Computer networks -- 2008-2009 -- info.uvt.ro/Course 6

• digital transmission:
  • sigle-ended signaling;
  • differential signaling;

• analogical transmission:
  • bandwidth: range of frequencies without significant attenuation;
  • frequency modulation;
  • amplitude modulation;

• transmission medium:
  • classification:
    • guided, un-guided;
    • shared, un-shared;
  • point-to-point, broadcast;
  • characteristics:
    • linear -- if different waves can be superposed;
    • bounded, un-bounded;
    • homogeneous, heterogeneous;
    • isotropic -- if transmission characteristics are in all directions;

• when choosing mediums we should take into consideration:
  • bandwidth;
  • latency;
  • costs:
    • OPEX (OPerational EXpense);
    • CAPEX (CApital EXpenditure);
    • TCO (Total Cost of Ownership);
  • compatibility with existing and future infrastructure;
  • flexibility -- like in the case of fiber optics which hasn't reached its physical limit;

• Never underestimate the bandwidth of a station wagon full of tapes hurtling down the highway. (Computer networks -- 4th edition)
• Sneakernet;

• presentation:
  • copper core;
  • insulating material;
  • braided outer conductor;
  • protective plastic covering;

• working principle:
  • the cable acts as a transmission medium for radio frequencies;
  • the electromagnetic field exists between the core and the outer conductor;
  • the outer conductor is grounded;

• types:
  • 50 ohm -- for digital transmission;
  • 75 ohm -- for analog transmission;

• advantages:
  • better noise immunity;
  • better shielding => longer distances;
  • higher bandwidth -- up to 1GHz;

• usage:
  • television;
  • MAN networks;

• references:
  • Wikipedia -- Coaxial cable;

• references:
  • Computer Networks, 4th edition -- section 2.2.3 Coaxial Cable;

• standards:
  • TIA/EIA-568-B (superseding TIA/EIA-568A);
  • (related) IEEE 802.3 (Ethernet);

• presentation:
  • two insulated copper wires forming a pair;
  • each pair forms a closed circuit;
  • each pair is twisted in a helical form;
  • one or more (4, or 25) pairs in one bundle;
  • a plastic coating for each bundle;
  • maybe shielding for either each pair and/or the entire bundle;

• working principle:
  • differential mode transmission;

• twisting:
  • reduce electromagnetic interference;
  • reduce electromagnetic radiation;
  • the twist rate differs from bundle to pair to pair in the same bundle;

• categories:
  • determined by the number of twists per centimeter;
  • CAT 3 -- 16 MHz, 10 MBit/s;
  • CAT 5/5e -- 100 MHz, 100 MBit/s or 1000 MBit/s (at 100m);
  • CAT 6/6e -- 250/500 MHz;
  • CAT 7 -- 600 MHz, 1 GBit/s or 10 GBit/s (at 100m);
  • CAT 7a -- 1000 MHz, upto 40 GBit/S (50m) or 100 GBit/s (at 15m);

• types:
  • UTP (Unshielded Twisted Pair);
  • STP (Shielded Twisted Pair);
  • S/UTP or S/STP (Screened UTP or STP);
  • lesser shielding => smaller distances;

• connectors:
  • 8P8C (or RJ45 (Registered Jack));

• usage:
  • phone lines;
  • computer networks;
  • security devices (cameras);
  • structured cabling;
  • advantages: cost, small diameter, flexibility;
  • disadvantages: smaller maximum lengths, small maximum tension;

• miscellaneous:
  • PoE (Power over Ethernet);

• references:
  • Wikipedia -- Twisted pair;
  • Wikipedia -- TIA/EIA-568-B;

• references:
  • Computer Networks, 4th edition -- section 2.2.2 Twisted Pair;

• presentation:
  • a thin fiber of glass -- the core (8, 50, or 60 micro meters);
  • another glass coating -- the cladding (125 micrometers);
  • a plastic protection;
  • fibers could be grouped in bundles;

• limits:
  • physical limit: 50000 Gbps, or 50 Tbps;
  • the current practical limit is 10 Gbps;
  • the current experimental limit is 100 Gbps;
  • limitations: conversion between electrical and optic signals;

• components:
  • light source;
  • transmission medium;
  • light detector;

• working principle:
  • light present => 1 bit;
  • light absent => 0 bit;
  • electrical pulse => light pulse => electrical pulse;
  • light is reflected internally in the silica fiber;
  • one way communication;

• types:
  • multi-mode: different rays at different angles;
  • single-mode: only one ray, the fiber is very thin;

• preferred wave-lengths:
  • determined based on attenuation;
  • 0.85, 1.30, 1.55 microns;
  • 25 up to 30 GHz width;

• fiber connections:
  • using connectors plugged into sockets -- 10 to 20% light loss;
  • mechanical splices -- 10% light loss;
  • fusion -- very small attenuation;

• light sources:
  • LED (Light Emitting Diodes);
  • semiconductor lasers;

• light detectors: photodiode;

• fiber optic networks:
  • point to point;
  • active interconnections -- repeaters;
  • passive interconnections;
  • by using the ring or star topology -- for multiple computers;

• hardware:
  • media converters;
  • fiber optic switches;

• references:
  • Computer Networks, 4th edition -- section 2.2.4 Fiber Optics;
  • Wikipedia -- Optical fiber;
  • How Fiber Optics Work;

• fiber:
  • higher bandwidths;
  • longer spans: 50km;
  • non corrosive;
  • thinner and lighter -- more lines in a cable duct;
  • better security against wiretappers;
  • easily damageable;
  • more skills needed;
  • one-way communication;
  • expensive interfaces;

• copper:
  • lower bandwidths;
  • shorter spans: 5km;
  • more robust;

• references:
  • Computer Networks, 4th edition -- section 2.2.4 Fiber Optics;

• driven by the need of non-stop on-line presence;
• it is estimated that in the future only fiber and wireless will exist;
• omnidirectional vs focused;
  • radio waves are omnidirectional (under 100 MHz) => no alignment needed;
  • but they could be concentrated (focused) on a direction (above 100 MHz) => proper alignment needed; microwaves;
• radio waves are subject to interference for other electrical equipment;

• references:
  • Computer Networks, 4th edition -- section 2.3.2 Radio Transmission;
  • Computer Networks, 4th edition -- section 2.3.3 Microwave Transmission;

• infrared used often for office appliances connectivity; or remote controls;
• lasers could be used to connect neighboring buildings; (but it is subject to outdoor conditions like rain, fog, or heat;)

• references:
  • Computer Networks, 4th edition -- section 2.3.5 Lightwave Transmission;

• communication satellites;
• PSTN -- public switched telephone network;
• cable television;

• references:
  • Computer Networks, 4th edition -- section 2.4 Communication Satellites;
  • Computer Networks, 4th edition -- section 2.5 The Public Switched Telephone Network;
  • Computer Networks, 4th edition -- section 2.6 The Mobile Telephone System;
  • Computer Networks, 4th edition -- section 2.7 Cable Television;

• usually it is more cost effective to install a high-bandwidth trunk and present them as low-bandwidth trunks;
• multiplexing can be:
  • FDM (Frequency Division Multiplexing) -- the frequency spectrum is divided into bands;
  • WDM (Wavelength Division Multiplexing) -- the same as FDM but for fiber optics;
  • TDM (Time Division Multiplexing( -- the users periodically get the entire bandwidth;
  • CDMA (Code Division Multiple Access);

The current page is (in almost all parts) a recompilation of the following pages (from previous year):

• Computer networks -- 2007-2008 -- info.uvt.ro/Course 4;

• conf. dr. Victoria Iordan, iordan@info.uvt.ro
• Ciprian Dorin Craciun, ccraciun@info.uvt.ro
• Marian Neagul, marian@info.uvt.ro