Difference between revisions of "Weng et al WSDM 10"
Line 67: | Line 67: | ||
The conclusion is that TR outperform InD and PR by a large margin. TR outperforms TSPR as TSPR propagates a twitter user's influence using same transition probability for different topics. | The conclusion is that TR outperform InD and PR by a large margin. TR outperforms TSPR as TSPR propagates a twitter user's influence using same transition probability for different topics. | ||
+ | == Study Plan == | ||
+ | Some terminology used extensively in the paper | ||
− | + | [http://en.wikipedia.org/wiki/Homophily Homophily] | |
− | Homophily | ||
Hypothesis testing | Hypothesis testing | ||
+ | [http://malt.ml.cmu.edu/mw/index.php/Latent_Dirichlet_Allocation Latent Dirichlet Model] | ||
== Related Papers == | == Related Papers == | ||
− | + | [http://tunkrank.com/ Tunk Rank] is similar to Twitter Rank, but does not consider the interaction between the users based on the content. | |
+ | [http://www-cs-students.stanford.edu/~taherh/papers/topic-sensitive-pagerank.pdf Haveliwala et al] describes the topic-sensitive pagerank algorithm (TSPR). |
Revision as of 08:50, 2 October 2012
This a Paper reviewed for Social Media Analysis 10-802 in Fall 2012.
Contents
Citation
author = {Jianshu Weng and Ee-Peng Lim and Jing Jiang and Qi He}, title = {TwitterRank: finding topic-sensitive influential twitterers}, booktitle = {WSDM}, year = {2010}, pages = {261-270}, ee = {http://doi.acm.org/10.1145/1718487.1718520}, crossref = {DBLP:conf/wsdm/2010}, bibsource = {DBLP, http://dblp.uni-trier.de}
Online Version
TwitterRank: finding topic-sensitive influential twitterers
Summary
This primary goal of the work is to find influential users on Twitter website. The work proposes TwitterRank, a variation of Pagerank algorithm to measure influence of users in Twitter. TwitterRank takes into consideration the topical similarity between the users along with the link structure to measure influence of followers on users. The motive behind following a user and having mutual followers was studied to verify the presence of homophily in the network. The experimental results show that TwitterRank yields a significantly better result than the baseline techniques.
Dataset
The dataset consists of Singapore-based twitter users. The friends and followers network of top-1000 Singapore users is crawled along with their tweets. The dataset consists of number of tweets |T| = 1,021,039 and number of users |S| = 6748.
Methodology
- Homophily
In order to verify topical similarity in friendships, two question have been explored.
1. Whether users with "following" relationships are more topically similar than random users.
2. Whether users with reciprocal "following" relationships are more topically similar than those with it.
To answer the above questions, topics are extracted from the tweets of the user. the topics are extracted from the user documents, where a user document is considered as the list of all the tweets by a user.Latent Dirichlet Model is applied to learn the topics in an unsupervised method. The result of applying LDA is represented as -
1. , a , where is the number of twitter users and is the number of topics.
2. , a , where is the number of unique words and is the number of topics.
3. is a matrix, where is the total number of words and is the topic assignment for word
The topical difference between users and is calculated as
Write more formulas ! Hypothesis Testing is used to answer the two questions using the matrix. the positive answers to both the questions justifies the presence of topical similarities between users. This homophily motivates the use of TwitterRank to measure the topic-sensitive influence for users.
- TwitterRank - topic-sensitive influence measure
A directed edge is constructed with vertex V as the twitter users, and edge E as the edge from a twitter user to its friend ( whose tweets he follows). A random surfer visits each twitter user with certain probability by following the appropriate edge in . TwitterRank performs a topic-sensitive random walk, the transition probability from one user to another is based on the topical similarity between the two users.
loads of formulae !!
Evaluation
The Twitter Rank algorithm has been compared to the following baselines.
- In-degree (InD) - Measures the influence of Twitter users by the number of followers.
- PageRank (PR) - Measures the influence of Twitter users by making use of only the link structure.
- Topic-sensitive PageRank (TSPR) - Measures the topic-sensitive influence by not considering the topic-sensitive transition probabilities.
Correlation between the rank lists generated by different algorithms is compared by using Kendall's correlation. Figure
The inference from the table is that TR is most similar to TSPR.
Performance in recommendation task
The conclusion is that TR outperform InD and PR by a large margin. TR outperforms TSPR as TSPR propagates a twitter user's influence using same transition probability for different topics.
Study Plan
Some terminology used extensively in the paper
Homophily Hypothesis testing Latent Dirichlet Model
Related Papers
Tunk Rank is similar to Twitter Rank, but does not consider the interaction between the users based on the content. Haveliwala et al describes the topic-sensitive pagerank algorithm (TSPR).