Let web spammers expose themselves
Zhicong Cheng, Bin Gao, Congkai Sun, Yanbing Jiang, Tie-Yan Liu
Proceedings of the fourth ACM international conference on Web search and data mining - WSDM '11
This paper is concerned with mining link spams (e.g., link farm and link exchange) from search engine optimization (SEO) forums. To provide quality services, it is critical for search engines to address web spam. Several techniques such as TrustRank, BadRank, and SpamRank have been proposed for this purpose. Most of these methods try to downgrade the effects of the spam websites by identifying specific link patterns of them. However, spam websites have appeared to be more and more similar to
... mal or even good websites in their link structures, by reforming their spam techniques. As a result, it is very challenging to automatically detect link spams from the Web graph. In this paper, we propose a different approach, which detects link spams by looking at how web spammers make link spam happen. We find that web spammers usually ally with each other, and SEO forum is one of the major means for them to form the alliance. We therefore propose mining suspicious link spams directly from the posts in the SEO forums. However, the task is non-trivial because there are also other information and even noises contained in these posts, in addition to useful clues of link spam. To tackle the challenges, we first extract all the URLs contained in the posts of the SEO forums. Second, we extract features for the URLs from their relationships with forum users (potential spammers) and from their link structure in the web graph. Third, we build a semi-supervised learning framework to calculate the spam scores for the URLs, which encodes several heuristics such as spam websites usually linking to each other, and good websites seldom linking to spam websites. We tested * This work was performed when the first and the third authors were interns at Microsoft Research Asia. our approach on seven major SEO forums. A lot of spam websites were identified, a significant proportion of which cannot be detected by conventional anti-spam methods. It indicates that the proposed approach can be a good complement of existing anti-spam techniques.