Information extraction from the web using a search engine Citation for published version (apa)
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and a list of movements I g in art using Wikipedia and map the two. From Wikipedia we extracted a set I a of 1,280 well-known painters from the article List of painters and a set I g of 77 movements in art from List of art movements 9 . We tested the performance of the algorithm on the subset of 160 painters who could be extracted from the Wikipedia pages describing movements (e.g. from the page on Abstract Expressionism). The other 1,120 painters are either not mentioned on the pages describing styles or are mentioned on more than one page. However, when computing similarities between the painters, we take all 1,280 painters into account. For the elements of I g in this 9 www.wikipedia.org Both pages visited in April 2006. 6.4 Experimental Results 141 [Painter] synthetic [Movement] [Painter] [Movement] [Movement] artist [Painter] [Movement] [Painter] [Painter] and other [Movement] [Painter] express [Movement] [Painter] and [Movement] [Painter] of the [Movement] [Painter] tog initiativ til [Movement] [Painter] uit de [Movement] [Painter] experimenting with [Movement] [Painter] and the [Movement] [Painter] surrealism [Movement] [Painter] arte [Movement] Table 6.14. Best scoring learned patterns for painter - movement relation. PAINTER - MOVEMENT method k = 0 best (corresp. k) PCM 0.35 0.35 (0) PM 0.54 0.64 (18) DM 0.65 0.81 (20) PM - STEMMING 0.53 0.62 (28) Table 6.15. Precision without related instances and best precision per method. test no synonyms were added. For fairness, we excluded pages from the domain wikipedia.org in the search queries. For PM , we selected learned patterns for the mapping between the elements in I a and I g . For learning, we used instance-pairs outside the test set. The best scoring patterns can be found in Table 6.14. For the relation between the instances in I a , these patterns found were mostly enumeration patterns, e.g. “including b and”. The complete details of both experiments and the patterns used in PM can be found on the web page 10 . Due to the rareness of some of the painters and names of movements, we did not use any additional terms in the queries for DM or PCM . In Table 6.15 the performance of the initial mapping m 0 can be found for the three methods (k = 0). The experiments show that in general the use of related instances improves the categorization (see Table 6.15 and Figure 6.13). It shows again that the methods with the lowest Google Complexity thus PM and DM per- form better than PCM . Although in the painter-movement experiment the number of categories iden- tified (77) is much larger than in the previous experiment (16), the performance 10 http://gijsg.dse.nl/webconmine/ 142 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 0 5 10 15 20 25 precision k painter-movement categorization dm pm pm-stem pcm Figure 6.13. Precision for categorization of the painters. of PM and especially DM is still good. The results of PCM indicate that when the precision of the intermediate mapping is low (35%), the use of related instances does not improve the results. In this experiment we even observe a deterioration of the performance. Here DM clearly outperforms PM . This can be explained by the fact that using PM considerably less painter-movement pairs could be extracted. We expected the recall of PM to increase when applying stemming on the names of movements and the texts extracted [Porter, 1980]. Although the number of pairs extracted slightly increases, the precision does not improve (Table 6.15). 6.4.3 Tagging Instances In this subsection, we focus on two case-studies on the tagging of instances related to the methods described in Section 6.2.3. We compare the extracted lists of tags with ground truth extracted from a social website. No previous work is known to us in this field. We therefore present two exploratory studies in the automatic tagging of instances. In the first experiment, we tag the set of 224 artists and evaluate the tagging using Last.fm. The second experiment focusses on books, where the results are compared with data from LibraryThing.com. Tagging Musical Artists In this experiment, we focus on the tagging of the 224 artists as done by the Last.fm community using the method described in Section 6.3. Using a large set of artists, we select the 248 most frequently applied tags after the normalization procedure 11 . 11 The list of tags used can be found at http://gijsg.dse.nl/tags224.html 6.4 Experimental Results 143 We investigate whether our method is well suited to label the 224 artists and com- pare the results with the tags as applied by the Last.fm users. The previous experiments showed that PM was the most successful alterna- tive to identify artist similarities, while DM outperformed PM with respect to the labeling of artists with genre names. We hence use DM to find the co-occurren- ces between artist names and tags and reuse the results from PM to identify the artist similarities. For fairness, the pages from Last.fm and Audiocrobbler.com are excluded from the search results. Per artist in the test set, an average of 79 tags was identified using DM . All tags in the test set were linked to at least one artist, however not for all tag/artist combinations a score could be identified, as not all artists are related to one another. We compare the computed ranking of the tags for the artists with a normalized ranking as identified by the Last.fm users as described in Section 6.3. For instance, the terms ’Rocker’ and ’rock’ have the same normalized form. We evaluate the computed rankings for the different values of w as follows. We first evaluate the precision and recall for the highest ranked tags and secondly compute Spearman’s rank correlation between the computed ranking and the one from Last.fm. Precision and Recall. We selected the set S Yüklə 0,9 Mb. Dostları ilə paylaş:
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