Lecture Topic: Network Edge & Internet Access Technologies Bandwidth and Data Rate recap: The data rate cannot exceed the capacity of the bandwidth of a given channel, this is where the formula $R \leq B_w log_2(1+\frac{S}{N}) \triangleq C$ comes from Doubling the data rate means that you need a bandwidth that has at least as much capacity to handle the new data rate Internet Access Technologies: - DSL: - Using Frequency Division Multiplexing (FDM) it caries digital data through phone lines - Example: Voice 0-4 kHz, Upstream 4-50 kHz, Downstream 50 kHz-1 MHz - Twisted Pair Cable Wire: - Constitute a fine antenna - Cancel out cross talk and produce less radiation - A number of pairs are bundled together in a cable - Used in telephone systems, unheralded twisted pair (UTP) for local area networks, computer networks within a building (Ethernet) - Data Rate: 10Mbps - 10Gbps - Cable: - Use cable TV companies existing cable infrastructure - Hybrid fibre coaxial (HFC) access network - Coaxial cables are shared to reach individual homes - Fibre optics connect neighbourhood level junctions to CMTS - Asymmetric 40Mbps - 1.2Gbps downstream, 30Mbps - 100Mbps upstream - Data/TV are transmitted at different frequencies over shared cable - At the home, splits the signals into TV and Internet signals - Coaxial Cable - More complex structure - Better performance - Excellent noise immunity because cable is very shielded - Can span longer distances - Bandwidth is close to 1 Ghz - Data rates are higher than other technologies, 100s Mbps per channel - Fibre to the home (FTTH) - Optical network terminal in individual homes (ONT) - Optical line terminal in central office (OLT) - Fibre optic cables are similar to coax cables (lots of layers) - Class core with higher index of refraction than the outer glass - Light propagates through glass core - Thin plastic jacket to protect glass cladding - Fibres are typically grouped in bundles protected by an outer sheath - The outer layer keeps the light inside, not leaking any energy by reflecting the signal off an outer sheath - Has a few excellent features: - Very low signal attenuation up to 100km - Immune to electromagnetic interference - Larger bandwidth, support data rate up to 10s or 100s of Gbps - Hard to tap Network Core: - How is data moved through a network of links and packet switches? - There are two fundamental approaches - Circuit switching - Packet switching -