigbee wireless sensor networks. International Journal of Software Engineering and Computer Systems (IJSECS), 4(1), 1–14.

Arif, C., Nugroho, B. D. A., Maftukha, R., Suryandika, F., Hapsari, U., Nihayah, B., Naititi, N., & Sain, R. I. A. (2021). Performance of agro-environmental monitoring for optimum water and crop management: A case study for East Nusa Tenggara, Indonesia. IOP Conference Series: Earth and Environmental Science, 871(1), 12032.

Budiman, D., Iskandar, Y., & Jasuni, A. Y. (2022). Millennials’ Development Strategy Agri-Socio-Preneur in West Java. International Conference on Economics, Management and Accounting (ICEMAC 2021), 315–323.

Chawla, A., Arellano, Y., Johansson, M. V., Darvishi, H., Shaneen, K., Vitali, M., Finotti, F., & Rossi, P. S. (2022). IoT-Based Monitoring in Carbon Capture and Storage Systems. IEEE Internet of Things Magazine, 5(4), 106–111.

Chen, H., Nan, X., & Xia, S. (2022). Data fusion based on temperature monitoring of aquaculture ponds with wireless sensor networks. IEEE Sensors Journal, 23(1), 6–20.

Datta, A., & Krishnamoorti, R. (2022). Understanding the greenhouse gas impact of deforestation fires in Indonesia and Brazil in 2019 and 2020. Frontiers in Climate, 4, 799632.

Dogra, R., Babbar, H., & Rani, S. (2022). Integration of WSN and IoT: Its Applications and Technologies. In IoT and WSN based Smart Cities: A Machine Learning Perspective (pp. 243–256). Springer.

Eiler, A., Löfgren, A., Hjerne, O., Nordén, S., & Saetre, P. (2018). Environmental DNA (eDNA) detects the pool frog (Pelophylax lessonae) at times when traditional monitoring methods are insensitive. Scientific Reports, 8(1), 5452.

Gandhi, V., Sardar, A., Wani, P., Borase, R., & Gawande, J. (2022). IOT Based Wireless Data Technology Using LORA and GSM. ITM Web of Conferences, 44, 1006.

Gribaudo, M., Iacono, M., & Levis, A. H. (2017). An IoT‐based monitoring approach for cultural heritage sites: The Matera case. Concurrency and Computation: Practice and Experience, 29(11), e4153.

Gutiérrez, J., Villa-Medina, J. F., Nieto-Garibay, A., & Porta-Gándara, M. Á. (2013). Automated irrigation system using a wireless sensor network and GPRS module. IEEE Transactions on Instrumentation and Measurement, 63(1), 166–176.

Halik, G., Putra, V. S., & Wiyono, R. U. A. (2022). Assessment of climate change impact on drought disaster in Sampean Baru watershed, East Java, Indonesia based on IPCC-AR5. Natural Hazards, 112(2), 1705–1726.

Harahap, M. A. K., Tanipu, F., Manuhutu, A., & Supriandi, S. (2023). Relations between Architecture, Urban Planning, Environmental Engineering, and Sociology in Sustainable Urban Design in Indonesia (Literature Study). Jurnal Geosains West Science, 1(02), 77–88.

Hong, S.-S., Lee, J., Chung, S., & Kim, B. (2023). Fast Real-Time Data Process Analysis Based on NoSQL for IoT Pavement Quality Management Platform. Applied Sciences, 13(1), 658.

Hou, L., Tan, S., Zhang, Z., & Bergmann, N. W. (2018). Thermal energy harvesting WSNs node for temperature monitoring in IIoT. Ieee Access, 6, 35243–35249.

Iskandar, Y., & Sarastika, T. (2023). Study of Socio-Economic Aspect and Community Perception on The Development of The Agricultural Area Shrimp Ponds in Pasir mendit and Pasir Kadilangu. West Science Journal Economic and Entrepreneurship, 1(01), 28–36.

Jaman, U. B. (2023). Legal Analysis of The Impact of Industrial Development on The Environment. The Easta Journal Law and Human Rights, 1(03), 87–92.

Jaman, U. B., & Pertiwi, E. (2023). Kedaulatan Pajak Negara Indonesia Terhadap Perusahaan Multinasional Digital. Jurnal Aktiva: Riset Akuntansi Dan Keuangan, 5(1), 32–42.

Jankovská, I., Miholová, D., Romočuský, Š., Petrtýl, M., Langrová, I., Kalous, L., Sloup, V., Válek, P., Vadlejch, J., & Lukešová, D. (2014). Importance of fish gender as a factor in environmental monitoring of mercury. Environmental Science and Pollution Research, 21, 6239–6242.

Jeevanantham, S., & Rebekka, B. (2022). Hierarchical stable election protocol for WSN‐based IoT inhabitant and environmental monitoring applications. International Journal of Communication Systems, 35(15), e5301.

Jiang, Y., Liu, X., & Lian, S. (2016). Design and implementation of smart-home monitoring system with the Internet of Things technology. Wireless Communications, Networking and Applications: Proceedings of WCNA 2014, 473–484.

Kadir, E. A., Efendi, A., & Rosa, S. L. (2018). Application of LoRa WAN sensor and IoT for environmental monitoring in Riau Province Indonesia. 2018 5th International Conference on Electrical Engineering, Computer Science and Informatics (EECSI), 281–285.

Kerkez, B., Glaser, S. D., Bales, R. C., & Meadows, M. W. (2012). Design and performance of a wireless sensor network for catchment‐scale snow and soil moisture measurements. Water Resources Research, 48(9).

Lazarescu, M. T. (2017). Wireless Sensor Networks for the Internet of Things: barriers and synergies. Components and Services for IoT Platforms: Paving the Way for IoT Standards, 155–186.

Li, H., Tang, B., Lu, H., Cheema, M. A., & Jensen, C. S. (2022). Spatial data quality in the iot era: management and exploitation. Proceedings of the 2022 International Conference on Management of Data, 2474–2482.

Mainetti, L., Marasovic, I., Patrono, L., Solic, P., Stefanizzi, M. L., & Vergallo, R. (2016). A Novel IoT-aware Smart Parking System based on the integration of RFID and WSN technologies. International Journal of RF Technologies, 7(4), 175–199.

Malche, T., Maheshwary, P., & Kumar, R. (2019). Environmental monitoring system for smart city based on secure Internet of Things (IoT) architecture. Wireless Personal Communications, 107(4), 2143–2172.

Mendez-Monroy, P. E., Cruz May, E., Jiménez Torres, M., Gómez Hernández, J. L., Canto Romero, M., Sanchez Dominguez, I., May Tzuc, O., & Bassam, A. (2022). IoT System for the Continuous Electrical and Environmental Monitoring into Mexican Social Housing Evaluated under Tropical Climate Conditions. Journal of Sensors, 2022.

Mulyani, S., & Lisdiyono, E. (2020). Legal Protection Model for Forest Preservation of Processed Timber Businesses. International Conference on Law, Economics and Health (ICLEH 2020), 580–583.

Nugrahanti, T. P. (2016). Risk assessment and earning management in banking of Indonesia: corporate governance mechanisms. Global Journal of Business and Social Science Review, 4(1), 1–9.

Ouni, R., & Saleem, K. (2022). Framework for sustainable wireless sensor network based environmental monitoring. Sustainability, 14(14), 8356.

Petrich, C. H., & Smith-Sanclare, S. (1997). Environmental Challenges and Policy Responses in Indonesia. In Latin American Environmental Policy in International Perspective (pp. 237–262). Routledge.

Prodanović, R., Sarang, S., Rančić, D., Vulić, I., Stojanović, G. M., Stankovski, S., Ostojić, G., Baranovski, I., & Maksović, D. (2021). Trustworthy Wireless Sensor Networks for Monitoring Humidity and Moisture Environments. Sensors, 21(11), 3636.

Rahmat, R. F., Syahputra, M. F., & Lydia, M. S. (2016). Real time monitoring system for water pollution in Lake Toba. 2016 International Conference on Informatics and Computing (ICIC), 383–388.

Rajput, A., & Kumaravelu, V. B. (2020). Fuzzy logic–based distributed clustering protocol to improve energy efficiency and stability of wireless smart sensor networks for farmland monitoring systems. International Journal of Communication Systems, 33(4), e4239.

Salunke, A., & Bhambar, S. (2019). Comparative Study of Trust and Reputation Security Models in IoT Networks. 2019 International Conference on Intelligent Computing and Control Systems (ICCS), 830–835.

Suparwata, D. O. (2018). Pengelolaan rehabilitasi lahan kritis berdasarkan partisipasi masyarakat di DAS Randangan Kabupaten Pohuwato.

Suparwata, D. O., & Djibran, M. (2018). Pemanfaatan pekarangan bero untuk usahatani buah naga. Journal of Agritech Science (JASc), 2(2), 72.

Suparwata, D. O., & Pomolango, R. (2019). Arahan pengembangan agribisnis buah naga di pekarangan terintegrasi desa wisata Banuroja. Agromix, 10(2), 85–99.

Syafarida, U. Y., Jati, D. R., & Sulastri, A. (2022). Analisis Hubungan Konstruksi Sumur Gali dan Sanitasi Lingkungan Terhadap Jumlah Bakteri Coliform Dalam Air Sumur Gali (Studi Kasus: Desa PAL IX, Kecamatan Sungai Kakap). Jurnal Ilmu Lingkungan, 20(3), 437–444.

Syarif, S., Harun, N., Tola, M., & Tjaronge, M. W. (2013). Detection System of Illegal Logging Image Using Matching Process With Discrete Cosine Transform. International Journal of Computational Engineering Research (IJCER) IJCER| June 2013| VOL 3 ISSUE 6, 57.

Wilde, N., Sadeghi, A., & Smith, S. L. (2021). Learning submodular objectives for team environmental monitoring. IEEE Robotics and Automation Letters, 7(2), 960–967.

Wu, F., Rudiger, C., & Yuce, M. R. (2017). Design and field test of an autonomous IoT WSN platform for environmental monitoring. 2017 27th International Telecommunication Networks and Applications Conference (ITNAC), 1–6.

Unduhan

Diterbitkan

2023-10-30

Cara Mengutip

Setiawan, Z., Hiswara, A., & Muthmainah, H. N. (2023). Mengoptimalkan Jaringan Sensor Nirkabel dalam Aplikasi Monitor Lingkungan dengan Teknologi IoT di Indonesia. Jurnal Multidisiplin West Science, 2(10), 858–867. https://doi.org/10.58812/jmws.v2i10.704

Terbitan

Vol 2 No 10 (2023): Jurnal Multidisiplin West Science

Bagian

Artikel

Lisensi

Hak Cipta (c) 2023 Zunan Setiawan, Abrar Hiswara, Hanifah Nurul Muthmainah

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