Notes
Slide Show
Outline
1
Remote Access Techniques
and Issues
  • Bill Klein
  • Networking and Telecommunications Services
  • 10/25/2006
  • klein@ku.edu
2
Introduction
  • Presenter bio
  • The Information Services "triad"
    • Information repositories
      • Libraries (physical)
      • Databases (electronic)
    • Information manipulation and presentation
      • Personal computers
      • Servers
      • Applications
    • Information access and transport
      • Networks
3
Networks
  • The "internet" operates on many scales
    • Local Area Network (LAN) technologies
    • Metropolitan Area Network (MAN) technologies
    • Wide Area Network (WAN) technologies
  • These technologies are used to build real networks
    • Internet Service Providers (ISPs)
    • Enterprise/corporate networks
    • "Consortium" networks
    • Small office/home networks
4
Expectations
  • Anywhere, anytime access to information and services
    • While traveling (hotels, airports, coffee shops)
    • From home
  • How can your home computer be connected to the internet?
    • Wired
    • Wireless
5
Wires to Your Home
  • Electrical connection
  • Phone line (twisted pair copper)
  • Cable TV (coaxial cable)
  • Fiber optic
    • Not yet, but maybe someday ...


  • Ethernet is the defacto standard for connecting computers to the internet
    • Speeds up to 1000M bps
    • Distance limitations make its use from home (over existing wiring) impossible (LAN vs. MAN)
      • twisted pair copper:  300 feet
      • coaxial cable:  1000 feet
6
Can We Use These Wires to Connect to the Internet?
  • Electrical connection - No
    • Some experimentation has been done
      • No viable commercial services, yet ...
  • Phone line - Yes
    • Dialup modem
    • Digital Subscriber Line (DSL) service*
  • Cable TV - Yes
    • Cable modem service*
  • * where available!
7
Using the Phone Line:
Dialup Modem
  • Modulator / Demodulator
  • Converts computer data to "sounds" (in an electrical form) just like your telephone does for the human voice
  • Designed to use the "standard" Public Switched Telephone Network (PSTN) just like any normal call would be made
      • No modifications to the PSTN required
8
Dialup Modem continued
  • The earliest (and now the oldest) remote access technology
  • The modem uses "all" of your phone line
    • No incoming or outgoing human voice calls while the modem is in use, and vice versa
  • The performance is limited by the "capacity" provided by the PSTN for a voice call
    • The best modems today can operate at speeds up to 56K bps.  This is slow by today's standards.
    • The use of modems is fading fast.
9
Dialup Modem Environment
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Using the Phone Line:
Digital Subscriber Line
  • The telephone companies wanted to find a way to offer new data oriented services (and generate revenue) over their existing installed base of telephone wires
  • A technological "challenge" at the time
    • The "quality" of the wires is marginal at best for this purpose (one pair of twisted copper wires)
    • New signal processing technologies allow us to "squeeze" more data through the wires
11
DSL continued
  • The solution:  Frequency Division Multiplexing (FDM) and some fancy digital signal processing
    • One frequency is used to carry a standard voice call
    • A different frequency is used to carry computer data
    • Both frequencies can be carried simultaneously over the same wires
      • Standard incoming and outgoing voice calls can be made while your computer is connected to the internet
    • Performance is still limited by the nature of the wires and signal processing used, but speeds up to 3M bps are currently possible (at a premium price)
      • I just saw an ad on television where 6M bps performance is claimed
12
DSL Environment
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Using Cable
  • Your standard cable TV "wire" uses FDM to carry many TV channels simultaneously
    • The "wire" is a coaxial cable, which by its design can carry 100s of individual TV channels (not all are used in practice) simultaneously
    • One (or more) of these unused TV channels can be used to transport computer data
    • Current service offerings can provide up to 10M bps (at a premium price)
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Cable Environment
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Wireless
  • Many different technologies
    • AM/FM
    • Cellular phone
    • Satellite
    • Microwave
    • Laser
    • WiFi (IEEE 802.11)
      • aka wireless LAN
      • the most common technology used (today) for connecting computers to the internet wirelessly
16
WiFi
  • Distance and speed limited
    • Depends on "environment"
      • physical mass reduces signal strength
        • up to several hundred feet
        • 54M bps possible
          • actual speeds are typically 2M to 6M bps
  • Other issues
    • Interference from other signals
      • uses unlicensed radio frequency spectrum
    • Security
      • your data is transmitted "through the air" and can be easily intercepted by someone in range
        • use encryption
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WiFi Environment
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Watch Out For ...
  • Vendor performance claims
    • They rarely lie per se, but they don't always divulge the full picture readily (read the fine print carefully)
    • Advertised performance is only possible under "ideal" conditions
    • Asymmetric speeds
      • assumes that you will download more information from the internet to your computer than the other way around
      • max performance from the ISP to you, less performance in the other direction
  • Performance on the internet in general
    • There are NO performance guarantees!
  • Security
    • You should assume the worst unless you take specific steps
    • Protecting you computer
      • firewalls
      • anti-virus
    • Protecting your data during network transit
      • If the data you are transmitting/accessing is confidential, then you must use encryption
        • Secure Socket Layer (SSL)
        • Virtual Private Network (VPN) technology/service
19
Questions