Real-Time Fault-Tolerance Node-to-Node Disjoint Paths Algorithm for Symmetric Networks

03/17/2021

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Disjoint paths are defined as paths between the source and destination nodes where the intermediate nodes in any two paths are disjoint. They are helpful in fault-tolerance routing and securing message distribution in the network. Several research papers were proposed to solve the problem of finding disjoint paths for variety of interconnection networks such as Hypercube, Generalized Hypercube, Mesh, Torus, Gaussian, Eisenstein-Jacobi, and many other topologies. In this research, we have developed a general real-time fault-tolerance algorithm that constructs all node-to-node disjoint paths for symmetric networks where all paths are shortest or close to shortest. In addition, we have simulated the proposed algorithm on different networks. The solution of unsolved problem in Cube-Connected-Cycles is given in the simulation results.

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Real-Time Fault-Tolerance Node-to-Node Disjoint Paths Algorithm for Symmetric Networks

Parallel Polynomial Permanent Mod Powers of 2 and Shortest Disjoint Cycles

Disjoint Shortest Paths with Congestion on DAGs

Robust Routing in Interdependent Networks

Panconnectivity Algorithm for Eisenstein-Jacobi Networks

Scalable Node-Disjoint and Edge-Disjoint Multi-wavelength Routing

Independent Spanning Trees in Eisenstein-Jacobi Networks

Shortest Paths with Ordinal Weights

Real-Time Fault-Tolerance Node-to-Node Disjoint Paths Algorithm for Symmetric Networks

Related Research

Parallel Polynomial Permanent Mod Powers of 2 and Shortest Disjoint Cycles

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Robust Routing in Interdependent Networks

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Scalable Node-Disjoint and Edge-Disjoint Multi-wavelength Routing

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