1. |
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Lecture01 : Introduction, Sampling theory |
Lecture01 : Introduction, Sampling theory |
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2. |
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lecture2 : Fourier Transform, Power spectrum |
lecture2 : Fourier Transform, Power spectrum |
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3. |
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lecture3 : Baseband communication |
lecture3 : Baseband communication |
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4. |
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lecture 4 : Line coding, Pulse shaping |
lecture 4 : Line coding, Pulse shaping |
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5. |
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Lecture 5 : Introduction to SDR : Principles, Challenges, opportunities |
Lecture 5 : Introduction to SDR : Principles, Challenges, opportunities |
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6. |
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lecture 6 : Probabilistic Detection, White nosise, Matched filter |
lecture 6 : Probabilistic Detection, White nosise, Matched filter |
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7. |
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lecture 7 : IEEE802.11a / IEEE802.11p PHY |
lecture 7 : IEEE802.11a / IEEE802.11p PHY |
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8. |
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lecture8 : DQPSK, CPFSK, GMSK |
lecture8 : DQPSK, CPFSK, GMSK |
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9. |
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lecture 9 : OFDM |
lecture 9 : OFDM |
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10. |
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lecture 10 : Channel Capacity |
lecture 10 : Channel Capacity |
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11. |
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Lecture 11 : IEEE 802.11a/p |
Lecture 11 : IEEE 802.11a/p |
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12. |
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lecture 12 : Channel coding |
lecture 12 : Channel coding |
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13. |
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lecture 13 : Channel Coding & Decoding - Convolutional code TCM |
lecture 13 : Channel Coding & Decoding - Convolutional code TCM |
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14. |
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Lecture 14 : Analysis of H-STBC & LDC MIMO |
Lecture 14 : Analysis of H-STBC & LDC MIMO |
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