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Srinivasan Engineering College, PerambalurDepartment Of Computer Science and Engineering

Even Semester 2013 – 2014DATE: 16.12.2013

Course HandoutL T P C

Course No : CS1451 3 0 0 3Course Title : Network ProtocolsCourse Instructor : Elakkiya.PInstructor-in-charge : Banupriya.S

COURSE OBJECTIVES

∑ To study the functions of various network protocols.∑ To study the mechanisms used in network management.∑ To study Protocols and Standards used by various entities in an end-to end connection over the

Internet.

COURSE OUTCOME

Upon successful completion of this course, a student will be able to..

∑ Recognize the functions and uses of a Frame Relay protocol and Call control.∑ Understand the issues involved in congestion control in packet switching network.∑ Know the basic functions of various protocols.∑ Know how to monitor the status and behavior of end system, sub sytem and intermediate

system∑ Learn how to create Common Network management system

.TEXT BOOK(S) [TB]

1.William Stallings, “Data and Computer Communications” 5th Edition, PHI, 1997.2.William Stallings, “SNMP, SNMPV2, SNMPV3 and RMON1 and 2”, 3rd Edition, Addison Wesley, 1999.3. Mani Subramanian, “Network Management−Principles and Practices”, Addison Wesley, 2000.4. William Stallings, “Cryptography and Network Security”, PHI, 2000.5. William Stallings, “High speed networks and Internets – Performance and Quality of service”, pearson, second edition.6. William Stallings,”ISDN And Broadband ISDN with frame relay and ATM”, 4ED.

COURSE PLAN / SCHEDULE

S.No Topics to be covered Learning objectivesRef. to Text

BookNo. of

lectures

1 Frame relay protocol architectureDescribe the primary functionality traits of Frame Relay

T1[301-302] 2

2 Call controlDetails of call control depend on the context of its use

T5[88] 1

3 Data transferConnection setup/teardown carried on separate channel. Cannot do flow and error control

T1[302-303] 2

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4 Overview of ISDNDecribes about multimedia network provides itegrated analog and digital services over the same network

T6[97-117] 2

5 ChannelsIncludes LAPD and bearer channel data link control.

T6[181-215] 2

6 User access 3 types of it services,voice,video and data T6[161-178]1

7 ProtocolsNorrow band ISDN is also known as basic ISDN

T6[134-136] 1

8 ATM Protocol architectureFixed-size packets called cells. Increases network performance and reliability

T1[308-314] 2

9 Transmission of ATM cellsWay to implement the switching mechanism in hardware.

T1[319-324] 1

10 ATM adaptation layerNeeds to support information transfer protocols not based on ATM

T5[107-117] 2

11 Congestion controlTo understand the issues involved in congestion control in packet switching network

T1[355-387] 2

12 Broadband ISDN Transports very high data rate signals T6[373-409] 2

13 Basic Protocol functionExplains various protocol functions like encapsulation, fragmentation and reassembly

T1[528-535] 2

14 Internet Protocol OperationIt includes routing, datagram lifetime error and flow control.

T1[539-546] 2

15 Internet ProtocolIP provides a connectionless or datagram, service between end systems.

T1[546-548] 1

16 IP v4IPv4 is a connectionless protocol for use on packet-switched Link Layer networks

T1[548-556] 1

17 IPV6The Internet operates by transferring data between hosts in small packets

T1[556-565] 1

18 Routing Protocols

Specifies how routers communicate with each other, disseminating information that enables them to select routes between any two nodes on a computer network

T1[584-595] 2

19Internet Application Protocols -Voice over IP and Multimedia support – SIP

Supports any type of single media or multimedia session, including teleconferencing

T1[775-784] 2

20 RTPDefines a standardized packet format for delivering audio and video over IP networks.

T1[784-795] 2

21Network management requirements

Describes about fault management, accounting and performance management

T2[18-22] 2

22 Network monitoring

Monitors the status and behavior of the end systems, intermediate systems, and subsystems that make up the configuration to be managed.

T2[39-61] 2

23 Network controlConcerned about configuration control security control.

T2[71-83] 2

24 SNMPSimple network management protocol -"Internet-standard protocol for managing devices on IP networks

T2[179-218] 2

25 Concepts & MIBsExplains the model of network management that is used for TCP/IP network management.

T2[87-173] 2

26 Implementation issuesExplains various practical issues of SNMP

T2[208-218] 2

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27 SNMP V2 system architectureTwo significant enhancements in SNMPv2 architecture, contains 7 messages and 2 manager applications.

T3[208-209] 2

28 ProtocolsDescribes data structures iofSNMPv2 PDUs and SNMPv2 protocol operations.

T3[242-249] 2

39 SNMP V3an interoperable standards-based protocol for network management

T3[254-284] 2

30 RMON

Remote Network MONitoring (RMON) MIB was developed by the IETF to support monitoring and protocol analysis of LANs

T3[287-306] 2

31 CMIPDefines how to create a common network management system. CMIP is more complex

T3[629-632] 2

Total number of classes planned: 56

EVALUATION SCHEME – INTERNAL ASSESSMENT

LINKS:Question Bank : http://www.sriengg.com/question-bank/University Question Paper : http://www.sriengg.com/question-bank/

HOD Instructor-In-Charge Co- Instructor(S.Jayanthi) (P.Elakkiya) (S.Banupriya)

EC No.

Evaluation Components

Duration Weightage Date & Time Venue

1 Slip Tests 40 min 20%Monday-Friday

&8.30am to 9.15am

To

be

anno

unce

d la

ter

2 Cycle Test 1 1.30hr

30%

27-01-2014 To 01-02-2014

&8.30am to 10.00am

3 Cycle Test 2 1.30hr

17-02-2014 To 24-02-2014

&8.30am to 10.00am

4 Cycle Test 3 1.30hr

10-03-2014 To 15-03-2014

&8.30am to 10.00am

5 Model Exam 3hr 30%

05-04-2014 To 11-04-2014

&1.00pm to 4.00pm

6Attendance

percentageContinuous 20%