Kode Mata KuliahEL3016 / 3 SKS
Penyelenggara132 - Teknik Elektro / STEI
KategoriKuliah
Bahasa IndonesiaEnglish
Nama Mata KuliahSistem KomunikasiCommunication System
Bahan Kajian
  1. Modulasi/Demodulasi Amplitudo
  2. Modulasi Analog: Modulasi/Demodulasi Frekuensi
  3. Modulasi Analog: Modulasi/Demodulasi Fasa
  4. Derau pada sistem komunikasi analog: penerima AM dan FM
  5. Fungsi autokorelasi, kerapatan daya spektral
  6. Penerima optimum untuk transmisi data biner: Prosedur ortogonalisasi Gram_Schmidt, representasi signal space, implementasi receiver, dan probabilitas bit error.
  7. Amplitude-shift keying (BASK), Binary phase-shift keying (BPSK), dan Binary frequency-shift keying (BFSK)
  1. Amplitude modulation / demodulation (full AM, double sideband - suppressed carrier, single sideband, vestigial sideband) 
  2. Analog modulation : frequency modulation / demodulation 
  3. Analog modulation : phase modulation / demodulation  
  4. Noise in analog communication system : noise in AM receiver (using coherent detection, and envelope detection), and noise in FM receiver  
  5. Autocorrelation function, power spectral density, and white Gaussian noise. 
  6. Optimum receiver for binary data transmission : Gram_Schmidt orthogonalization procedure, signal space representation, receiver implementation (using correlator, and matched filter), and probability of bit error.  
  7. Digital bandpass transmission : binary amplitude-shift keying (BASK), binary phase-shift keying (BPSK), and binary frequency-shift keying (BFSK).  
Capaian Pembelajaran Mata Kuliah (CPMK)
  1. Mahasiswa dapat memahami konsep dasar dan menerapkan formulasi matematis dalam proses modulasi dan demodulasi pada sistem komunikasi analog.  
  2. Mahasiswa dapat menerapkan teori probabilitas pada sistem komunikasi.  
  3. Mahasiswa dapat melakukan analisis sistem komunikasi digital menggunakan konsep optimum receiver, Gram-Schmidt orthogonalization procedure, dan representasi signal space.  
  4. Mahasiswa dapat merancang implementasi optimum receiver menggunakan correlator atau matched filter.  
  5. Mahasiswa dapat melakukan analisis performansi sistem komunikasi analog (Signal to Noise Ratio), dan sistem komunikasi digital (probability of bit error). 
  6. Menerapkan sistem komunikasi dan menguji kinerjanya 
  1. Students can understand basic concepts and apply mathematical formulations in the modulation and demodulation processes in analog communication systems.  
  2. Students can apply probability theory to communication systems.  
  3. Students can analyze digital communication systems using the optimum receiver concept, Gram-Schmidt orthogonalization procedure, and signal space representation.  
  4. Students can design the optimal implementation of a receiver using a correlator or matched filter.  
  5. Students can analyze the performance of analog communication systems (Signal to Noise Ratio) and digital communication systems (probability of bit error). 
  6. Implement communication systems and test their performance
Metode PembelajaranCeramah, Diskusi, Studi Kasus, Praktikum, Belajar MandiriLectures, Discussions, Case Study, Labwork, Independent Study
Modalitas PembelajaranLuring, Daring, BauranOffline, Online, Hybrid
Jenis NilaiABCDE
Metode PenilaianPR, Kuis, UjianHomework, Quiz, Exam
Catatan Tambahan