Kode Mata KuliahSB5051 / 4 SKS
Penyelenggara224 - Earth Sciences / FITB
KategoriLecture
Bahasa IndonesiaEnglish
Nama Mata KuliahMitigasi Bencana KebumianMitigation of Earth-related Disasters
Bahan Kajian
  1. Pengantar Mitigasi Bencana Kebumian - Konsep Dasar dan Definisi: Definisi mitigasi bencana kebumian dan peran ilmu kebumian dalam memahami dan mengurangi risiko bencana. Tinjauan umum tentang proses geologis yang menyebabkan bencana kebumian. - Kerangka Kerja dan Standar Internasional: Prinsip-prinsip Sendai Framework for Disaster Risk Reduction (SFDRR) dan aplikasinya dalam mitigasi bencana kebumian.
  2. Gempabumi, tsunami dan mitigasinya - Dasar-Dasar gempa dan tsunami: Proses pembentukan gempa bumi, jenis-jenis gempa, dan skala pengukuran gempa. Analisis distribusi seismik global dan lokal serta pola patahan (fault lines). - Teknik Mitigasi Gempa dan tsunami: Desain struktur tahan gempa dan peningkatan kode bangunan. Sistem peringatan dini dan strategi evakuasi.
  3. Mitigasi Risiko Letusan Gunung Berapi - Proses Vulkanik: Mekanisme letusan gunung berapi dan tipe-tipe letusan. Pengaruh letusan vulkanik terhadap lingkungan dan masyarakat. - Pendekatan Mitigasi: Sistem pemantauan gunung berapi dan peringatan dini. Pemetaan bahaya vulkanik dan zonasi risiko. Rencana evakuasi dan pengelolaan dampak jangka panjang dari letusan vulkanik.
  4. Penggunaan Teknologi dan Data dalam Mitigasi Bencana Kebumian - Teknologi Penginderaan Jauh dan GIS: Penggunaan data satelit dan pemetaan berbasis GIS untuk pemantauan dan analisis risiko bencana kebumian. - Modeling dan Simulasi Bencana: Penggunaan model komputer untuk mensimulasikan skenario bencana kebumian dan dampaknya. - Teknologi Baru dalam Mitigasi: Penerapan teknologi seperti kecerdasan buatan (AI) dan internet of things (IoT) dalam sistem mitigasi bencana.
  5. Studi Kasus dalam Mitigasi Bencana Kebumian - Analisis Studi Kasus: Tinjauan mendalam tentang studi kasus bencana kebumian dan pendekatan mitigasi yang diterapkan. Evaluasi keberhasilan dan tantangan dalam implementasi strategi mitigasi di Indonesia.
  1. Introduction to Earth Disaster Mitigation - Basic Concepts and Definitions: Definition of earth disaster mitigation and the role of earth science in understanding and reducing disaster risk. An overview of the geological processes that cause the earth's disasters. - International Frameworks and Standards: The principles of the Sendai Framework for Disaster Risk Reduction (SFDRR) and their application in earth disaster mitigation.
  2. Earthquakes, tsunamis and their mitigation - Basics of earthquakes and tsunamis: The process of earthquake formation, types of earthquakes, and earthquake measurement scales. Analysis of global and local seismic distributions and fault lines. - Earthquake and tsunami Mitigation Techniques: Design of earthquake-resistant structures and improvement of building codes. Early warning system and evacuation strategy.
  3. Mitigating the Risk of Volcanic Eruptions - Volcanic Processes: Volcanic eruption mechanisms and types of eruptions. The influence of volcanic eruptions on the environment and society. - Mitigation Approach: Volcano monitoring and early warning systems. Mapping of volcanic hazards and risk zoning. Evacuation plans and long-term impact management of volcanic eruptions.
  4. Use of Technology and Data in Earth Disaster Mitigation - Remote Sensing and GIS Technology: The use of satellite data and GIS-based mapping for monitoring and analysis of geological disaster risk. - Disaster Modeling and Simulation: The use of computer models to simulate the scenario of an earth disaster and its impact. - New Technologies in Mitigation: The application of technologies such as artificial intelligence (AI) and the internet of things (IoT) in disaster mitigation systems.
  5. Case Studies in Earth Disaster Mitigation - Case Study Analysis: An in-depth review of the case studies of earth disasters and the mitigation approaches applied. Evaluate the successes and challenges in the implementation of mitigation strategies in Indonesia.
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mampu menjelaskan mekanisme dan faktor penyebab bencana kebumian
  2. Mampu merancang rencana mitigasi yang mencakup pendekatan struktural dan non-struktural
  3. Mampu menganalisis data dari berbagai sumber untuk mengidentifikasi daerah berpotensi bencana
  4. Mampu mengimplementasikan dan mengevaluasi strategi mitigasi yang diterapkan
  1. Able to explain the mechanisms and factors that cause earthquakes
  2. Able to design mitigation plans that include both structural and non-structural approaches
  3. Able to analyze data from various sources to identify potential disaster areas
  4. Able to implement and evaluate mitigation strategies implemented
Metode PembelajaranKnowledge Based Leaning, Skill Based Learning, Problem based learning (PBL), Case-based Learning (CBL)Knowledge Based Leaning, Skill Based Learning, Problem based learning (PBL), Case-based Learning (CBL)
Modalitas PembelajaranLuring, Sinkron, AsinkronOffline, Synchronous, Asynchronous
Jenis NilaiABCDE
Metode PenilaianUraian, Esai, Presentasi, Laporan, PraktikDescription, Essay, Presentation, Report, Practice
Catatan TambahanJika sangat banyak hari libur nasional, dimungkinkan kuliah daringOnline classes are feasible if there are many public holidays