We study the large-scale topological and dynamical properties of real Internet maps at the autonomous system level, collected in a 3-yr time interval. We find that the connectivity structure of the Internet presents statistical distributions settled in a well-defined stationary state. The large-scale properties are characterized by a scale-free topology consistent with previous observations. Correlation functions and clustering coefficients exhibit a remarkable structure due to the underlying hierarchical organization of the Internet. The study of the Internet time evolution shows a growth dynamics with aging features typical of recently proposed growing network models. We compare the properties of growing network models with the present re...
Abstract—In this paper, we study and characterize the topology of the Internet at the autonomous sys...
Many works have studied the Internet topology, but few have investigated the question of...
The Internet is one of the most interesting realizations of a "complex" network. As a non-supervised...
We study the large-scale topological and dynamical properties of real Internet maps at the autonomou...
The description of the Internet topology is an important open problem, recently tackled with the int...
The talk will present an overview of the large-scale topological and dynamical properties of real In...
We present a statistical analysis of different metrics characterizing the topological properties of ...
Despite the apparent randomness of the Internet, we discover some surprisingly simple power-laws of ...
We study structural feature and evolution of the Internet at the autonomous systems level. Extractin...
The Internet is a prototypical example of info-structure that has grown following a self-organized d...
We present here a study of the clustering and loops in a graph of the Internet at the autonomous sys...
A statistical physics perspective of complex networks: from the architecture of the Internet and the...
We performed a large-scale crawl of the world wide web, covering 6.9 million domains and 57 million ...
Abstract — In this paper, we study and characterize the topology of the Internet at the Autonomous S...
Over the last decades, the Internet has grown from a smallscale academic network linking few univer...
Abstract—In this paper, we study and characterize the topology of the Internet at the autonomous sys...
Many works have studied the Internet topology, but few have investigated the question of...
The Internet is one of the most interesting realizations of a "complex" network. As a non-supervised...
We study the large-scale topological and dynamical properties of real Internet maps at the autonomou...
The description of the Internet topology is an important open problem, recently tackled with the int...
The talk will present an overview of the large-scale topological and dynamical properties of real In...
We present a statistical analysis of different metrics characterizing the topological properties of ...
Despite the apparent randomness of the Internet, we discover some surprisingly simple power-laws of ...
We study structural feature and evolution of the Internet at the autonomous systems level. Extractin...
The Internet is a prototypical example of info-structure that has grown following a self-organized d...
We present here a study of the clustering and loops in a graph of the Internet at the autonomous sys...
A statistical physics perspective of complex networks: from the architecture of the Internet and the...
We performed a large-scale crawl of the world wide web, covering 6.9 million domains and 57 million ...
Abstract — In this paper, we study and characterize the topology of the Internet at the Autonomous S...
Over the last decades, the Internet has grown from a smallscale academic network linking few univer...
Abstract—In this paper, we study and characterize the topology of the Internet at the autonomous sys...
Many works have studied the Internet topology, but few have investigated the question of...
The Internet is one of the most interesting realizations of a "complex" network. As a non-supervised...