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Introduction to EECS II: Digital Communication Systems (M-I-T)

S# Lecture Course Institute Instructor Discipline
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1. Overview: information and entropy (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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10. Linear time-invariant (LTI) systems (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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11. LTI channel and intersymbol interference (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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12. Filters and composition (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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13. Frequency response of LTI systems (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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14. Spectral representation of signals (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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15. Modulation/demodulation (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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16. More on modulation/demodulation (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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17. Packet switching (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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18. MAC protocols (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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19. Network routing (without failures) (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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2. Compression: Huffman and LZW (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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20. Network routing (with failures) (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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21. Reliable transport (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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22. Sliding window analysis, Little's law (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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23. A brief history of the Internet (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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24. History of the Internet cont'd, course summary (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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3. Errors, channel codes (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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4. Linear block codes, parity relations (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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5. Error correction, syndrome decoding (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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6. Convolutional codes (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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7. Viterbi decoding (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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8. Noise (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences
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9. Transmitting on a physical channel (M-I-T)
Introduction to EECS II: Digital Communication Systems (M-I-T) MIT Prof. Hari Balakrishnan Applied Sciences