Indonesia has a high risk of earthquake and tsunami disasters because there's many tectonic plates meet. This also causes Indonesia to have many geological changes compared to other countries. Therefore, an explicit scheme to provide information related to disasters, like an information system in post-disaster management is important. The purpose of this research is to provide transparent information regarding the data on the goods needed and the data on goods to be distributed to ensure the amount used and not used, so that victims affected by disasters can be handled quickly and appropriately. The method used in this research is a literature review. The results of this study indicate the existence of a Blockchain Disaster Management Information System as a form of a new scheme in the post-disaster management process and is an upgraded form of information system that has been developed previously. This scheme uses the blockchain concept to provide transparency and data immutability. This scheme coordinates with various institutions such as BPBD (Regional Disaster Management Agency), BNPB (National Disaster Management Agency), BASARNAS (National Search and Rescue Agency), PMI (Indonesian Red Cross Society), the nearest hospital, and other related institutions.

© 2023 Universitas Pendidikan Indonesia

Aoun, A., Ilinca, A., Ghandour, M., & Ibrahim, H. (2021). A review of Industry 4.0 characteristics and challenges, with potential improvements using blockchain technology. Computers & Industrial Engineering, 162, 107746.

Aslam, A., Fatonah, R. N. S., & Riza, N. (2021). Aplikasi crowdfunding sebagai penggalangan dana korban bencana alam berbasis web dengan menggunakan framework codeigniter. Jurnal Teknik Informatika, 13(2), 45-51.

Bariyah, A. K., & Prastowo, T. (2020). Analisis relasi antara magnitudo momen gempa tektonik dan amplitudo maksimum tsunami untuk kasus tsunami lintas samudera pasifik dan tsunami indonesia. Jurnal Inovasi Fisika Indonesia (IFI), 9(2), 5-14.

Fanning, K., & Centers, D. P. (2016). Blockchain and its coming impact on financial services. Journal of Corporate Accounting & Finance, 27(5), 53-57.

Fatkhullah, M., Habib, M. A. F., & Nisa, K. K. (2022). Identifikasi dan manajemen risiko untuk mereduksi kerentanan pada masyarakat. Ekonomi, Keuangan, Investasi Dan Syariah (EKUITAS), 3(4), 856-867.

Ghosh, J. (2019). The blockchain: opportunities for research in information systems and information technology. Journal of Global Information Technology Management, 22(4), 235-242.

Imaniawan, F. F. D. (2020). Sistem informasi penyaluran donasi berbasis web. Indonesian Journal on Software Engineering (IJSE), 6(1), 44-55.

Irawan, L., Hasibuan, L. H., & Fauzi, F. (2020). Analisa Prediksi Efek Kerusakan Gempa Dari Magnitudo (Skala Richter) Dengan Metode Algoritma Id3 Menggunakan Aplikasi Data Mining Orange. Jurnal Teknologi Informasi: Jurnal Keilmuan dan Aplikasi Bidang Teknik Informatika, 14(2), 189-201.

Kristian, R. (2018). Faktor-faktor penghambat implementasi kebijakan penanggulangan bencana erupsi gunung sinabung, Talenta Conference Series: Local Wisdom, Social, and Arts (LWSA), 1(1), 099-103.

Leliana, I., Herry, H., Suratriadi, P., & Enrieco, E. (2021). Analisis Framing Model Robert Entman tentang Pemberitaan Kasus Korupsi Bansos Juliari Batubara di Kompas. com dan BBCIndonesia. com. Cakrawala-Jurnal Humaniora, 21(1), 60-67.

Launa, L., & Lusianawati, H. (2021). Potensi Korupsi Dana Bansos Di Masa Pandemi Covid-19. Majalah Semi Ilmiah Populer Komunikasi Massa, 2(1), 1-22.

Mahdia, F. and Noviyanto, F. (2013). Pemanfaatan google maps api untuk pembangunan sistem informasi manajemen bantuan logistik pasca bencana alam berbasis mobile web (studi kasus: badan penanggulangan bencana daerah kota Yogyakarta). Jurnal Sarjana Teknik Informatika, 1(1), 162-171.

Mulyono, J., & Paramith, N. A. (2022). Management of the mount semeru eruption disaster through social capital. Int. J. Educ. Social Sci. Res, 5(06), 307-319.

Pamungkas, T. D., & Ningrum, E. (2022). Analysis of lembang fault characteristics based on literatures of geological structure, rock formation and peak ground acceleration probabilistic earthquake analysis. Jurnal Geografi Gea, 22(2).

Patrickson, B. (2021). What do blockchain technologies imply for digital creative industries?. Creativity and Innovation Management, 30(3), 585-595.

Santhi, A. R, & Muthuswamy, P. (2022). Influence of blockchain technology in manufacturing supply chain and logistics. Logistics, 6(1), 15.

Sudirman, K. D., Daejang, K., & Alhadi, Z. (2020). Analisis Kesiapsiagaan Siswa Dalam Menghadapi Risiko Bencana Gempa Bumi Dan Tsunami. Jurnal Manajemen Dan Ilmu Administrasi Publik (JMIAP), 2(3), 117-124.

Tantimin and Ongko, J. S. (2021). Penegakan hukum terhadap penipuan bermodus donasi aksi kemanusiaan di indonesia. Jurnal Pendidikan Kewarganegaraan Undiksha, 9(3), 801- 8011.

Widodo, T., Hepta, Y., & Fairuz, H. (2017). Aplikasi sistem informasi geografis dan penginderaan jauh untuk zonasi kerawanan bencana gempa bumi sesar lembang. Jurnal Dialog Dan Penanggulangan Bencana, 8(1), 54-68.

Wu, J., & Tran, N. K. (2018). Application of blockchain technology in sustainable energy systems: An overview. Sustainability, 10(9), 3067.