Course Outlines CIT 233

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Data Communication And Networking CIT 233 Course Outlines

Course Outlines CIT 233
Course Outlines CIT 233

1.       PRINCIPLES OF DATA COMMUNICATION AND NETWORKING

1.1.        DEVELOPMENT OF COMMUNICATION AND DATA COMMUNICATION.
1.2.     PRINCIPLE OF DATA COMMUNICATION.
1.3.     METHODS OF DATA TRANSMISSION.
1.4.     DIFFERENTIATE ANALOGUE SIGNALS AND DIGITAL.
1.5.     CAUSES OF TRANSMISSION ERROR.
1.6.     TRANSMISSION MEDIA.
1.7.     ADVANTAGES AND DISADVANTAGES OF TRANSMISSION MEDIA.
1.8.     DIFFERENT SYSTEMS OF CODING DATA.
1.9.      ASYNCHRONOUS TRANSMISSION.
1.11.    SYNCHRONOUS TRANSMISSION.
1.12.    ADVANTAGES OF SYNCHRONOUS AND ASYNCHRONOUS.
2.                  DATA LINK CONTROL
2.1.    DEFINE DATA FLOW CONTROL.
2.2.       SLIDING WINDOW FLOW CONTROL.
2.3.     SLIDING WINDOW CONTROL.
2.4.        ERROR DETECTION AND CORRECTION.

3.                   MULTIPLEXING
3.1.       NEED OF MULTIPLEXING.
3.2.           FREQUENCY DIVISION MULTIPLEXING.
3.3.           TIME DIVISION MULTIPLEXING.

4.                    WIDE ARE NETWORK  ( WAN )
4.1.           SWITCHING CONCEPTS.
4.2.           DEVELOPMENT SWITCHING NETWORKS.
4.3.           CIRCUIT-SWITCHED NETWORKS.
4.4.           ROUTING METHODS IN CIRCUIT SWITCHING NETWORKS.
4.5.           PACKET SWITCHING.
4.6.           ADVANTAGES OF PACKET SWITCHING.
4.7.       METHODS OF FRAME RELAY.
4.8.       ADVANTAGES OF FRAME RELAY PROTOCOL.
4.9.       PROTOCOL OF ASYNCHRONOUS TRANSFER MODE.
4.10.     PRINCIPLE OF ATM.
4.11.     BASIC CONCEPTS IN ISDN.       

5.                    LOCAL AREA NETWORK (LAN)
5.1.           LAN ARCHITECTURE.
5.2.           IDENTIFY DIFFERENT TOPOLOGY OF LAN.
5.3.           DESCRIBE DIFFERENT TOPOLOGY OF LAN.
5.4.           ILLUSTRATE DIFFERENT TOPOLOGY OF LAN.
5.5.           ADVANTAGES AND DISADVANTAGES OF EACH TOPOLOGY.
5.6.       DESCRIBE DIFFERENT LAN SYSTEMS LIKE ETHERNET.
5.7.       ADVANTAGES AND DISADVANTAGES OF DIFFERENT TOPOLOGY OF LAN    SYSTEMS.
5.8.       DESCRIBE BRIDGES.


6.                   CONNECTIVITY DEVICES
6.1.           NEED FOR CONNECTIVITY DEVICES.
 6.2.          OPERATIONAL PRINCIPLE OF MODEMS.
6.3.       DESCRIBE MODEMS.
6.4.           DESCRIBE HUBS AND REPEATERS.
6.5.       DESCRIBE BRIDGES, ROUTERS AND GATEWAYS.
6.6.       RELATIONSHIP OF DEVICES IN NETWORKING

7.                    INTER NETWORKING
7.1.           PRINCIPLES IN INTER NETWORKING
7.2.            NEED FOR PROTOCOLS IN INTER NETWORKING.        
7.3.          DESCRIBE EACH LAYER OF OSI MODEL OF NETWORK.
7.4.           CONNECTION LESS AND CONNECTION ORIENTED NETWORKING.
7.5.           INTERNET PROTOCOL (IP).
7.6.       DEVELOPMENT OF INTERNET ROUTING.
7.7.           DESCRIBE ROUTING PROTOCOL.
7.8.           TRANSPORT PROTOCOLS.
7.9.           TRANSMISSION CONTROL PROTOCOL (TCP).
7.10.     ADVANTAGES OF TCP/IP FROM OSI.

8.                   NETWORK ADMINISTRATION AND MANAGEMENT
8.1.           TYPES OF SERVERS.DIFFERENT.
8.2.          CREATE AND MANAGE USER ACCOUNTS.
 8.3.           USE SOFTWARE TO CONDUCT MONITORING OF NETWORKS.
8.4.           DATA PROTECTION AND SECURITY.
8.5.       MEANS TO PROTECT DATA AND SECURITY IN NETWORKS.


9.                   NETWORK TROUBLE SHOOTING
9.1.           STRUCTURED CABLING.
9.2.       IDENTITY NETWORK TESTING TOOLS.
9.3.           NETWORK TESTING TOOLS TO DIAGNOSE NETWORK FAULTS.
9.4.       PERFORM NETWORK FAULT DIAGNOSES.
9.5.           TROUBLESHOOT CONNECTIVITY AND COMMUNICATION FAULT.

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