syllabus cu9213
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LESSON PLAN LP CU9213
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Date: 15/09/11
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Sub Code & Name: CU9213 Optical Communication NetworksUnit : I Branch : ME-CS Semester: I
UNIT I OPTICAL SYSTEM COMPONENTS 9
Syllabus:Light propagation in optical fibers Loss & bandwidth, System limitations,Non-Linear effects; Solitons; Optical Network Components Couplers, Isolators &
Circulators, Multiplexers & Filters, Optical Amplifiers, Switches, Wavelength
Converters
Objective: To study and understand about the different optical system components
Session
No.Topics to be covered Time Ref
Teaching
Method
1.Light propagation in optical fibers-Geometrical Optical
Approach50m 1 BB
2. Light propagation in optical fibers-Wave Theory Approach 50m 1 BB
3. Loss and Bandwidth, System Limitations 50m 1 BB
4. Non-Linear Effects, Solitons 50m 1 BB
5.Couplers-Principle of Operation, Conservation of Energy,
Isolators and Circulators-Principle of Operation50m 1 BB
6.Multiplexers and Filters-Gratings, Bragg Gratings, Fabry
Perot Filters50m 1 BB
7.Mach-Zehnder Interferometers, Optical Amplifiers-
Stimulated Emission, Spontaneous Emission50m 1 BB
8.Erbium-Doped Fiber Amplifier, Raman Amplifiers,
Semiconductor Optical Amplifier 50m 1 BB
9.Switches Large Optical Switches, Optical Switch
Technologies, Large Electronic Switches50m 1 BB
10.Wavelength Converters-Opto electronic Approach, Optical
Gating, Wave Mixing and Interferometric Techniques50m 1,2 BB
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LESSON PLAN LP CU9213
LP Rev. No: 01
Date: 15/09/11
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Sub Code & Name: CU9213 Optical Communication NetworksUnit : III Branch : ME-CS Semester: I
UNIT III WAVELENGTH ROUTING NETWORKS 9
The optical layer, Node Designs, Optical layer cost tradeoff, Routing and wavelength
assignment, Virtual topology design, Wavelength Routing Testbeds, Architectural
variations.
Objective: Tostudy about different wavelength routing network
Session
No.Topics to be covered Time Ref
Teaching
Method
21 Wavelength Routing Networks-The optical layer 50m 1 BB
22 Node Designs-Degree of Wavelength Conversion, Multiple
Fiber Networks
50m 1 BB
23 Node Designs-Degree of Transparency, Realizations 50m 1 BB
24 Optical layer cost tradeoff 50m 1 BB
25 Routing and wavelength assignment 50m 2 BB
26 Virtual topology design 50m 1 BB
27 Wavelength Routing Testbeds-Africa ONE/Sea Me We-3, AON, NTT
Ring
50m 1 BB
28 Wavelength Routing Testbeds-MWTN, ONTC, 50m 1 BB
29 Wavelength Routing Testbeds-Alcatels WDM Ring,
MONET
50m 1 BB
30 Architectural variations 50m 1 BB
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Sub Code & Name: CU9213 Optical Communication Networks
Unit : IV Branch : ME-CS Semester: I
UNIT IV PACKET SWITCHING AND ACCESS NETWORKS 9
Photonic Packet Switching OTDM, Multiplexing and Demultiplexing,
Synchronisation, Broadcast OTDM networks, Switch-based networks; Access
Networks Network Architecture overview, Future Access Networks, Optical Access
Network Architectures; and OTDM networks
Objective: To study about packet switching and access networks
Session
No.Topics to be covered Time Ref
Teaching
Method
31 Photonic Packet Switching-OTDM, Multiplexing and
Demultiplexing
50m 1 BB
32 Photonic Packet Switching-Synchronization 50m 1,2,3 BB
33 Broadcast OTDM networks 50m 1,2,3 BB
34 Switch-based networks-Functions of a Routing Node 50m 1,2,3 BB
35 Switch-based networks- Deflection Routing 50m 1,2,3 BB
36 Access Networks Network Architecture overview 50m 1 BB
37 Future Access Networks 50m 1 BB
38 Optical Access Network Architectures 50m 1,2,3 BB
39 OTDM Networks-Multiplexing and Demultiplexing,Bit Interleaving
50m 1,2,3 BB
40 OTDM Networks-Packet Interleaving, Optical AND
Gates
50m 1 BB
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Sub Code & Name: CU9213 Optical Communication Networks
Unit : V Branch : ME-CS Semester: I
UNIT V NETWORK DESIGN AND MANAGEMENT 9
Transmission System Engineering System model, Power penalty - transmitter,
receiver, Optical amplifiers, crosstalk, dispersion; Wavelength stabilization ; Overall
design considerations; Control and Management Network management functions,
Configuration management, Performance management, Fault management, Optical
safety, Service interface
Objective: To learn about designing of optical communication networks and managing them
Session
No.Topics to be covered Time Ref
Teaching
Method
41Transmission System Engineering System model,
Power Penalty, Transmitter & Receiver50m 1 BB
42Optical Amplifiers-Gain Saturation, Equalization &
Amplifier Cascades50m 1 BB
43 Optical Amplifiers-Amplifier Spacing Penalty, PowerTransients and Automatic Gain Control, Lasing Loops
50m 1 BB
44Crosstalk-Intra & Inter Channel Crosstalk, Crosstalk
Reduction50m 1 BB
45Dispersion-NRZ & RZ Modulation, Compensation,
Wavelength stabilization50m 1 BB
46Overall design considerations-Fiber Types &
Modulation etc.,50m 1 BB
47Network management functions-Management
Framework, Information Model, Management Protocols50m 1 BB
48Configuration management-Equipment Management,
Connection Management & Adaptation Management50m 1 BB
49 Performance & Fault Management 50m 1 BB
50 Optical safety & Service interface 50m 1 BB
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Sub Code & Name: CU9213 Optical Communication NetworksBranch : ME-CS Semester: I
Course Delivery Plan:
Week1 2 3 4 5 6 7 8 9 10 11 12 13
I II I II I II I II I II I II I II I II I II I II I II I II I
Units
1 1 1 1 1
2 2
2 2
2 3 3 3
3 3 4 4 4 4 4 5 5 5
5 5
CAT I CAT II CAT III
CAT IV CAT V
REFERENCES
1. Rajiv Ramaswami and Kumar N. Sivarajan, Optical Networks : A Practical
Perspective, Harcourt Asia Pte Ltd., Second Edition 2004.
2. C. Siva Ram Moorthy and Mohan Gurusamy, WDM Optical Networks :Concept, Design and Algorithms, Prentice Hall of India, Ist Edition, 2002.
3. P.E. Green, Jr., Fiber Optic Networks, Prentice Hall, NJ, 1993.
Prepared by Approved by
Signature
Name S.Senthil Rajan Prof.EG.Govindan
Designation Assistant Professor / EC Vice Principal & HOD-EC
Date 27-09-2011 27-09-2011