R 12 Access amp Interconnection Technologies CECS 474 Computer Network Interoperability Notes for Douglas E Comer Computer Networks and Internets 5 th Edition Tracy Bradley Maples PhD ID: 158115
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CHAPTE
R 12Access & InterconnectionTechnologies
CECS 474 Computer Network Interoperability
Notes for Douglas E. Comer, Computer Networks and Internets (5th Edition)
Tracy Bradley Maples, Ph.D.
Computer Engineering & Computer Science
Cal
ifornia
State University, Long BeachSlide2
Access Technologies
Internet access technology refers to a data communications system that connects an Internet subscriber to an ISP (such as a telephone company or cable company).Defn: Downstream refers to data traveling from an ISP in the Internet to a subscriber.
Defn: Upstream
refers to data traveling from a subscriber to an ISP. Note: Most Internet users follow an asymmetric pattern where a subscriber receives more data from the Internet than sending.Slide3
Narrowband and Broadband Access Technologies
Two broad categories of technologies are used for Internet access:
Narrowband
& Broadband
Defn
:
Narrowband
refers to technologies that deliver data at up to 128
Kbps.
For example: The maximum data rate for dial-up phone lines is 56 Kbps and is classified as a narrowband technology. Defn: Broadband generally refers to technologies that offer high data rates, but the exact boundary between broadband and narrowband is blurry. • Many people suggest that broadband technologies must deliver more than 1 Mbps. • Unfortunately, this is not always the case. Thus, broadband may sometimes mean any speed higher than a dial-up line.
+ Fiber to the House (FTTH)Slide4
The Local Subscriber Loop
The terms local loop or local subscriber line are used to refer to the connection between the phone company Central Office (CO) and an individual subscriber’s residence or business. Subscribers that use dial-up modems or DSL obtain access to networks by using analog signals on a conventional analog telephone service. This conventional service consists of twisted pair and dialup call with 4 KHz of
bandwidth. It
may be able to handle much higher bandwidth
a subscriber close to a CO may be able to handle frequencies above 1
Mbps.Slide5
ISDN
(Integrated Services Digital Network) One of the first attempts to provide subscribers with high-speed digital servicesProvides digitized voice and data over conventional (twisted-pair copper) wiring The ISDN Basic Rate Interface (BRI) is (2B + D) channels B channels:
operate at 64 Kbps, intended for digitized voice, data or compressed video
D channel: operate at 16 Kbps, intended as a control channel Note:
Both
B channels can be bonded to form a single 128 Kbps
channel.
Note:
ISDN
sounded promising when it was proposed, but never was widely used and is now obsolete.Slide6
Digital Subscriber Line (DSL) Technologies
DSL (Digital Subscriber Line) is also a technology for providing digital services across the local loop. There are several variants of of DSL which differ by the first word in their title, so they are collectively, xDSL.Slide7
ADSL (Asymmetric Digital Subscriber Line)
Most popular xDSL technologyAsymmetric service (downstream service higher bit rate than upstream service)Maximum downstream rate is ~8 MbpsMaximum upstream rate is 576 Kbps (640 Kbps – 64 Kbps control channel)*Does not require any changes in local loop wiring
Can run simultaneously with standard phone service Slide8
Digital Subscriber Line (DSL) Technologies (cont’d)
Researchers noticed that many local loops can support frequencies higher than those used by the telephone system. ADSL technology is complex No two local loops have identical electrical characteristics.Designers
were nor able to pick
only on set of carrier frequencies (or modulation techniques) that would work in all cases.
ADSL is adaptive
When a pair of ADSL modems are powered on, they probe the line to find its characteristics and agree to communicate using
optimal techniques.
ADSL uses Discrete Multi Tone modulation (DMT)
it
combines frequency division multiplexing and inverse multiplexing techniques. FDM in DMT is implemented by dividing the bandwidth into 286 separate frequencies called sub-channels255 sub-channels allocated for downstream data transmission31 allocated for upstream data transmission Note: Other DSL Technologies also exist. For example, Symmetric Digital Subscriber Line (SDSL) provides symmetric bit rates in both directions.Slide9
Cable Modem Technologies
A variety of wireless and wired technologies have been developed for use in the local loop. An alternative access technology that uses the wiring already in place for cable television. It is also known as Community Antenna TeleVision (CATV). Coaxial cable has higher bandwidth and is less susceptible to electromagnetic interference than twisted
pair.
How fast can a cable modem operate?In theory, a cable system can support data rates of 52 Mbps downstream and 512 Kbps upstream.*In practice, the rate can be much
less.
The bandwidth is shared among
a set of N subscribers
(the size of the set is controlled by the cable provider
).Slide10
Hybrid Fiber Coax (HFC)
HFC can provide high-speed data communications Uses a combination of optical fibers and coaxial cablesFiber is used for central facilities and coax is used for connections to individual subscribers An HFC system is hierarchical.It uses fiber optics for the portions that require the highest bandwidth
I
t uses coax for parts that can tolerate lower data rates A
trunk
to refers to the high-capacity connections between the cable office and each neighborhood area
Feeder circuits
to refer to the connection to an individual
subscriber.
Trunk connections can be up to 15 miles long.Feeder circuits are usually less than a mile.Slide11
Access Technologies that use Optical Fiber
Fiber To The Curb (FTTC)Uses optical fiber for high capacity trunksRuns optical fiber close to the end subscriberUses copper for the feeder circuitsUtilizes additional media
in each feeder circuit to allow the cable system to provide an additional service (for example, voice)
Fiber To The Building (FTTB)
Use optical
fiber to allow high upstream data rates for businesses
Fiber To The Home (FTTH)
Uses
optical fiber to deliver higher downstream data rates to residential subscribers
Many channels for entertainment and video Fiber To The Premises (FTTP)A generic term, FTTP, encompasses both FTTB and FTTH Slide12
Wireless Access TechnologiesSlide13
The Internet Core
Access technologies handle the “last mile problem”.Where
the last mile is defined as the connection to a typical residential subscriber or a small business.
An access technology provides sufficient capacity for a residential subscriber or a small business.
the term Small Office Home Office (SOHO) is used
The
“core”
refers to
the
backbone of
Internet.Core technologies are high-speed technologies.Slide14
High Capacity at the
Internet CoreWhat technology can a provider use to move data a long distance at a high data rate (~10 Gbps)?
Point-to-point digital
circuits leased from a telephone company.
High-capacity digital circuits
for transferring data are
available for a monthly
fee.
Telephone
companies have the authority to install wiring that crosses municipal
streets.A circuit can extend between two buildings, across a city, or from a location in one city to a location in another.The fees charged depend on the data rate of the circuit and the distance
spanned.Slide15
Telephone Standards for Digital CircuitsSlide16
Highest Capacity Circuits (STS Standards)
Defn: Telephone companies use the term trunk to denote a high-capacity circuit, and have created a series of standards for digital trunk circuits Synchronous Transport Signal (STS) standards specify the details of high-speed connections:
Optical Carrier Standards
TELCOs define an equivalent set of Optical Carrier (OC)
standards
.
One should observe a distinction between the STS and OC terminology:
STS
standards refer to the electrical signals used in the digital circuit interface (i.e., over copper)
OC standards refer to the optical signals that propagate across the fiberSlide17
The C Suffix
The STC and OC terminology described above has one additional feature:an optional suffix of the letter C, which stands for concatenated The suffix denotes whether inverse multiplexing is used on the circuit:OC-3
consists of three OC-1 circuits operating at 51.840 Mbps each
OC-3C (STS-3C) consists of a single circuit that operates at 155.520 Mbps
Q:
Is a single circuit operating at full speed better than multiple circuits operating at lower rates?
A:
It depends on how the circuit is being used.
In general, having a single circuit operating at full capacity provides more flexibility and eliminates the need for inverse multiplexing equipment.