Utilizing portfolio selection for congestion avoidance allows for multiple path routing to be used.

Utilizing portfolio selection for congestion avoidance allows for multiple path routing to be used.

Multiple Path Routing Using Portfolio Selection for Congestion Avoidance

Multiple Path Routing Using Portfolio Selection for Congestion Avoidance

Introduction

In today’s digital age, the internet has become an integral part of our lives. With the increasing number of users and data traffic, network congestion has become a common issue. Congestion in computer networks occurs when the demand for network resources exceeds the available capacity, leading to delays and packet losses. To address this problem, multiple path routing using portfolio selection has been proposed as a solution for congestion avoidance.

Problem Statement

The existing routing algorithms in computer networks are often based on a single path routing approach, which can lead to congestion on the network. When a particular path becomes congested, the packets are delayed or dropped, affecting the overall performance of the network. This necessitates the need for an efficient routing algorithm that can dynamically select multiple paths for data transmission to avoid congestion and improve the network’s overall performance.

Existing System

Currently, most routing algorithms in computer networks use a single path routing approach, where all the data packets are transmitted through a single path. This approach can lead to network congestion, as all the traffic is concentrated on a single path. When congestion occurs, the network performance degrades, leading to delays and packet losses.

Disadvantages

The disadvantages of the existing system include:

  • Network congestion
  • Packet delays
  • Packet losses
  • Decreased network performance

Proposed System

The proposed system aims to address the limitations of the existing routing algorithms by using multiple path routing combined with portfolio selection. This approach involves dynamically selecting multiple paths for data transmission based on the current network conditions. By distributing the traffic across multiple paths, the proposed system can effectively avoid congestion and improve the overall performance of the network.

Advantages

The advantages of the proposed system include:

  • Congestion avoidance
  • Improved network performance
  • Reduced packet delays
  • Minimized packet losses

Features

The key features of the proposed system include:

  • Dynamic path selection
  • Portfolio selection for optimal path routing
  • Load balancing across multiple paths
  • Real-time network monitoring and adjustment

Conclusion

In conclusion, multiple path routing using portfolio selection is a promising approach for congestion avoidance in computer networks. By dynamically selecting multiple paths for data transmission, the proposed system can effectively distribute the network traffic, avoid congestion, and improve the overall performance of the network. With its key features and advantages, the proposed system shows great potential for addressing the challenges posed by network congestion and enhancing the efficiency of data transmission in computer networks.