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Modeling Text and Links: Overview William W. Cohen Machine Learning Dept. and Language Technologies Institute School of Computer Science Carnegie Mellon.

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Presentation on theme: "Modeling Text and Links: Overview William W. Cohen Machine Learning Dept. and Language Technologies Institute School of Computer Science Carnegie Mellon."— Presentation transcript:

1 Modeling Text and Links: Overview William W. Cohen Machine Learning Dept. and Language Technologies Institute School of Computer Science Carnegie Mellon University Joint work with: Amr Ahmed, Andrew Arnold, Ramnath Balasubramanyan, Frank Lin, Matt Hurst (MSFT), Ramesh Nallapati, Noah Smith, Eric Xing, Tae Yano

2 Outline Tools for analysis of text –Probabilistic models for text, communities, and time Mixture models and LDA models for text LDA extensions to model hyperlink structure

3 Introduction to Topic Models

4 Probabilistic Latent Semantic Analysis (PLSA) d z w  M Select document d ~ Mult(  ) For each position n = 1, , N d generate z n ~ Mult( z |  d ) generate w n ~ Mult( z |  z n ) dd  N Topic distribution Mixture model: each document is generated by a single (unknown) multinomial distribution of words, the corpus is “mixed” by  PLSA model: each word is generated by a single unknown multinomial distribution of words, each document is mixed by  d Doc- specific

5 Introduction to Topic Models PLSA topics (TDT-1 corpus)

6 Introduction to Topic Models JMLR, 2003

7 Introduction to Topic Models Latent Dirichlet Allocation z w  M  N  For each document d = 1, ,M Generate  d ~ Dir(¢ |  ) For each position n = 1, , N d generate z n ~ Mult( z |  d ) generate w n ~ Mult( w |  z n )

8 Introduction to Topic Models Perplexity comparison of various models Unigram Mixture model PLSA LDA Lower is better

9 Introduction to Topic Models Prediction accuracy for classification using learning with topic-models as features Higher is better

10 Outline Tools for analysis of text –Probabilistic models for text, communities, and time Mixture models and LDA models for text LDA extensions to model hyperlink structure LDA extensions to model time –Alternative framework based on graph analysis to model time & community Preliminary results & tradeoffs Discussion of results & challenges

11 Hyperlink modeling using PLSA

12 Hyperlink modeling using PLSA [Cohn and Hoffman, NIPS, 2001] d z w M dd  N z c  Select document d ~ Mult(  ) For each position n = 1, , N d generate z n ~ Mult( ¢ |  d ) generate w n ~ Mult( ¢ |  z n ) For each citation j = 1, , L d generate z j ~ Mult( ¢ |  d ) generate c j ~ Mult( ¢ |  z j ) L 

13 Hyperlink modeling using PLSA [Cohn and Hoffman, NIPS, 2001] d z w  M dd  N z c  L PLSA likelihood: New likelihood: Learning using EM

14 Hyperlink modeling using PLSA [Cohn and Hoffman, NIPS, 2001] Heuristic: 0 ·  · 1 determines the relative importance of content and hyperlinks  (1-  )

15 Hyperlink modeling using PLSA [Cohn and Hoffman, NIPS, 2001] Experiments: Text Classification Datasets: –Web KB 6000 CS dept web pages with hyperlinks 6 Classes: faculty, course, student, staff, etc. –Cora 2000 Machine learning abstracts with citations 7 classes: sub-areas of machine learning Methodology: –Learn the model on complete data and obtain  d for each document –Test documents classified into the label of the nearest neighbor in training set –Distance measured as cosine similarity in the  space –Measure the performance as a function of 

16 Hyperlink modeling using PLSA [Cohn and Hoffman, NIPS, 2001] Classification performance Hyperlink content Hyperlink content

17 Hyperlink modeling using LDA

18 Hyperlink modeling using LinkLDA [Erosheva, Fienberg, Lafferty, PNAS, 2004] z w  M  N  For each document d = 1, ,M Generate  d ~ Dir(¢ |  ) For each position n = 1, , N d generate z n ~ Mult( ¢ |  d ) generate w n ~ Mult( ¢ |  z n ) For each citation j = 1, , L d generate z j ~ Mult(. |  d ) generate c j ~ Mult(. |  z j ) z c  L Learning using variational EM

19 Hyperlink modeling using LDA [Erosheva, Fienberg, Lafferty, PNAS, 2004]

20 Newswire Text Goals of analysis: –Extract information about events from text –“Understanding” text requires understanding “typical reader” conventions for communicating with him/her Prior knowledge, background, … Goals of analysis: –Very diverse –Evaluation is difficult And requires revisiting often as goals evolve –Often “understanding” social text requires understanding a community Social Media Text Science as a testbed for social text: an open community which we understand

21 Author-Topic Model for Scientific Literature

22 Author-Topic Model for Scientific Literature [Rozen-Zvi, Griffiths, Steyvers, Smyth UAI, 2004] z w  M  N  For each author a = 1, ,A Generate  a ~ Dir(¢ |  ) For each topic k = 1, ,K Generate  k ~ Dir( ¢ |  ) For each document d = 1, ,M For each position n = 1, , N d Generate author x ~ Unif(¢ | a d ) generate z n ~ Mult( ¢ |  a ) generate w n ~ Mult( ¢ |  z n ) x a A P 

23 Author-Topic Model for Scientific Literature [Rozen-Zvi, Griffiths, Steyvers, Smyth UAI, 2004] Learning: Gibbs sampling z w  M  N  x a A P 

24 Author-Topic Model for Scientific Literature [Rozen-Zvi, Griffiths, Steyvers, Smyth UAI, 2004] Topic-Author visualization

25 Stopped here

26 Author-Topic Model for Scientific Literature [Rozen-Zvi, Griffiths, Steyvers, Smyth UAI, 2004] Application 1: Author similarity

27 Author-Topic-Recipient model for email data [McCallum, Corrada-Emmanuel,Wang, ICJAI’05]

28 Gibbs sampling

29 Author-Topic-Recipient model for email data [McCallum, Corrada-Emmanuel,Wang, ICJAI’05] Datasets –Enron email data 23,488 messages between 147 users –McCallum’s personal email 23,488(?) messages with 128 authors

30 Author-Topic-Recipient model for email data [McCallum, Corrada-Emmanuel,Wang, ICJAI’05] Topic Visualization: Enron set

31 Author-Topic-Recipient model for email data [McCallum, Corrada-Emmanuel,Wang, ICJAI’05] Topic Visualization: McCallum’s data

32 Modeling Citation Influences

33 Modeling Citation Influences [Dietz, Bickel, Scheffer, ICML 2007] Copycat model of citation influence LDA model for cited papers Extended LDA model for citing papers For each word, depending on coin flip c, you might chose to copy a word from a cited paper instead of generating the word

34 Modeling Citation Influences [Dietz, Bickel, Scheffer, ICML 2007] Citation influence model

35 Modeling Citation Influences [Dietz, Bickel, Scheffer, ICML 2007] Citation influence graph for LDA paper

36 Models of hypertext for blogs [ICWSM 2008] Ramesh Nallapati me Amr Ahmed Eric Xing

37 LinkLDA model for citing documents Variant of PLSA model for cited documents Topics are shared between citing, cited Links depend on topics in two documents Link-PLSA-LDA

38 Experiments 8.4M blog postings in Nielsen/Buzzmetrics corpus –Collected over three weeks summer 2005 Selected all postings with >=2 inlinks or >=2 outlinks –2248 citing (2+ outlinks), 1777 cited documents (2+ inlinks) –Only 68 in both sets, which are duplicated Fit model using variational EM

39 Topics in blogs Model can answer questions like : which blogs are most likely to be cited when discussing topic z?

40 Topics in blogs Model can be evaluated by predicting which links an author will include in a an article Lower is better Link-PLDA-LDA Link-LDA

41 Another model: Pairwise Link-LDA z w   N  z w  N z z c  LDA for both cited and citing documents Generate an indicator for every pair of docs Vs. generating pairs of docs Link depends on the mixing components (  ’s) stochastic block model

42 Pairwise Link-LDA supports new inferences… …but doesn’t perform better on link prediction

43 Outline Tools for analysis of text –Probabilistic models for text, communities, and time Mixture models and LDA models for text LDA extensions to model hyperlink structure –Observation: these models can be used for many purposes… LDA extensions to model time –Alternative framework based on graph analysis to model time & community Discussion of results & challenges

44

45 Authors are using a number of clever tricks for inference….

46

47

48

49 Predicting Response to Political Blog Posts with Topic Models [NAACL ’09] Tae Yano Noah Smith

50 50 Political blogs and and comments Comment style is casual, creative, less carefully edited Posts are often coupled with comment sections

51 Political blogs and comments Most of the text associated with large “A-list” community blogs is comments –5-20x as many words in comments as in text for the 5 sites considered in Yano et al. A large part of socially-created commentary in the blogosphere is comments. –Not blog  blog hyperlinks Comments do not just echo the post

52 Modeling political blogs Our political blog model: CommentLDA D = # of documents; N = # of words in post; M = # of words in comments z, z` = topic w = word (in post) w`= word (in comments) u = user

53 Modeling political blogs Our proposed political blog model: CommentLDA LHS is vanilla LDA D = # of documents; N = # of words in post; M = # of words in comments

54 Modeling political blogs Our proposed political blog model: CommentLDA RHS to capture the generation of reaction separately from the post body Two separate sets of word distributions D = # of documents; N = # of words in post; M = # of words in comments Two chambers share the same topic-mixture

55 Modeling political blogs Our proposed political blog model: CommentLDA User IDs of the commenters as a part of comment text generate the words in the comment section D = # of documents; N = # of words in post; M = # of words in comments

56 Modeling political blogs Another model we tried: CommentLDA This is a model agnostic to the words in the comment section! D = # of documents; N = # of words in post; M = # of words in comments Took out the words from the comment section! The model is structurally equivalent to the LinkLDA from (Erosheva et al., 2004)

57 57 Topic discovery - Matthew Yglesias (MY) site

58 58 Topic discovery - Matthew Yglesias (MY) site

59 59 Topic discovery - Matthew Yglesias (MY) site

60 60 LinkLDA and CommentLDA consistently outperform baseline models Neither consistently outperforms the other. Comment prediction 20.54 % 16.92 % 32.06 % Comment LDA (R) Link LDA (R) Link LDA (C) user prediction: Precision at top 10 From left to right: Link LDA(-v, -r,-c) Cmnt LDA (-v, -r, -c), Baseline (Freq, NB) (CB) (MY) (RS)

61 Goals of analysis: –Very diverse –Evaluation is difficult And requires revisiting often as goals evolve –Often “understanding” social text requires understanding a community Social Media Text Probabilistic models –can model many aspects of social text Community (links, comments) Time Evaluation: –introspective, qualitative on communities we understand Scientific communities –quantitative on predictive tasks Link prediction, user prediction, … –Against “gold-standard visualization” (sagas) Comments

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