Vaibhav Malik | University of Illinois at Urbana-Champaign (original) (raw)

Vaibhav Malik

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Papers by Vaibhav Malik

Research paper thumbnail of Evaluating the Latency Impact of IPv6 on a High Frequency Trading

Research paper thumbnail of Estimating the Degree Centrality Ranking of a Node

arXiv (Cornell University), Nov 18, 2015

Complex networks have gained more attention from the last few years. The size of real-world compl... more Complex networks have gained more attention from the last few years. The size of real-world complex networks, such as online social networks, WWW network, collaboration networks, is increasing exponentially with time. It is not feasible to collect the complete data and store and process it. In the present work, we propose a method to estimate the degree centrality rank of a node without having the complete structure of the graph. The proposed algorithm uses the degree of a node and power-law exponent of the degree distribution to calculate the ranking. Simulation results on the Barabasi-Albert networks show that the average error in the estimated ranking is approximately 5% of the total number of nodes.

Research paper thumbnail of Estimating the Degree Centrality Ranking of a Node

ArXiv, 2015

Complex networks have gained more attention from the last few years. The size of real-world compl... more Complex networks have gained more attention from the last few years. The size of real-world complex networks, such as online social networks, WWW network, collaboration networks, is increasing exponentially with time. It is not feasible to collect the complete data and store and process it. In the present work, we propose a method to estimate the degree centrality rank of a node without having the complete structure of the graph. The proposed algorithm uses the degree of a node and power-law exponent of the degree distribution to calculate the ranking. Simulation results on the Barabasi-Albert networks show that the average error in the estimated ranking is approximately 55\%5 of the total number of nodes.

Research paper thumbnail of Evaluating the Latency Impact of IPv6 on a High Frequency Trading

Research paper thumbnail of Estimating the Degree Centrality Ranking of a Node

arXiv (Cornell University), Nov 18, 2015

Complex networks have gained more attention from the last few years. The size of real-world compl... more Complex networks have gained more attention from the last few years. The size of real-world complex networks, such as online social networks, WWW network, collaboration networks, is increasing exponentially with time. It is not feasible to collect the complete data and store and process it. In the present work, we propose a method to estimate the degree centrality rank of a node without having the complete structure of the graph. The proposed algorithm uses the degree of a node and power-law exponent of the degree distribution to calculate the ranking. Simulation results on the Barabasi-Albert networks show that the average error in the estimated ranking is approximately 5% of the total number of nodes.

Research paper thumbnail of Estimating the Degree Centrality Ranking of a Node

ArXiv, 2015

Complex networks have gained more attention from the last few years. The size of real-world compl... more Complex networks have gained more attention from the last few years. The size of real-world complex networks, such as online social networks, WWW network, collaboration networks, is increasing exponentially with time. It is not feasible to collect the complete data and store and process it. In the present work, we propose a method to estimate the degree centrality rank of a node without having the complete structure of the graph. The proposed algorithm uses the degree of a node and power-law exponent of the degree distribution to calculate the ranking. Simulation results on the Barabasi-Albert networks show that the average error in the estimated ranking is approximately 55\%5 of the total number of nodes.

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