Chapter 11: Approaches to Networking
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Transcript of Chapter 11: Approaches to Networking
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Chapter 11:Approaches to Networking
Business Data Communications, 4e
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LANs, WANs, and MANs Ownership
WANs can be either public or private LANs are usually privately owned
Capacity LANs are usually higher capacity, to carry greater internal
communications load Coverage
LANs are typically limited to a single location WANs interconnect locations MANs occupy a middle ground
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Comparison of Networking Options
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Types of WANs
Circuit-switched Packet-switched
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Circuit-Switching
Definition: Communication in which a dedicated communications path is established between two devices through one or more intermediate switching nodes
Dominant in both voice and data communications today e.g. PSTN is a circuit-switched network
Relatively inefficient (100% dedication even without 100% utilization)
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Circuit-Switching Stages
Circuit establishment Transfer of information
point-to-point from endpoints to node internal switching/multiplexing among nodes
Circuit disconnect
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Circuit Establishment Station requests connection from node Node determines best route, sends message to next
link Each subsequent node continues the establishment
of a path Once nodes have established connection, test
message is sent to determine if receiver is ready/able to accept message
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Information Transfer
Point-to-point transfer from source to node Internal switching and multiplexed transfer
from node to node Point-to-point transfer from node to receiver Usually a full-duplex connection throughout
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Circuit Disconnect
When transfer is complete, one station initiates termination
Signals must be propagated to all nodes used in transit in order to free up resources
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Public Switched Telephone Network (PSTN)
Subscribers Local loop
Connects subscriber to local telco exchange
Exchanges Telco switching centers Also known as end office >19,000 in US
Trunks Connections between
exchanges Carry multiple voice
circuits using FDM or synchronous TDM
Managed by IXCs (inter-exchange carriers)
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Digital Circuit-Switching Node
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Circuit Switching Node:Digital Switch
Provides transparent signal path between any pair of attached devices
Typically full-duplex
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Circuit-Switching Node:Network Interface
Provides hardware and functions to connect digital devices to switch
Analog devices can be connected if interface includes CODEC functions
Typically full-duplex
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Circuit-Switching Node:Control Unit
Establishes on-demand connections Maintains connection while needed Breaks down connection on completion
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Blocking/Nonblocking Networks
Blocking: network is unable to connect two stations because all possible paths are already in use
Nonblocking: permits all possible connection requests because any two stations can be connected
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Switching Techniques
Space-Division Switching Developed for analog
environment, but has been carried over into digital communication
Requires separate physical paths for each signal connection
Uses metallic or semiconductor “gates”
Time-Division Switching Used in digital transmission Utilizes multiplexing to place
all signals onto a common transmission path
Bus must have higher data rate than individual I/O lines
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Routing in Circuit-Switched Networks
Requires balancing efficiency and resiliency Traditional circuit-switched model is
hierarchical, sometimes supplemented with peer-to-peer trunks
Newer circuit-switched networks are dynamically routed: all nodes are peer-to-peer, making routing more complex
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Alternate Routing
Possible routes between two end offices are predefined
Originating switch selects the best route for each call
Routing paths can be fixed (1 route) or dynamic (multiple routes, selected based on current and historical traffic)
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Control Signaling Manage the establishment, maintenance, and
termination of signal paths Includes signaling from subscriber to network, and
signals within network In-channel signaling uses the same channel for
control signals and calls Common-channel signaling uses independent
channels for controls (SS7)
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ISDN 1st generation: narrowband ISDN
Basic Rate Interface (BRI) two 64Kbps bearer channels + 16Kbps data channel (2B+D)
= 144 Kbps circuit-switched
2nd generation: broadband ISDN (B-ISDN) Primary Rate Interface (PRI) twenty-three 64Kbps bearer channels + 64 data channel
(23B+D) = 1.536 Mbps packet-switched network development effort led to ATM/cell relay
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Past Criticism of ISDN
“Innovations Subscribers Don’t Need” , “It Still Doesn’t Network” , “It Still Does Nothing”
Why so much criticism? overhyping of services before delivery high price of equipment delay in implementing infrastructure incompatibility between providers' equipment.
Didn’t live up to early promises
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ISDN Principles Support of voice and nonvoice using limited set of
standard facilities Support for switched and nonswitched applications Reliance on 64kbps connections Intelligence in the networks Layered protocol architecture (can be mapped onto OSI
model) Variety of configurations
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ISDN User Interface
“Pipe” to user’s premises has fixed capacity Standard physical interface can be used for
voice, data, etc Use of the pipe can be a variable mix of voice
and data, up to the capacity User can be charged based on use rather than
time
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ISDN Network Architecture
Physical path from user to office subscriber loop, aka local loop full-duplex primarily twisted pair, but fiber use growing
Central office connecting subscriber loops B channels: 64kbps D channels: 16 or 64kbps H channels: 384, 1536, or 1920 kbps
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ISDN B Channel
Basic user channel (aka “bearer channel”) Can carry digital voice, data, or mixture
Mixed data must have same destination Four kinds of connections possible
Circuit-switched Packet-switched Frame mode Semipermanent
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ISDN D Channel
Carries signaling information using common-channel signaling call management billing data
Allows B channels to be used more efficiently Can be used for packet switching
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ISDN H Channel
Only available over primary interface High speed rates Used in ATM
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ISDN Basic Access
Basic Rate Interface (BRI) Two full-duplex 64kbps B channels One full-duplex 16kbps D channel Framing, synchronization, and overhead bring total
data rate to 192kbps Can be supported by existing twisted pair local
loops 2B+D most common, but 1B+D available
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ISDN Primary Access
Primary Rate Interface (PRI) Used when greater capacity required No international agreement on rates
US, Canada, Japan: 1.544mbps (= to T1) Europe: 2.048mbps
Typically 23 64kbps B + 1 64kbps D Fractional use of nB+D possible Can be used to support H channels
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Packet-Switching Networks
Includes X.25, ISDN, ATM and frame-relay technologies
Data is broken into packets, each of which can be routed separately
Advantages: better line efficiency, signals can always be routed, prioritization option
Disadvantages: transmission delay in nodes, variable delays can cause jitter, extra overhead for packet addresses
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Packet-Switching Techniques
Datagram each packet treated independently and referred to as a
datagram packets may take different routes, arrive out of sequence
Virtual Circuit preplanned route established for all packets similar to circuit switching, but the circuit is not dedicated
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Packet-Switched Routing Adaptive routing changes based on network
conditions Factors influencing routing are failure and
congestion Nodes must exchange information on network status Tradeoff between quality and amount of overhead
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Packet-Switched Congestion Control
When line utilization is >80%, queue length grows too quickly
Congestion control limits queue length to avoid througput problems
Status information exchanged among nodes Control signals regulate data flow using
interface protocols (usually X.25)
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X.25 Interface Standard
ITU-T standard for interface between host and packet-switched network
Physical level handles physical connection between host and link to the node Technically X.21, but other standards can be substituted,
including RS-232 Link level provides for reliable data transfer
Uses LAPB, which is a subset of HDLC Packet level provides virtual circuits between
subscribers
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Virtual-Circuit Service
External virtual circuit: logical connection between two stations on the network
Internal virtual circuit: specific preplanned route through the network
X.25 usually has a 1:1 relationship between external and internal circuits
In some cases, X.25 can be implemented as a packet-switched network
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WANs for Voice
Requires very small and nonvariable delays for natural conversation--difficult to provide this with packet-switching
As a result, the preferred method for voice transmission is circuit-switching
Most businesses use public telephone networks, but a few organizations have implemented private voice networks
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WANs for Data
Public packet-switched networks (X.25) Private packet-switched networks Leased lines between sites (non-switched) Public circuit-switched networks Private circuit-switched networks (interconnected
digital PBXs) ISDN (integrated X.25 and traditional circuit-
switching)
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WAN Considerations
Nature of traffic stream generally works best with dedicated circuits bursty better suited to packet-switching
Strategic and growth control--limited with public networks
Reliability--greater with packet-switching Security--greater with private networks