Course Syllabus 4-Feb Measure of information II-Feb pling Theorem Sec.22.24 18-Feb MONDAY SCHEDULE 20-Feb Source coding Sec.62-63 25-Feb Modulation Sec.7.1-7.3 27-Feb Modulation 4-Mar nal reception Sec. 7.5 6-Mar Signal reception in noise ll-Mar LIo Quiz 1 13-Mar Lll BER analysis Sec. 7.6 18-Mar L12 Channel Capacity and coding Chapter 9 20-Mar L13 25-Mar Spring Break 27-Mar L14 Link budget analysis L15 Spectra of digitally modulated signals Sec.8.1-8.3
Course Syllabus Date Lecture 4-Feb L1 6-Feb L2 11-Feb L3 13-Feb L4 18-Feb 20-Feb L5 25-Feb L6 27-Feb L7 4-Mar L8 6-Mar L9 11-Mar L10 13-Mar L11 18-Mar L12 20-Mar L13 25-Mar 27-Mar 1-Apr L14 Eytan Modiano 3-Apr L15 Slide 6 Topic Introduction Measure of Information Sampling Theorem Quantization MONDAY SCHEDULE Source coding Modulation Modulation Signal reception in noise Signal reception in noise Quiz 1 BER analysis Channel Capacity and coding Channel Coding Spring Break Spring Break Link budget analysis Reading Chapter 1 Section 6.1 Sec. 2.2, 2.4 Sec. 6.5 Sec. 6.2-6.3 Sec. 7.1 - 7.3 Sec. 7.5 Sec. 7.5 Sec. 7.6 Chapter 9 Sec. 9.5 - 9.6 Sec. 7.7 Spectra of digitally modulated signals Sec. 8.1 - 8.3
Course Syllabus -Apr L16 Packet communications DLC, error checking using CRC Tanenbaum 3 L17 ARQ techniques Tanenbaum 3. 4.3 15-A L18 Multiple access: TDMA, FDMA, CDMA Class Notes 17-Apr L19 Quiz 2 22-Apr Patriots day L20 Intro to queueing Class Notes 29-Apr L21 Intro to queueing Class notes L22 Packet multiple access. Aloha/CSMA Tanenbaum 4 6-May L23 Local area networks Tanenbaum 4 8-May Packet routing Tanenbaum 5 13-May L25 Packet routins Tanenbaum 5 15-May L26 TCP/P and the Internet Tanenbaum 6: 6.4 5/9-5/23 FINAL EXAM PERIOD
Course Syllabus Date Lecture 8-Apr L16 10-Apr L17 15-Apr L18 17-Apr L19 22-Apr 24-Apr L20 29-Apr L21 1-May L22 6-May L23 8-May L24 13-May L25 15-May L26 5/19 - 5/23 Topic Reading Packet communications, DLC, error checking using CRC Tanenbaum 3 ARQ techniques Tanenbaum 3.4, 3 Multiple access: TDMA, FDMA, CDMA Class Notes Quiz 2 Patriots Day Intro to queueing Class Notes Intro to queueing Class Notes Packet multiple access: Aloha/CSMA Tanenbaum 4 Local area networks Tanenbaum 4 Packet routing Tanenbaum 5 Packet routing Tanenbaum 5 TCP/IP and the Internet Tanenbaum 6: 6.4 FINAL EXAM PERIOD Eytan Modiano Slide 7
Communication Applications Broadcast TViRadio Little new here Digital telephony Wired and wireless Computer communications/networks Resource sharing Computing: mainframe computer(old days) Printers peripherals Information, DB access and update Internet Services Email. FTP Telnet, Web access Today, the majority of network traffic is for internet applications
Communication Applications • Broadcast TV/Radio – Little new here • Digital telephony – Wired and wireless • Computer communications/networks – Resource sharing Computing: mainframe computer (old days) Printers, peripherals Information, DB access and update – Internet Services Email, FTP, Telnet, Web access • Today, the majority of network traffic is for internet applications Eytan Modiano Slide 8
Types of Networks Wide Area Networks(WANS Span large areas(countries, continents, world Use leased phone lines(expensive!) 1980s:10Kbps,2000s:25Gbps User access rates: 56Kbps-155 Mbps typical Shared comm links: switches and routers E.g, IBM SNA, X25 networks, Internet Local Area Networks(LANS Span office or building Single hop(shared channel)(cheap User rates: 10 Mbps-1 Gbps E.g., Ethernet, Token rings, Apple-talk Metro Area networks MANS Storage area networks
Types of Networks • Wide Area Networks (WANS) – Span large areas (countries, continents, world) – Use leased phone lines (expensive!) 1980’s: 10 Kbps, 2000’s: 2.5 Gbps User access rates: 56Kbps – 155 Mbps typical – Shared comm links: switches and routers E.g, IBM SNA, X.25 networks, Internet • Local Area Networks (LANS) – Span office or building – Single hop (shared channel) (cheap!) – User rates: 10 Mbps – 1 Gbps E.g., Ethernet, Token rings, Apple-talk • Metro Area networks (MANS) • Storage area networks Eytan Modiano Slide 9