DOC/LP/01/28.02.02
LESSON PLAN
LP-
CP7101
LP Rev.No: 00
CP7101 & Design and
Management of Computer Networks
Sub Code & Name :
Date: 19/09/2013
Page 01 of 06
Unit: I Branch: M.E. CSE (with specialization in computer
networks)
Semester:I
UNIT I
INTRODUCTION TO NETWORK MANAGEMENT
Overview of Analysis, Architecture and Design Process-System Methodology, Service
methodology, Service Description - Service characteristics - Performance Characteristics Network supportability - Requirement analysis – User Requirements – Application Requirements –
Device Requirements – Network Requirements – Other Requirements - Requirement specification
and map
Objective
To learn definitions of network analysis, architecture, and design and the importance of
network analysis in understanding the system and providing a defensible architecture and design
and how to model the network analysis, architecture, and design processes.
Session
No
1
2
Topics to be covered
Overview of Analysis, Architecture and Design
Process
System Methodology, Service methodology
Time
in min
Ref
Teaching
Method
50
R1(6-27)
PPT
50
R1(27-31)
PPT
3
Service Description, Service characteristics
50
R1(31-47)
PPT
4
Performance Characteristics, Network
supportability
50
R1(47-53)
BB
5
Requirement analysis – Background
50
R1(57-62)
PPT
6
User Requirements
50
R1(62-66)
BB
7
Application Requirements
50
R1(66-76)
PPT
8
Device Requirements, Network Requirements
50
R1(76-88)
BB
9
Other Requirements, Requirement specification
and map
50
R1(88-94)
PPT
DOC/LP/01/28.02.02
LESSON PLAN
LP-
CP7101
LP Rev.No: 00
CP7101 & Design and Management
Date: 19/09/2013
of Computer Networks
Sub Code & Name :
Page 02 of 06
Unit: II Branch: M.E. CSE (with specialization in computer
networks)
Semester:I
UNIT II
REQUIREMENTS ANALYSIS
Requirement Analysis Process – Gathering and Listing Requirements- Developing service metrics
– Characterizing behavior – Developing RMA requirements – Developing delay Requirements Developing capacity Requirements - Developing supplemental performance Requirements –
Requirements mapping – Developing the requirements specification
Objective
To study about different types of requirements from the user, application, device and
network components. To learn about how to group requirements together and to map the locations
of applications and devices.
Session
No
Topics to be covered
Time
In min
Ref
Teaching
Method
10
Requirement Analysis Process, Gathering and
Listing Requirements
50
R1(99-109)
BB
11
Developing service metrics
50
R1(109-113)
PPT
12
Characterizing behavior
50
R1(113-117)
BB
13
Developing RMA requirements
50
R1(117-125)
PPT
14
Developing delay Requirements
50
R1(125-130)
BB
15
Developing capacity Requirements
50
R1(130-133)
BB
16
Developing supplemental performance
Requirements
50
R1(133-145)
PPT
17
Requirements mapping
50
R1(149-151)
PPT
18
Developing the requirements specification
50
R1(151-155)
PPT
DOC/LP/01/28.02.02
LESSON PLAN
LP-
CP7101
LP Rev.No: 00
CP7101 & Design and
Management of Computer Networks
Sub Code & Name :
Date: 19/09/2013
Page 03 of 06
Unit: III Branch: M.E. CSE (with specialization in
computer networks)
Semester:I
UNIT III FLOW ANALYSIS
Individual and Composite Flows – Critical Flows - Identifying and developing flows – Data
sources and sinks – Flow models- Flow prioritization – Flow specification algorithms – Example
Applications of Flow Analysis
Objective
To learn how to identify and characterize traffic flows and how traffic flow analysis can be
used to couple performance requirements to various traffic flows.
Session
No
Topics to be covered
Time
In min
Ref
Teaching
Method
19
Individual and Composite Flows – Critical
Flows
50
R1(161-167)
PPT
20
Identifying and developing flows - Focusing
on a Particular Application
50
R1(167-175)
BB
21
Data sources and sinks
50
R1(175-180)
BB
22
Flow models – Peer to Peer, Client-Server
50
R1(180-185)
PPT
23
Flow models – Hierarchical Client–Server,
Distributed Computing
50
R1(185-191)
PPT
24
Flow prioritization
50
R1(191-193)
BB
25
Flow specification algorithms
50
R1(193-197)
PPT
50
R1(197-205)
PPT
26
Example Applications of Flow Analysis
DOC/LP/01/28.02.02
LESSON PLAN
LP-
CP7101
LP Rev.No: 00
CP7101 & Design and
Management of Computer Networks
Sub Code & Name :
Date: 19/09/2013
Page 04 of 06
Unit: IV Branch: M.E. CSE (with specialization in
computer networks)
Semester:I
UNIT IV NETWORK ARCHITECTURE
Architecture and design – Component Architectures – Reference Architecture – Architecture
Models – System and Network Architecture – Addressing and Routing Architecture – Addressing
and Routing Fundamentals – Addressing Mechanisms – Addressing Strategies – Routing
Strategies – Network Management Architecture – Network Management Mechanisms
Performance Architecture – Performance Mechanisms – Security and Privacy Architecture –
Planning security and privacy Mechanisms
Objective
To learn several concepts about network architecture. To develop internal and external
relationships within and between major functions like addressing and routing, security, network
management and performance in the network.
Session
No
28
29
30
31
32
Topics to be covered
Architecture and design
Component Architectures - Addressing /
Routing Component Architecture, Network
Management
Component
Architecture,
Performance Component Architecture
Component
Architectures
Security
Component Architecture,
Optimizing
Component
Architectures,
Reference
Architecture
Architecture Models, System and Network
Architecture
Addressing and Routing Architecture,
Addressing and Routing Fundamentals
Time in
min
Ref
Teaching
Method
50
R1(211-215)
BB
50
R1(215-225)
BB
50
R1(225-232)
BB
50
R1(232-245)
PPT
50
R1(249-257)
PPT
33
Addressing Mechanisms
50
R1(257-269)
PPT
34
Addressing Strategies, Routing Strategies
50
R1(278-291)
PPT
50
R1(299-311)
PPT
50
R1(333-351)
BB
50
R1(359-377)
PPT
35
36
37
Network Management Architecture, Network
Management Mechanisms
Performance
Architecture,
Performance
Mechanisms
Security and Privacy Architecture, Planning
security and privacy Mechanisms
DOC/LP/01/28.02.02
LESSON PLAN
LP-
CP7101
LP Rev.No: 00
CP7101 & Design and
Management of Computer Networks
Sub Code & Name :
Date: 19/09/2013
Page 05 of 06
Unit: V Branch: M.E. CSE (with specialization in computer
networks)
Semester:I
UNIT V
NETWORK DESIGN
Design Concepts – Design Process - Network Layout – Design Traceability – Design Metrics –
Logical Network Design – Topology Design – Bridging, Switching and Routing Protocols Physical Network Design – Selecting Technologies and Devices for Campus and Enterprise
Networks – Optimizing Network Design
Objective
To learn about the design process and to apply them toward making design decisions
including how to evaluate and select vendors, vendor products, and service providers, and
diagramming the design.
Session
Time
Teaching
Topics to be covered
Ref
No
In min
Method
38
Design Concepts, Design Process
50
R1(386-395)
BB
39
Network Layout
50
R1(408-422)
PPT
40
Design Traceability, Design Metrics
50
R1(422-429)
BB
50
R3(117-135)
PPT
50
R3(135-162)
PPT
41
42
Logical Network Design, Topology DesignHierarchical Network Design, Redundant
Network Design Topologies,
Modular
Network Design,
Topology Design, Designing a Campus
Network Design Topology, Designing the
Enterprise Edge Topology, Secure Network
Design Topologies
43
Bridging and Switching Protocols
50
R3(200-209)
PPT
44
Routing Protocols
50
R3(209-230)
PPT
50
R3(281-316)
PPT
50
R3(319-349)
BB
50
R3
PPT
45
46
47
Physical
Network
DesignSelecting
Technologies and Devices for Campus
Networks
Selecting Technologies and Devices for
Enterprise Networks
Optimizing Network Design
DOC/LP/01/28.02.02
Course Delivery Plan
Week
Units
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
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 II I II I II
1
2
3
4
5
CAT-I
CAT-II
CAT-III
Course Outcome:
The Students should be able to
• Gather, derive, define and validate real requirements for the specified network.
• Implement how and where addressing and routing, security, network management, and
performance are required in the network.
• Evaluate and select vendors, vendor products, and service providers for the project.
• Develop traceability between requirements, architecture decisions, and design decisions.
• Apply routing protocols (RIP/RIPv2, OSPF, BGP-4, MPLS), as well as classful and
classless IP addressing mechanisms.
• Apply performance mechanisms, including quality of service, service-level agreements,
and policies in the given network.
REFERENCES
1. Network Analysis, Architecture, and Design By James D. McCabe, Morgan Kaufmann,
Third Edition, 2007.ISBN-13: 978-0123704801
2. Computer Networks: A Systems Approach by Larry L. Peterson, Bruce S. Davie - 2007,
Elsevier Inc.
3. Top-down Network Design: [a Systems Analysis Approach to Enterprise Network Design]
By Priscilla Oppenheimer, Cisco Press , 3rd Edition, ISBN-13: 978-1-58720- 283-4 ISBN10: 1-58720-283-2
4. Integrated Management of Networked Systems: Concepts, Architectures, and Their
Operational Application (The Morgan Kaufmann Series in Networking), Heinz-Gerd
Hegering, Sebastian Abeck, and Bernhard Neumair, 1999.
5. “Network Design and Management” – by Steven T.Karris, Orchard publications, Second
edition, Copyright 2009, ISBN 978-1-934404-15-7
6. “Network Design, Management and Technical Perspective”, Teresa C. Mann-Rubinson
and Kornel Terplan, CRC Press, 1999
7. “Ethernet Networks-Design, Implementation, Operation and Management by Gilbert Held,
John Wiley and sons, Fourth Edition
8. James Kurose and Keith Ross, “Computer Networking: A Top-Down Approach Featuring
the Internet”, 1999
Prepared by
Approved by
Ms.D.Jayanthi
Dr.D.Balasubramanian
AP / IT
HoD/IT
19-9-2013
19-9-2013
Signature
Name
Designation
Date