Bibliography Details
B. Eriksson, P. Barford, J. Sommers, and R. Nowak, "A Learning-Based Approach for IP Geolocation", in PAM, LNCS Volume 6032, Apr 2010, pp. 171-180.
| A Learning-Based Approach for IP Geolocation | |
| Authors: |
B. Eriksson P. Barford J. Sommers R. Nowak |
| Published: | PAM, LNCS Volume, 2010 |
| URL: | https://nowak.ece.wisc.edu/geoloc1.pdf |
| Entry Date: | 2011-04-06 |
| Abstract: | The ability to pinpoint the geographic location of IP hosts is compelling for applications such as on-line advertising and network attack diagnosis. While prior methods can accurately identify the location of hosts in some regions of the Internet, they produce erroneous results when the delay or topology measurement on which they are based is limited. The hypothesis of our work is that the accuracy of IP geolocation can be improved through the creation of a flexible analytic framework that accommodates different types of geolocation information. In this paper, we describe a new framework for IP geolocation that reduces to a machine-learning classification problem. Our methodology considers a set of lightweight measurements from a set of known monitors to a target, and then classifies the location of that target based on the most probable geographic region given probability densities learned from a training set. For this study, we employ a Naive Bayes framework that has low computational complexity and enables additional environmental information to be easily added to enhance the classification process. To demonstrate the feasibility and accuracy of our approach, we test IP geolocation on over 16,000 routers given ping measurements from 78 monitors with known geographic placement. Our results show that the simple application of our method improves geolocation accuracy for over 96% of the nodes identified in our data set, with on average accuracy 70 miles closer to the true geographic location versus prior constraint-based geolocation. These results highlight the promise of our method and indicate how future expansion of the classifier can lead to further improvements in geolocation accuracy. |