This document discusses optical switching and different types of optical switching techniques. It begins by defining an optical switch as a device that selectively switches optical signals between channels. It then discusses the need for optical switching to efficiently deliver information and restore networks. The main types of optical switching covered are optical circuit switching, optical packet switching, and optical burst switching. Optical circuit switching directly connects senders and receivers along a dedicated path, while optical packet and burst switching break data into packets or bursts for more efficient routing through networks. The document compares and contrasts the advantages and disadvantages of each technique.
6. Circuit Switching is a technique that directly connects the
sender and the receiver in an unbroken path.
7. Telephone switching equipment, for example,
establishes a path that connects the caller’s telephone to
the receiver’s telephone by making a physical
connection.
With this type of switching technique, once a
connection was established, a dedicated path exists
between both ends until the connection is terminated.
Disadvantages:-
DATA TRAFFIC
The circuits require time to set up and to destroy.
Low flexibility
8. Packet Switching transmits data across digital
networks by breaking it down into blocks or packets for
more efficient transfer using various network devices.
9. Packet switching is the transfer of small pieces of data
across various networks. These data chunks or
“packets” allow for faster, more efficient data transfer.
Each time one device sends a file to another, it breaks
the file down into packets so that it can determine the
most efficient route for sending the data across the
network at that time.
The network devices can then route the packets to the
destination where the receiving device reassembles
them for use.
10. Virtual circuit Datagram
Bandwidth, CPU, Buffer are reserved Not reserved
Same Path May or May not
In order Out of order
Connection Oriented Connection less
Costly Not much costly
S R
S
1
S
2
S
3
M M
S R
S
1
S
2
S
3
S5
S4
M M
11. Advantages:-
Delay in delivery of packets is less, since packets are
sent as soon as they are available.
Data delivery can continue even if some parts of the
network faces link failure. Packets can be routed via
other paths.
It allows simultaneous usage of the same channel by
multiple users.
It ensures better bandwidth usage as a number of
packets from multiple sources can be transferred via the
same link.
Disadvantages:-
Packet switching high installation costs.
They are unsuitable for applications that cannot afford
delays in communication like high quality voice calls.
13. In OBS network, packets are assembled into larger data
bursts(DB).For every burst ,a burst header project(BHP),DB
assembly and BHP generation is created in OBS edge nodes
Each DB/BHP pair is routed to their destination through the
nodes.
The burst is transmitted over a data channel and BHP is sent
over a dedicated control channel to the same node.
While data bursts switch optically, BHPS are converted to the
electrical domain for processing and converted back to optical
domain to transfer to the next node
Every packet has a header (a few bytes in front of the packet)
which contains information on where it is coming from and
where it us going. The switch reads this info and then
establishes and maintains connection with the destination until
either the packet arrives or the packet gets dropped.
14. Advantages:-
High flexibility
Efficient utilization of network
Disadvantages:-
Effort for traffic aggregation is complex
Resilience more complex
control is complex