The evolution of Internet topology is not always smooth but sometimes with unusual sudden changes. Consequently, identifying patterns of unusual topology evolution is critical for Internet topology modeling and simula...The evolution of Internet topology is not always smooth but sometimes with unusual sudden changes. Consequently, identifying patterns of unusual topology evolution is critical for Internet topology modeling and simulation. We analyze IPv6 Internet topology evolution in IP-level graph to demonstrate how it changes in uncommon ways to restructure the Internet. After evaluating the changes of average degree, average path length, and some other metrics over time, we find that in the case of a large-scale growing the Internet becomes more robust; whereas in a top–bottom connection enhancement the Internet maintains its efficiency with links largely decreased.展开更多
In order to understand IPv6 topology characteristics and dynamic behaviors deeply, and guide the design of IPv6 Internet structure, an Internet IP level topology evolution model (IP-TEM) based on power-law distributio...In order to understand IPv6 topology characteristics and dynamic behaviors deeply, and guide the design of IPv6 Internet structure, an Internet IP level topology evolution model (IP-TEM) based on power-law distribution was established. Selected the data of IPv6 IP-level topology from CAIDA Internet Global Research Institute in the year from 2012 to 2016 to analyze the evolution characteristics of IPv6 during the probing period, and then introduced to the characteristic outlier weight to locate the mutation time point to analyze the network topology mutation evolution, it is concluded that the evolution trend of other characteristics and the mutation points of each characteristic outlier weight are basically the same except for the average clustering coefficient. Then simulated the normal evolution and mutation evolution of the network respectively using IP-TEM, the simulation results show that IP-TEM can simulate the normal evolution and partial mutation evolution of the real network.展开更多
基金the National Natural Science Foundation of China(Grant No.60973022)
文摘The evolution of Internet topology is not always smooth but sometimes with unusual sudden changes. Consequently, identifying patterns of unusual topology evolution is critical for Internet topology modeling and simulation. We analyze IPv6 Internet topology evolution in IP-level graph to demonstrate how it changes in uncommon ways to restructure the Internet. After evaluating the changes of average degree, average path length, and some other metrics over time, we find that in the case of a large-scale growing the Internet becomes more robust; whereas in a top–bottom connection enhancement the Internet maintains its efficiency with links largely decreased.
文摘In order to understand IPv6 topology characteristics and dynamic behaviors deeply, and guide the design of IPv6 Internet structure, an Internet IP level topology evolution model (IP-TEM) based on power-law distribution was established. Selected the data of IPv6 IP-level topology from CAIDA Internet Global Research Institute in the year from 2012 to 2016 to analyze the evolution characteristics of IPv6 during the probing period, and then introduced to the characteristic outlier weight to locate the mutation time point to analyze the network topology mutation evolution, it is concluded that the evolution trend of other characteristics and the mutation points of each characteristic outlier weight are basically the same except for the average clustering coefficient. Then simulated the normal evolution and mutation evolution of the network respectively using IP-TEM, the simulation results show that IP-TEM can simulate the normal evolution and partial mutation evolution of the real network.
