Netsim Experiment Manual 1st Edition by Tectos

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Author: Tectos

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Netsim Experiment Manual 1st Edition Table of contents:

1 Introduction to NetSim
1.1 Introduction to network simulation with NetSim, NetSim feature list and NetSim Simulation environment
1.2 How does a user create and save an experiment in workspace?
1.3 Typical sequence of steps to do experiments in this manual
2 Understand Measures of Network Performance: Throughput and Delay
2.1 Introduction
2.1.1 Throughput
2.1.2 Delay
2.2 NetSim Simulation Setup
2.3 Part-1: Throughput Analysis
2.3.1 Without packet acknowledgement (UDP)
2.3.2 With Packet Acknowledgement (TCP)
2.3.3 Output
2.4 Part – 2: Delay Analysis
2.4.1 Procedure
2.4.2 Output
3 Throughput and Bottleneck Server Analysis
3.1 Introduction
3.1.1 A Single Flow Scenario
3.1.2 Multiple Flow Scenario
3.2 NetSim Simulation Setup
3.3 Part-1: A Single Flow Scenarios
3.3.1 Procedure
3.3.2 Performance Measure
3.3.2.1 Average Queue Computation from Packet Trace
3.3.3 Results
3.3.3.1 Bottleneck Server Analysis as M/G/1 Queue
3.4 Part – 2: Two Flow Scenario
3.4.1 Procedure
3.4.2 Results
3.5 Useful Exercises
4 Delay and Little’s Law
4.1 Introduction
4.1.1 Little’s Law
4.2 NetSim Simulation Setup
4.3 Part-1: A Single Flow Scenario
4.3.1 Procedure
4.3.2 Performance Measure
4.3.2.1 Average Queue Computation from Packet Trace
4.3.2.2 Network Delay Computation from Packet Trace
4.3.3 Results
4.3.3.1 Bottleneck Server Analysis as M/G/1 Queue
5 Understand working of ARP, and IP Forwarding within a LAN and across a router
5.1 Theory
5.2 ARP protocol Description
5.3 ARP Frame Format
5.4 IP Forwarding Description
5.5 Network Set up
5.6 Procedure
5.7 Output – I
5.8 Inference I
5.9 Procedure
5.10 Output – II
5.11 Inference II
6 Simulate and study the spanning tree protocol
6.1 Introduction
6.2 Network Setup
6.3 Procedure
6.4 Output
6.5 Inference
7 Introduction to TCP connection management
7.1 Introduction
7.2 Network Setup
7.3 Procedure
7.4 Output
8 Reliable data transfer with TCP
8.1 Introduction
8.2 Network Setup
8.3 Procedure
8.4 Output
8.5 Inference
9 Mathematical Modelling of TCP Throughput Performance
9.1 Introduction
9.1.1 Loss-less Network
9.1.2 Lossy Network
9.2 Network Setup
9.3 Procedure
9.4 Output
9.5 Observations and Inference
10 Study how throughput and error of a Wireless LAN network changes as the distance between the Access Point and the wireless nodes is varied
10.1 Introduction
10.2 Background
10.3 Network Setup
10.4 Procedure
10.5 Output
10.6 Inference
11 WiFi: UDP Download Throughput
11.1 The Setup and Motivation
11.2 Predicting the UDP Throughput
11.2.1 One AP and one STA
11.2.1.1 Without RTS / CTS
11.2.1.2 With RTS/CTS
11.2.2 Multiple APs (near each other) and one STA per AP
11.3 Network Setup
11.4 Procedure
11.4.1 Part-1: Without RTS/CTS
11.4.1.1 Part-1: With RTS/CTS
11.4.2 Part-2: Without RTS/CTS: 2APs
11.4.3 Part-2: With RTS/CTS: 2APs
11.5 Output I
11.6 Output II
11.7 Discussion
12 How many downloads can a Wi-Fi access point simultaneously handle?
12.1 Motivation
12.2 Objective
12.3 Theory
12.4 Procedure
12.5 Procedure
12.6 Measurements and Output
12.7 Inference
12.8 Reference Documents
13 TCP Congestion Control Algorithms
13.1 Introduction
13.2 Network Setup
13.3 Procedure
13.4 Output
13.5 Observations and Inference
14 Multi-AP Wi-Fi Networks: Channel Allocation
14.1 Introduction
14.2 Network Setup
14.3 Output
14.4 Discussion
14.4.1 All APs on the same channel
14.4.2 Each AP on a different nonoverlapping channel
15 Plot the characteristic curve of throughput versus offered traffic for a Pure and Slotted ALOHA system
15.1 Theory
15.1.1 Pure ALOHA
15.1.2 Slotted ALOHA
15.2 Calculations used in NetSim to obtain the plot between S and G
15.3 Network Set Up
15.4 Output
16 Study the working and routing table formation of Interior routing protocols, i.e. Routing Information Protocol (RIP) and Open Shortest Path First (OSPF)
16.1 Introduction
16.1.1 RIP
16.1.2 OSPF
16.1.3 Formation of OSPF Routing Table
16.2 Network Setup
16.3 Procedure
16.4 Output I
16.5 Output II
16.6 Inference
16.6.1 RIP
16.6.2 OSPF
17 M/D/1 and M/G/1 Queues
17.1 Motivation
17.2 Mathematical Analysis of the M/D/1 Queue
17.3 The Experimental Setup
17.4 Procedure
17.5 Obtaining the Mean Queuing delay from the Simulation Output
17.6 Output Table
17.7 Advanced Topic: The M/G/1 Queue
17.8 A NetSim Exercise Utilising the M/G/1 Queue
18 Wi-Fi Multimedia Extension (IEEE 802.11 EDCA)
18.1 Introduction
18.2 EDCAF: Access Categories
18.3 EDCAF: Service Differentiation Mechanisms
18.4 The Experimental Plan
18.5 Simulation Experiments to Study IEEE 802.11 EDCAF
18.6 Simulation Results
18.7 Discussion of the Simulation Results
19 Cyber physical systems (CPS) and IoT – An Introduction
19.1 Introduction
19.2 Components of IoT
19.3 Network Setup
19.4 Procedure
19.5 Output
19.6 Output
20 One Hop IoT Network over IEEE 802.15.4
20.1 Introduction
20.2 The IEEE 802.15.4 PHY and MAC
20.3 Objectives of the Experiment
20.4 NetSim Simulation Setup
20.5 Simulation Procedure
20.6 Analysis of Maximum Throughput
20.7 Comparison of Simulation and Calculation
21 IoT – Multi-Hop Sensor-Sink Path
21.1 Introduction
21.2 Theory
21.3 Network Setup
21.4 Part 1 – Packet Delivery Rate vs. Distance
21.4.1 Procedure
21.4.2 Output
21.4.3 Inference
21.5 Part 2 – Reaching a Longer Distance by Multihopping
21.5.1 Procedure
21.5.2 Procedure
21.5.3 Output
21.5.4 Inference
22 Performance Evaluation of a Star Topology IoT Network
22.1 Introduction
22.2 NetSim Simulation Setup
22.3 Procedure
22.4 Output
22.5 Discussion
22.6 References
23 Study how call blocking probability varies as the load on a GSM network is continuously increased
23.1 Network Setup
23.2 Procedure
23.3 Output
23.4 Inference
24 Study the 802.15.4 Superframe Structure and analyze the effect of Superframe order on throughput
24.1 Introduction
24.2 Network Setup
24.3 Procedure
24.4 Output
24.5 Inference
25 Understand the working of OSPF
25.1 Objective
25.2 Theory
25.3 Network Setup
25.4 Procedure
25.5 Output
26 Understand the working of basic networking commands (Ping, Route Add/Delete/Print, ACL)
26.1 Theory
26.2 Network setup
26.3 Procedure
26.4 Network Commands
27 To analyze how the allocation of frequency spectrum to the Incumbent (Primary) and CR CPE (Secondary User) affects throughput
27.1 Introduction
27.2 Network Setup
27.3 Procedure
27.4 Output
27.5 Inference
28 Simulate and study 5G Handover procedure
28.1 Introduction
28.2 Network Setup
28.3 Part-I
28.3.1 Procedure
28.3.2 Results and Discussion
28.3.2.1 Handover Signaling
28.3.2.2 Plot of SNR vs. Time
28.4 Part-II: Throughput and delay variation during handover
28.4.1 Procedure:
28.4.2 Computing delay and throughput
28.4.2.1 Delay computation from Event Traces
28.4.3 Results and Discussion
29 Understanding VLAN operation in L2 and L3 Switches
29.1 Introduction to VLAN
29.2 Network setup
29.3 Procedure
29.4 Output and Inference: I
29.5 Output and Inference: II
30 Understanding Access and Trunk Links in VLANs
30.1 Theory
30.2 Network Setup
30.3 Procedure
30.4 Output
31 Understanding Public IP Address & NAT (Network Address Translation)
31.1 Theory
31.1.1 Public Address
31.1.2 Private Address
31.1.3 Network address translation (NAT)
31.2 Network Setup
31.3 Procedure
31.4 Output
32 Understand the events involved in NetSim DES (Discrete Event Simulator) in simulating the flow of one packet from a Wired node to a Wireless node
32.1 Theory
32.2 Network Setup
32.3 Procedure
32.4 Output
32.4.1 Events Involved
32.5 Discussion
33 Understand the working of TCP BIC Congestion control algorithm, simulate and plot the TCP congestion window
33.1 Theory
33.2 Network setup
33.3 Procedure
33.4 Output
34 Simulating Link Failure
34.1 Objective
34.2 Theory
34.3 Network Setup:
34.3.1 Part-I
34.3.1.1 Procedure
34.3.1.2 Output
34.3.2 Part-II
34.3.2.1 Procedure
34.3.2.2 Output

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