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OFDM MIMO course by Dr. Doron Ezri
Introduction
Introduction (11:57)
01 - SISO
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1.1 - Basic SISO Model (2:34)
1.2 - Physical Justification of the SISO Model (8:48)
1.3 - ML Receiver (9:56)
1.4 - ML Error Probability (9:34)
1.5 - The Rayleigh Channel (8:55)
1.6 - Error Probability in Rayleigh (6:17)
1.7 - SISO Error Rate Curve (6:33)
1.8 - MATLAB Exercise (4:11)
02 - STC MRC
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2.1 - The Rx Diversity Model (2:39)
2.2 - The ML Receiver (8:31)
2.3 - Post Processing SNR (5:27)
2.4 - MRC Error Probability (6:20)
2.5 - Diversity Order and Array Gain (4:07)
2.6 - MRC Error Rate Curve (3:28)
2.7 - Naïve Tx Diversity (4:32)
2.8 - STC (5:39)
2.9 - STC Receiver (8:13)
2.10 - STC Error Probability (2:20)
2.11 - STC + MRC (6:45)
2.12 - MATLAB Exercise (1:26)
03 - Eigen BF
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3.1 - MRT (9:28)
3.2 - Eigen BF (10:46)
3.3 - SVD (3:26)
3.4 - Eigen BF Error Probability Bounds (11:51)
3.5 - Known Eigenvalues’ Distribution (3:31)
3.6 - Asymptotic Analysis of the Error Rate (7:58)
3.7 - Eigen BF Error Rate Curve (2:22)
3.8 - Explicit and Implicit BF (7:20)
3.9 - MATLAB Exercise (1:55)
04 - SM
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4.1 - SM Concept (8:00)
4.2 - The Optimal ML Receiver (7:11)
4.3 - SM Error Probability Part 1 (7:56)
4.4 - SM Error Probability Part 2 (7:37)
4.5 - SM Error Probability Part 3 (4:06)
4.6 - SM Error Probability Part 4 (11:00)
4.7 - SM Error Probability - Final (5:59)
4.8 - SM Error Probability is AMAZING! (8:45)
4.9 - MATLAB Exercise (3:30)
05 - SM Detectors
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5.1 - Sphere Decoding – Rewriting the cost functional (8:22)
5.2 - Sphere Decoding - Algorithm (8:54)
5.3 - K-Best (7:58)
5.4 - Zero Forcing (7:00)
5.5 - Zero Forcing -ppSNR (10:09)
5.6 - Zero Forcing Average Error Probability (7:25)
5.7 - Best Linear Estimator (7:58)
5.8 - Successive Interference Cancellation (8:32)
5.9 - Turbo MIMO (5:48)
5.10 - Turbo MIMO - Soft Interference Cancellation (6:18)
5.11 - Comparison (7:16)
5.12 - MATLAB Exercise and Motivation for Lecture 6 (5:21)
06 - Precoded SM and Null Steering
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6.1 - Precoded SM (8:38)
6.2 - Precoded SM – The streams are different (4:51)
6.3 - Water-Filling (4:50)
6.4 - Water-Filling Solution (8:10)
6.5 - Precoded SM – in Practice (5:33)
6.6 - MU MIMO (8:01)
6.7 - MU MIMO Grouping (7:13)
6.8 - Over-Determination (5:25)
6.9 - MU MIMO – Multiple Streams (3:12)
6.10 - MU MIMO – Block Diagonalization (9:17)
6.11 - BF with Null-Steering (4:21)
6.12 - MVDR Analysis (6:09)
6.13 - MVDR Performance (3:40)
6.14 - MMSE Beamformer (5:01)
6.15 - Practical MMSE BF (10:23)
6.16 - MATLAB Exercise (2:57)
07 - The Wireless Channel
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7.1 - Pathloss (6:03)
7.2 - Multipath (3:28)
7.3 - Multipath – Baseband Perspective (7:27)
7.4 - Dynamic Channel (4:25)
7.5 - The SOIA Approximation (6:04)
7.6 - The Doppler Effect (3:39)
7.7 - The Multipath Equation (2:37)
7.8 - The Impact of Delay Spread (5:52)
7.9 - Delay Spread - Examples (5:15)
7.10 - The Impact of Doppler Spread (6:13)
7.11 - Channel Modeling (4:11)
7.12 - Modeling Pathloss (2:34)
7.13 - Modeling Mobile Channels (5:58)
7.14 - Jakes PSD (8:56)
7.15 - Channel Model Implementation (9:13)
7.16 - MATLAB Exercise (3:11)
08 - The MIMO Channel
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8.1 - Uniform Linear Array (5:57)
8.2 - ULA – Baseband Perspective (10:14)
8.3 - ULA – Spatial Nyquist Perspective (6:02)
8.4 - MRC – Physical Interpretation (7:38)
8.5 - MRC as an Adaptive Antenna (5:24)
8.6 - Channel with a Single Path (2:53)
8.7 - Channel with Multipath (7:20)
8.8 - Optimal Separation in Rich Multipath (8:41)
8.9 - The MIMO Channel (11:42)
8.10 - MATLAB Exercise (1:58)
09 - OFDM Part I
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9.1 - OFDM Preliminaries (9:43)
9.2 - OFDM Principles (5:16)
9.3 - The Naïve OFDM Transmitter (8:37)
9.4 - Efficient Implementation using IFFT_1 (9:10)
9.5 - Simplified Scheme (4:36)
9.6 - Graphical Interpretation (3:06)
9.7 - Back to Flat Fading (5:08)
9.8 - Channel Estimation (5:26)
9.9 - Channel Estimation – Weiner Perspective (6:11)
9.10 - Guards in Frequency and Time (6:15)
9.11 - Cyclic Prefix (8:58)
9.12 - Why OFDM? (6:12)
9.13 - MATLAB Exercise (2:39)
10 - OFDM Part II
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10.1 - Different View of CP (8:39)
10.2 - OFDM from Basic Principles Perspective (5:19)
10.3 - Temporal Offset (10:14)
10.4 - Frequency Offset (4:59)
10.5 - Any Change within the OFDM Symbol (7:35)
10.6 - PAPR (8:04)
10.7 - PAPR from CLT Perspective (6:46)
10.8 - PA Nonlinearity and its Effects (6:07)
10.9 - The Actual Challenge (4:43)
10.10 - PAPR Reduction Techniques (16:57)
10.11 - OFDM Parameters Tradeoff (9:58)
10.12 - Parameters Tradeoff – Wi-Fi Example (6:22)
10.13 - MATLAB Exercise (3:03)
11 - OFDM SCFDMA and OFDMA MIMO
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11.1 - OFDMA Principles (8:23)
11.2 - OFDMA – Far STA (11:38)
11.3 - OFDMA Synchronization (8:09)
11.4 - SCFDMA (10:09)
11.5 - SCFDMA Pilots (4:37)
11.6 - Chirp based SCFDMA Pilots (7:33)
11.7 - PAPR Optimized SCFDMA (10:23)
11.8 - SCFDMA Detection (9:49)
11.9 - SCFDMA in Standards (6:50)
11.10 - OFDM-A MIMO Principles (8:03)
11.11 - OFDM-A MIMO Pilots (7:30)
11.12 - OFDM-A MIMO Pilots for Precoded Tx (4:33)
11.13 - LTE DL MIMO Frame - Example (4:09)
11.14 - Why OFDM-A MIMO are Such a Strong Marriage-- (3:46)
11.15 - Concluding MATLAB Exercise (4:33)
Introduction
OFDM MIMO Introduction - Dr. Doron Ezri.pdf
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