Perkuliahan Pemrosesan Sinyal Digital (Digital Signal Processing) diberikan dalam bahasa Inggris dan bahasa Indonesia.
Yang menggunakan bahasa Inggris:
Yang diberikan dalam bahasa Indonesia:
General Description of class:
Topik yang diajarkan di dalam matakuliah tersebut:
- Materi presentasi
- Handout presentasi
- Textbook matakuliah
- Assignment (tugas) matakuliah
- Soal ujian matakuliah
Yang diberikan dalam bahasa Indonesia:
- Penjelasan yang susah dimengerti oleh mahasiswa
- Pertannyaan oleh mahasiswa dan ulangan materi
General Description of class:
Nama
Matakuliah/Course name
|
Pemrosesan
Sinyal Digital/ Digital Signal Processing
|
Nomor
Matakuliah/ Course number
|
EE333
|
Semester
|
V
|
Buku
acuan/ rujukan
Reference
|
[1].
E.C. Ifeachor & B.W.Jervis, Digital Signal
Processing, A Practical Approach 2nd ed., 2002
[2].
Sanjit K. Mitra, Digital Signal Processing, A
Computer-Based Aproach 2nd Ed., 2001
|
Tujuan
Instruksional Umum
|
Learn
about processing discrete signal and capable of processing that signal for
special application
Mempelajari pemrosesan sinyal diskrit dan mampu
mengolah sinyal diskrit untuk suatu aplikasi khusus
|
Tujuan
Instruksional Khusus
|
1. Differentiate many
digital system with Z domain and its characteristics
Membedakan berbagai sistem digital dengan domain Z dan karakteristiknya
2. Compute and analyze sistem using FFT
Menghitung dan menganalisa sistem dengan FFT
3.
Capable of designing digital filters and realizing them
using computer programs
Mampu membuat filter digital dan merealisasikannya dalam bentuk program komputer |
Topik bahasan
|
1.1
Introduction to DSP
1.2
DSP system
|
2.1
Discrete transform and Fourier transform
2.2
Discrete Fourier transform and properties
|
3.1 Fast Fourier
Transform and Discrete Cosine Transform
3.2
Worked example of FFT
|
4.1 Discrete Time Signal and Z-transform
4.2 Power Series Method |
5.1
Partial Fraction Method
5.2 Residue Method |
6.1
Frequency response calculation
6.2
Stability and difference equation
|
7.1
Filter digital (simple system)
7.2 Example of digital filter |
8.1
Introduction to digital filters
8.2 Filter FIR and design characteristics |
9.1
FIR design using windows method
9.2 Worked example of windows method |
10.1
FIR design using frequency sampling method
10.2
Worked example of frequency sampling
|
11.1
Worked example of FIR-filter
11.2 Filter IIR and design characteristics |
12.1
IIR design using pole-zero placement
12.2
IIR design using Impulse Invariant method
|
13.1
Worked example of IIR-pole-zero and impulse
13.2
IIR design using bilinear Z-transform
|
14.1
Worked example of IIR-bilinear Z-transform
14.2 Review |
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