Performance Analysis of LEO Satellite Networks Normal Traffic

Performance Analysis of LEO Satellite Networks and Normal Traffic

Implementation plan:
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Scenario 1: ( Using GEO Satellites)
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Step 1: Initially, we constructed a network using 100 –GEO Satellites, 3 base stations and 3 servers .

Step 2: Then, we simulate the network to view communication.

Step 3: Next, we Collect the simulated data from the network.

Step 4: Finally, we plot performance for the following metrics based on collected data:

4.1: Number of Satellites vs. End-to-End Latency
4.2: Number of Satellites vs. Throughput (Mbps)
4.3: Number of Satellites vs. Packet Delivery Ratio (%)
4.4: Number of Satellites vs. Resource Utilization (%)

Scenario 2: ( Using MEO Satellites)
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Step 1: Initially, we constructed a network using 100 – MEO Satellites, 3 base stations and 3 Servers .

Step 2: Then, we simulate the network to view communication .

Step 3: Next, we Collect the simulated data from the network.

Step 4: Finally, we plot performance for the following metrics based on collected data:

4.1: Number of Satellites vs. End-to-End Latency
4.2: Number of Satellites vs. Throughput (Mbps)
4.3: Number of Satellites vs. Packet Delivery Ratio (%)
4.4: Number of Satellites vs. Resource Utilization (%)

Scenario 3: ( Using LEO Satellites)
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Step 1: Initially, we constructed a network using 100 –LEO Satellites, 3 base stations and 3 Servers.

Step 2: Then, we simulate the network to view communications .

Step 3: Next, we Collect the simulated data from the network.

Step 4: Finally, we plot performance for the following metrics based on collected data:

4.1: Number of Satellites vs. End-to-End Latency
4.2: Number of Satellites vs. Throughput (Mbps)
4.3: Number of Satellites vs. Packet Delivery Ratio (%)
4.4: Number of Satellites vs. Resource Utilization (%)

Software Requirements:
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1. Development Tool: OMNeT++ 6.1
2. Operating System: Windows 10 (64-bit) or above

Note:
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1) If the proposed plan does not fully align with your requirements, please provide all necessary details—including steps, parameters, models, and expected outcomes—in advance. Once implementation begins, modifications will not be feasible without prior input. Kindly ensure that any missing configurations or specifications are clearly outlined in the plan before confirming, as post-implementation changes will not be accommodated.

2) If there’s no built-in solution for what the project needs, we can always turn to reference models, customize our own, different math models or write the code ourselves to fulfil the process.

3) If the plan satisfies your requirement, Please confirm with us.

4) Project based on Simulation only, not a real time project.

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