EEE 432 picks up where the introductory digital comms course leaves off and asks a harder question: how do you actually push reliable bits through a real channel that smears symbols, fades, and drifts in phase? You'll work through linear modulation with memory, block and convolutional coding, Nyquist signaling and equalization, then build up to OFDM and multi-antenna diversity for wireless links, with three projects (typically MATLAB-based) anchoring the math to simulated systems alongside a midterm, final, and quiz. It's the bridge between textbook BER curves and the kind of physical-layer design that underlies anything from LTE to Wi-Fi, and it sets you up for graduate work in wireless or information theory.
→ STARS müfredatı (resmi syllabus)
İlk dosyayı sen atarsan — not, slayt, geçmiş sınav, çözüm, cheat-sheet, ne varsa — defter ekibi öğrenci paylaşımlarından bu dersin notlarını yazar. Drive linki / PDF / ZIP, hepsi olur.
| Dönem | Course CPA | |
|---|---|---|
| 2024-2025 Spring | 3.02 | 1 sec · 15 öğr |
| 2023-2024 Spring | 2.98 | 1 sec · 28 öğr |
| 2022-2023 Spring | 2.78 | 1 sec · 20 öğr |
| 2021-2022 Spring | 3.10 | 1 sec · 23 öğr |
| 2020-2021 Spring | 3.49 | 1 sec · 10 öğr |
| 2019-2020 Spring | 2.95 | 1 sec · 18 öğr |
| 2018-2019 Spring | 2.87 | 1 sec · 34 öğr |
| 2017-2018 Spring | 2.36 | 1 sec · 51 öğr |
| 2016-2017 Spring | 2.82 | 1 sec · 27 öğr |
| 2015-2016 Spring | 2.74 | 1 sec · 42 öğr |
Aggregate course GPA — Bilkent STARS'tan public data. Hoca-bazlı per-section detayı için STARS evaluation report →. Öğrenci anket cevapları KVKK kapsamında defter'de tutulmaz.
None.