Kurikulum 2024

	Bahasa Indonesia	English
Kode Mata Kuliah	SB6117 / 4 SKS
Penyelenggara	224 - Sains Kebumian / FITB
Kategori	Kuliah
Nama Mata Kuliah	Pemodelan Oseanografi Lanjut	Advanced Oceanographic Modelling
Bahan Kajian	Pendahuluan: pemodelan pesisir dan laut Pemodelan numerik untuk sirkulasi fjord (1): Persamaan pembangun untuk sirkulasi fjord dan boundary condition – konstruksi algoritma numerik Pemodelan numerik untuk sirkulasi fjord (2):- Formula numerik untuk boundary condition – metoda untuk memperbaiki keakuratan – Memperbaiki keakuratan dan stabilitas dari persamaan frictional-diffusive- Pergerakan 3D di perairan dangkal (1):- Skema numerik orde ke 2 Pergerakan 3D di perairan dangkal (2): Pendekatan diferensial orde ke-3 Pemodelan 3D dengan menggunakan mode pemecahan dan koordinat sigma (1): pendekatan pemecahan rudiments Pemodelan 3D dengan menggunakan mode pemecahan dan koordinat sigma (2):- Solusi numerik dan implementasinya dari metoda pemecahan – transformasi koordinat sigma Koordinat sigma untuk model regional dan pesisir (1) Pendahuluan – persamaan pembangun - Vertical Mixing - Boundary Conditions - Mode Splitting Koordinat sigma untuk model regional dan pesisir (2) -numerik – arah vertical -arah horizontal -problem numerik -aplikasi -struktur kode Menjalankan program model sesuai kebutuhan masing-masing Simulasi arus 3D pada suatu kanal ideal (kedalaman uniform), pembangkit angin: Barotropik Simulasi arus 3D pada suatu kanal ideal (kedalaman uniform), pembangkit angin: Baroklinik (upwelling & downwelling)	Introduction: Coastal and Marine Modeling Numerical Modeling for Fjord Circulation (1): Formulation of Equations for Fjord Circulation and Boundary Conditions - Construction of Numerical Algorithm Numerical Modeling for Fjord Circulation (2): Numerical Formulation for Boundary Conditions Methods to Improve Accuracy Improving Accuracy and Stability of Frictional-Diffusive Equations 3D Motion in Shallow Waters (1): Second Order Numerical Scheme 3D Motion in Shallow Waters (2): Third Order Differential Approach 3D Modeling Using Split Mode and Sigma Coordinates (1): Basic Splitting Approach 3D Modeling Using Split Mode and Sigma Coordinates (2): Numerical Solution and Implementation of Splitting Methods Transformation of Sigma Coordinates Sigma Coordinates for Regional and Coastal Models (1): Introduction Formulation of Equations Vertical Mixing Boundary Conditions Mode Splitting Sigma Coordinates for Regional and Coastal Models (2): Numerical Methods Vertical Direction Horizontal Direction Numerical Issues Applications Code Structure Running the Model Program as Needed 3D Current Simulation in an Ideal Channel (Uniform Depth), Wind Forcing: Barotropic 3D Current Simulation in an Ideal Channel (Uniform Depth), Wind Forcing: Baroclinic (Upwelling & Downwelling)
Capaian Pembelajaran Mata Kuliah (CPMK)	Memiliki kemampuan untuk menerapkan program model untuk contoh kasus yang sebenarnya.	Capable of applying model programs to real-world case studies.
Metode Pembelajaran	Knowledge 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 Pembelajaran	Luring, Sinkron, Asinkron	Offline, Synchronous, Asynchronous
Jenis Nilai	ABCDE
Metode Penilaian	Presentasi, Debat, Laporan, Praktik , UTS, UAS dan Tugas	Presentations, Debates, Reports, Practices, UTS, UAS and Assignments
Catatan Tambahan	Kuliah daring memungkinkan jika banyak hari libur nasional	Online classes are feasible if there are many public holidays