| Kode Mata Kuliah | FI5221 / 3 SKS |
|---|
| Penyelenggara | 202 - Physics / FMIPA |
|---|
| Kategori | Lecture |
|---|
| Bahasa Indonesia | English |
|---|
| Nama Mata Kuliah | Pencitraan dan Visualisasi Optik Modern | Modern Optical Imaging and Visualisation |
|---|
| Bahan Kajian | - Representasi citra analog dan digital
- Sistem linear, analisis spectral, fungsi transfer dan penapisan
- Pembentukan citra secara optika geometri, optika Fourier, teori optika skalar dan vektorial serta efek difraksi
- Pemindaian optik secara pasif dan aktif, permukaan dan 3 dimensi
- Pencitraan interferometrik, pencitraan tiga dimensi dan visualisasi holografi
- Pencitraaan mikroskopik, koheren dan tomografi, pencitraan dalam domain frekuensi dan temporal.
| - Analog and digital image representation
- Linear systems, spectral analysis, transfer functions and filtering
- Image formation using geometric optics, Fourier optics, scalar and vectorial optics theory and diffraction effects
- Passive and active optical scanning, surface and 3-dimensional
- Interferometric imaging, three-dimensional imaging and holographic visualization
- Microscopic, coherent and tomographic imaging, imaging in frequency and temporal domains.
|
|---|
| Capaian Pembelajaran Mata Kuliah (CPMK) | - Mahasiswa mampu menjelaskan representasi citra analog dan digital
- Mahasiswa mampu menjelaskan konsep sistem linear, analisis spectral, fungsi transfer dan penapisan
- Mahasiswa mampu memecahkan masalah pemindaian optik secara pasif dan aktif, permukaan dan 3 dimensi
- Mahasiswa mampu memahami dan menganalisis prinsip pembentukan citra secara optika geometri, optika Fourier, teori optika skalar dan vektorial serta efek difraksi
- Mahasiswa mampu memahami dan menganalisis prinsip pencitraan interferometrik, pencitraan tiga dimensi dan visualisasi holografi
- Mahasiswa mampu memahami prinsip pencitraan maju mikroskopik, koheren dan tomografi, pencitraan dalam domain frekuensi dan temporal
| - Students are able to explain analog and digital image representation
- Students are able to explain the concepts of linear systems, spectral analysis, transfer functions and filtering
- Students are able to solve passive and active optical scanning problems, surface and 3 dimensions
- Students are able to understand and analyze the principles of image formation using geometric optics, Fourier optics, scalar and vectorial optics theory and diffraction effects
- Students are able to understand and analyze the principles of interferometric imaging, three-dimensional imaging and holographic visualization
- Students are able to understand the principles of advanced microscopic, coherent and tomographic imaging, imaging in the frequency and temporal domains
|
|---|
| Metode Pembelajaran | Kuliah, studi mandiri | Lectures, independent study |
|---|
| Modalitas Pembelajaran | Luring Sinkron, Bauran/Daring Asinkron | Synchronous Offline, Asynchronous Mixed/Online |
|---|
| Jenis Nilai | ABCDE |
|---|
| Metode Penilaian | UTS, UAS, Tugas dan Kuis | UTS, UAS, Assignments and Quizzes |
|---|
| Catatan Tambahan | MKPB | MKPB |
|---|