Notes/UNB/Year 4/Semester 2/CS3873/2024-01-15.md
2024-01-22 10:12:48 -04:00

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Lecture Topic: Bandwidth and Data Rate

Analog: x(t) Discrete: x(n) Digital: from formula, range / set, bit sequence

Bandwidth: x(t) = \sum^{\infty}_{k=-\infty}A_k cos(2\pi f_k + \phi_k)

Fourier series

Shannon Theorem: For a Gaussian channel the data rate that can be achieved over a channel of a given bandwidth satisfies

R \leq B_w log_2(1+\frac{S}{N}) \triangleq C

R = Achievable data rate (bps) B_w = Channel bandwidth in Hz S/N = Signal to noise ratio (SNR) S = Signal power, N = noise power

Internet Architecture:

  • Network Edge
    • End systems: Host apps, not only computers and mobile devices but also wearables, sensors and large servers
    • Access Networks: (Last hop, last mile), Connect end systems to the first router (aka edge router)
  • Network Core:
    • Packet switches: Routers, link layer switches

A hierarchical look at A network of network:

  • Hosts connect to the internet via access ISPs, residential, cooperate ISPs, university ISPs, cellular data ISPs.
  • Access ISPs in turn are interconnected through regional ISPs and tier 1 ISPs

(Diagram in slides)

Internet Access and Physical Media:

  • Wired
    • Dial up
    • DSL
    • Cable
    • Fibre Optics
    • Ethernet
  • Wireless
    • WiFi
    • Cellular
    • Satellite

Wired media: EM waves are guided along a solid medium (twisted pair copper, coaxial cable, fibre optics) Wireless media: EM waves propagate through the air (Different electromagnetic spectrum/frequency bands)

Dial-Up: Use existing telephony infrastructure

  • Low Speed (56k)
  • Can't use phone and internet at the same time (not always present)
  • Modems modulate and demodulate data over phone lines

DSL: Digital Subscriber Line (Slides went fast)