| File Name | Description |
| intro to digital communications.pdf | MIT. (2002). Lecture Notes: Introduction to Digital Communication. The digital communication industry is an enormous and rapidly growing industry, roughly
comparable in size to the computer industry. The objective of this course is to study those aspects of digital communication systems that are unique to these systems. |
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| Computer Communication Networks - Latrobe.pdf | D.B. Hoang and K.J. Pye. (1996). Computer Communication Networks – Lecture Notes. 219 pages of lectures on network architecture, data link layer, the network layer, packet protocols for broadcast satellites, local area networks, flow control, introduction to Queueing Theory, simple queues with random arrivals, the single serve queue, capacity assignment in distributed networks, dynamic buffering and block storage, reliability of networks, TCP and UDP, who’s who, SMTP and mail, and NNTP and news. |
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| fund_telecom.pdf | The International Engineering Consortium. (n.d.) Fundamentals of Telecommunications. The tutorial covers the fundamentals of telephony, from its inception in Alexander Graham Bell’s laboratory to today’s emerging laboratories. |
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| SS-Intro.pdf | J. Meel. (1999). Spread Spectrum. An introduction to Spread Spectrum defined as a transmission technique in which a pseudo-noise code is emplouyed as a modulation waveform to spread the signal energy over bandwidth much greater than the signal information bandwidth. |
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| L102.pdf | MIT Introduction to Digital Communication. (2002) Lecture 1: Introduction to Digital Communication |
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| L202.pdf | MIT Introduction to Digital Communication. (2002). Lecture 2: Coding for Discrete Sources |
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| L302.pdf | MIT Introduction to Digital Communication. (2002). Lecture 3: Coding for Discrete Sources (cont.) |
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| L402.pdf | MIT Introduction to Digital Communication. (2002). Lecture 4: Coding for Sequences of Source Symbols |
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| L502.pdf | MIT Introduction to Digital Communication. (2002). Lecture 5: Sources with Memory and the Lempel-Ziv Algorithm |
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| L602.pdf | MIT Introduction to Digital Communication. (2002). Lecture 6: Quantization |
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| L702.pdf | MIT Introduction to Digital Communication. (2002). Lecture 7: High-rate entropy-coded quantization |
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| L802.pdf | MIT Introduction to Digital Communication. (2002). Lecture 8: Analog Sources: waveforms & sequences. |
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| L1002.pdf | MIT Introduction to Digital Communication. (2002). Lecture 10: Waveforms as vectors in signal-space |
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| L1102.pdf | MIT Introduction to Digital Communication. (2002). Lecture 11: Introduction to Channels and PAM |
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| L1202.pdf | MIT Introduction to Digital Communication. (2002). Lecture 12: QAM |
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| L1202.pdf | MIT Introduction to Digital Communication. (2002). Lecture 13: QAM and Noise |
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| L1302.pdf | MIT Introduction to Digital Communication. (2002). Lecture 13: QAM and Noise |
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| L1402.pdf | MIT Introduction to Digital Communication. (2002). Lecture 14: Noise and Gaussian random processes |
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| L1502.pdf | MIT Introduction to Digital Communication. (2002). Lecture 15: Gaussian noise, covariance and spectral density |
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| L1602.pdf | MIT Introduction to Digital Communication. (2002). Lecture 16: Spectral Density, Orthonormal Expansions |
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| L1702.pdf | MIT Introduction to Digital Communication. (2002). Lecture 17-18: Detection |
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| L1902.pdf | MIT Introduction to Digital Communication. (2002). Lecture 19: The irrelevance theorem and orthogonal signal sets |
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| L2001.pdf | MIT Introduction to Digital Communication. (2002). Lecture 20: Wireless Communication Systems |
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| L2102.pdf | MIT Introduction to Digital Communication. (2002). Lecture 21: Input/output models for wireless |
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| L2202.pdf | MIT Introduction to Digital Communication. (2002). Lecture 22: Stochastic wireless models |
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| L2302.pdf | MIT Introduction to Digital Communication. (2002). Lecture 23: Channel measurement and Rake receivers |
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| L2402.pdf | MIT Introduction to Digital Communication. (2002). Lecture 24: Coding, IS-95, and CDMA |
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| ATM - Internet.pdf | MIT Networking for Business Majors (2000). Emerging Technologies 1: Asynchronous Transfer Mode (ATM) |
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| BasicComTech.pdf | MIT Networking for Business Majors (2000). Basic Communication Technology and Concepts (Traditional) |
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| LANs.pdf | MIT Networking for Business Majors (2000). Local Area Networks |
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| Last Mile Technologies.pdf | MIT Networking for Business Majors (2000). Last Mile Technologies |
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| MITNetwork Protocols | MIT Networking for Business Majors (2000). Network Protocols |
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| MITWANs.pdf | MIT Networking for Business Majors (2000). Wide Area Networks (WANS) |
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| MITTechnical Networks.pdf | MIT Networking for Business Majors (2000). Technical Case Study: MITnet |
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| MITLecture1, Data Networks.pdf | Eytan Modiano. (n.d.) MIT Lecture 1. Data Networks. |
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| MITLecture2, DataLinkLayer.pdf | Eytan Modiano. (n.d.) MIT Lecture 2. The Data Link Layer: Framing and Error Detection. |
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| MITLecture3 | Eytan Modiano. (n.d.) MIT Lecture 3&4. The Date Link Layer: ARQ Protocols |
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| MITLecture5 | Eytan Modiano. (n.d.) MIT lecture 5&6. Introduction to Queueing Theory |
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| MITLecture7, Burkes theory | Eytan Modiano. (n.d.) MIT Lecture 7. Burkes Theorem and Networks of Queues |
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| MITLecture8 | ee |
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| MITLecture10 | Eytan Modiano. (n.d.) MIT Lecture 13&14. Packet Multiple Access. The Aloha Protocol. |
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| MITLecture7, Burkerstheory | Eytan Modiano. (n.d.) MIT Lecture 7. Burke’s Theorem and Networks of Queues |
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| MITLecture8&9, MG1.pdf | Eytan Modiano. (n.d.) MIT Lecture 8&9 |
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| www |
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| MITNetwork Protocols & ISO.pdf | MIT Networking for Business Majors (2000). Technical Case Study: MITnet |
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| MITLecture10&11, Reservationsystems.pdf | Eytan Modiano. (n.d.) MIT Lecture 10&11. Reservation Systems. M/G/1 queues with priorities. |
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| MITLecture3&4, ARQprotocols.pdf | Eytan Modiano. (n.d.) MIT Lecture 3&4. The Date Link Layer: ARQ Protocols |
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| MITLecture5&6Intro to Queueingtheory.pdf | Eytan Modiano. (n.d.) MIT lecture 5&6. Introduction to Queueing Theory |
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| MITLecture7, Burkerstheory&networkofqueues.pdf | Eytan Modiano. (n.d.) MIT Lecture 7. Burke’s Theorem and Networks of Queues |
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| MITLecture10 | Eytan Modiano. (n.d.) MIT Lecture 10&11. Reservation Systems. M/G/1 queues with priorities. |
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| MITLecture13 | Eytan Modiano. (n.d.) MIT Lecture 13&14. Packet Multiple Access. The Aloha Protocol. |
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| MITLecture15 | Eytan Modiano. (n.d.) MIT Lectures 15&16. Local Area Networks. |
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| MITLecture17 | Eytan Modiano. (n.d.) MIT Lectures 17&18. Fast Packet Switching |
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| MITLecture19, broadcastrouting.pdf | Eytan Modiano. (n.d.) MIT Lectures 19, Broadcast routing |
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| MITLecture20, Routingdatanet.pdf | Eytan Modiano. (n.d.) MIT Lecture 20, Routing in data networks |
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| MITLecture21, optimalrouting.pdf | Eytan Modiano. (n.d.) MIT Lecture 20, Routing in data networks |
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| MITLecture22 | Eytan Modiano. (n.d.) MIT Lecture 22&23, Flow and congestion control |
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| MITLecture24 | Eytan Modiano. (n.d.) MIT Lecture 24&25, Higher Layer Protocols |
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| MITLecture24&25, higherlayerprotocols.pdf | Eytan Modiano. (n.d.) MIT Lecture 24&25, Higher Layer Protocols |
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| MITLecture13&14, PacketMultipleAccess.pdf | Eytan Modiano. (n.d.) MIT Lecture 13&14. Packet Multiple Access. The Aloha Protocol. |
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| MITLecture15&16, LAN.pdf | Eytan Modiano. (n.d.) MIT Lectures 15&16. Local Area Networks. |
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| MITLecture17&18, fastpacketswich.pdf | Eytan Modiano. (n.d.) MIT Lectures 17&18. Fast Packet Switching |
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