Kode Mata KuliahSB6117 / 4 SKS
Penyelenggara224 - Sains Kebumian / FITB
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahPemodelan Oseanografi LanjutAdvanced Oceanographic Modelling
Bahan Kajian
  1. Pendahuluan: pemodelan pesisir dan laut
  2. Pemodelan numerik untuk sirkulasi fjord (1): Persamaan pembangun untuk sirkulasi fjord dan boundary condition – konstruksi algoritma numerik
  3. Pemodelan numerik untuk sirkulasi fjord (2):- Formula numerik untuk boundary condition – metoda untuk memperbaiki keakuratan – Memperbaiki keakuratan dan stabilitas dari persamaan frictional-diffusive-
  4. Pergerakan 3D di perairan dangkal (1):- Skema numerik orde ke 2
  5. Pergerakan 3D di perairan dangkal (2): Pendekatan diferensial orde ke-3
  6. Pemodelan 3D dengan menggunakan mode pemecahan dan koordinat sigma (1): pendekatan pemecahan rudiments
  7. Pemodelan 3D dengan menggunakan mode pemecahan dan koordinat sigma (2):- Solusi numerik dan implementasinya dari metoda pemecahan – transformasi koordinat sigma
  8. Koordinat sigma untuk model regional dan pesisir (1) Pendahuluan – persamaan pembangun - Vertical Mixing - Boundary Conditions - Mode Splitting
  9. Koordinat sigma untuk model regional dan pesisir (2) -numerik – arah vertical -arah horizontal -problem numerik -aplikasi -struktur kode
  10. Menjalankan program model sesuai kebutuhan masing-masing
  11. Simulasi arus 3D pada suatu kanal ideal (kedalaman uniform), pembangkit angin: Barotropik
  12. Simulasi arus 3D pada suatu kanal ideal (kedalaman uniform), pembangkit angin: Baroklinik (upwelling & downwelling)
  1. Introduction: Coastal and Marine Modeling
  2. Numerical Modeling for Fjord Circulation (1): Formulation of Equations for Fjord Circulation and Boundary Conditions - Construction of Numerical Algorithm
  3. Numerical Modeling for Fjord Circulation (2): Numerical Formulation for Boundary Conditions Methods to Improve Accuracy Improving Accuracy and Stability of Frictional-Diffusive Equations
  4. 3D Motion in Shallow Waters (1): Second Order Numerical Scheme
  5. 3D Motion in Shallow Waters (2): Third Order Differential Approach
  6. 3D Modeling Using Split Mode and Sigma Coordinates (1): Basic Splitting Approach
  7. 3D Modeling Using Split Mode and Sigma Coordinates (2): Numerical Solution and Implementation of Splitting Methods Transformation of Sigma Coordinates
  8. Sigma Coordinates for Regional and Coastal Models (1): Introduction Formulation of Equations Vertical Mixing Boundary Conditions Mode Splitting
  9. Sigma Coordinates for Regional and Coastal Models (2): Numerical Methods Vertical Direction Horizontal Direction Numerical Issues Applications Code Structure
  10. Running the Model Program as Needed
  11. 3D Current Simulation in an Ideal Channel (Uniform Depth), Wind Forcing: Barotropic
  12. 3D Current Simulation in an Ideal Channel (Uniform Depth), Wind Forcing: Baroclinic (Upwelling & Downwelling)
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Memiliki kemampuan untuk menerapkan program model untuk contoh kasus yang sebenarnya.
  1. Capable of applying model programs to real-world case studies.
Metode PembelajaranKnowledge Based Leaning (KBL), Skill Based Learning (SBL), Problem based learning (PBL), Case-based Learning (CBL).Knowledge Based Leaning (KBL), Skill Based Learning (SBL), Problem based learning (PBL), Case-based Learning (CBL).
Modalitas PembelajaranLuring, Sinkron, AsinkronOffline, Synchronous, Asynchronous
Jenis NilaiABCDE
Metode PenilaianPresentasi, Debat, Laporan, Praktik , UTS, UAS dan TugasPresentations, Debates, Reports, Practices, UTS, UAS and Assignments
Catatan TambahanKuliah daring memungkinkan jika banyak hari libur nasionalOnline classes are feasible if there are many public holidays