PORTLAND, Ore. -- Researchers in Switzerland are claiming to have developed a new source-location algorithm they say could replace the brute force method of identifying national security and other threats used by the National Security Agency (NSA) and others.
In a paper published Friday (Aug. 10) in the journal Physical Review Letters
, researchers at École Polytechnique Fédérale de Lausanne said they have demonstrated that relatively small numbers of network nodes can be used to predict a source location. Their selective method varies from the computationally intensive method used by NSA and others to scour all network nodes for potential threats.
The researchers said the key to determining the relevant subset of network nodes to make more accurate source location is identifying the network structure, the density of its nodes and the number of “information cascades,” which occurs when users on a network observe the actions of others and tend to act accordingly.
The algorithm, called "Sparse Inference," also analyzes the web-like structure of real-world interactions using just a few samples out of the total number of nodes in a complex network. As a result, the researchers claimed that extremely complex connection scenarios can be quickly analyzed to track down their source location.
The researchers acknowledged that they benefited from hindsight in selecting their criteria. Their next goal is to evaluate the robustness of their framework by taking into account inaccuracies while attempting to codify reliable methods of selecting key network nodes.
"Nevertheless,” the researchers claimed, “our results indicate that source localization in large networks--a seemingly impossible task is indeed feasible, both in terms of localization accuracy and computational cost."Related stories:Motion algorithms lift MEMS-based remotes