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Title:- QoS-Driven Traffic Optimization and Performance Evaluation in P2P, SDN, and Blockchain-Integrated Network Architectures



Implementation Plan:


Scenario 1: (with Baseline P2P)


Step 1: Initially, we create a network with 50- P2P Nodes and 10 Switches .

Step 2: Next we Simulate Environment to view the communication between the nodes

Step 3: Next, We implement a QOS based routing using Dijkstra’s algorithm to Prioritize video traffic.

Step 4: Next we balance the loads to Redirect network traffic during congestion.

Step 5:Finally Plot the performance Metrics:

5.1: Number of P2P Nodes Vs. Latency(ms)
5.2: Number of P2P Nodes Vs. Packet Loss(%)
5.3: Number of P2P Nodes Vs. Number of Playback stalls


Scenario 2: (with SDN)


Step 1: Initially, we created a SDN network with 50- P2P Nodes , 10 Switches and 2 Controllers (ONOS Controllers).

Step 2: Next we Simulate Environment to view the communication between the nodes

Step 3: Next, We implement a QOS based routing using Dijkstra’s algorithm to Prioritize video traffic.

Step 4: Next we balance the loads to Redirect network traffic during congestion.

Step 5:Finally Plot the performance Metrics:

5.1: Number of P2P Nodes Vs. Throughput(Mbps)
5.2: Number of P2P Nodes Vs. QOS ratio (%)
5.3: Number of P2P Nodes Vs. Intercontroller delay(ms)


Scenario 3: (Baseline P2P with Blockchain)


Step 1: Initially, we create a network with 50- P2P Nodes , 1- blockchain Node and 10 Switches .

Step 2: Next we Simulate Environment to view the communication between the nodes

Step 3: Next, We implement a QOS based routing using Dijkstra’s algorithm to Prioritize video traffic.

Step 4: Next we balance the loads to Redirect network traffic during congestion.

Step 5: Next,we perform peer authentication, routing logs, and chunk tracking with PBFT consensus using blockchain node.

Step 6: Next, we Combine P2P Nodes communication with Blockchain Node to optimize routing and log events on-chain.

Step 7:Finally Plot the performance Metrics:

7.1: Number of P2P Nodes Vs. Consensus time(ms)
7.2: Number of P2P Nodes Vs. Tamber resistance(k/w)
7.3: Number of NP2P odes Vs. blockchain storage(%)


Scenario 4: (Hybrid SDN with Blockchain)


Step 1: Initially, we create a network with 50- P2P Nodes , 10 Switches, 1 Blockchain node and 2 Controllers (ONOS Controllers).

Step 2: Next we Simulate Environment to view the communication between the nodes

Step 3: Next, We implement a QOS based routing using Dijkstra’s algorithm to Prioritize video traffic.

Step 4: Next we balance the loads to Redirect network traffic during congestion.

Step 5: Next,we perform peer authentication, routing logs, and chunk tracking with PBFT consensus using blockchain node.

Step 6: Next, we Combine SDN Nodes communication with Blockchain Node to optimize routing and log SDN events on-chain.

Step 7:Finally Plot the performance Metrics:

7.1: Number of P2P Nodes Vs. Latency(ms)
7.2: Number of P2P Nodes Vs. Network security(%)
7.3: Number of P2P Nodes Vs. Scalability(%)



Software requirement:


1. Development Tool: Ns - 3.35 with python
2. Operating System: Ubuntu 22.04 LTS (64-bit)



Note
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1) If the plan does not meet your requirements, provide detailed steps, parameters, models, or expected results in advance. Once implemented, changes won't be possible without prior input; otherwise, we'll proceed as per our implementation plan.

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

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

4) If you have any changes in the Dataset , kindly provide before implementation.

5) Please understand that any modifications made to the confirmed implementation plan will not be made after the project development.

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#QoSTrafficOptimization
#P2PNetworking
#SDNArchitecture
#BlockchainIntegration
#NetworkPerformance
#TrafficManagement
#PerformanceEvaluation
#SmartNetworks
#DataTransmission
#TechInnovation
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