Rolandi Librettos: Difference between revisions
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Given the ground truth and our predicted labels we now can calculate [https://en.wikipedia.org/wiki/Precision_and_recall precision and recall] metrics for all our feature extractions. | Given the ground truth and our predicted labels we now can calculate [https://en.wikipedia.org/wiki/Precision_and_recall precision and recall] metrics for all our feature extractions. Please consider that precision and recall for the linking of features to external entities (e.g.: city localization, wiki data linking of libretto titles) was calculated based on the features we were able to extract. E.i: if we could localize the cities which we were able to extract correctly. Thus the number of observation changes. The new number observations is denoted for every linking metric in the corresponding cell. | ||
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! scope="col" | Genre | ! scope="col" | Genre | ||
! scope="col" | Occasion | ! scope="col" | Occasion | ||
! scope="col" | City Localization | |||
! scope="col" | Theater Localization | |||
! scope="col" | Title Wiki Data Linking | |||
|- | |- | ||
! scope="row" | Precision | ! scope="row" | Precision | ||
| 87.5% || 100% || 83.3% || 80% ||100% || 0% || | | 87.5% || 100% || 83.3% || 80% ||100% || 0% || 100% (N=8) || 100% (N=12) || 100% (N=12) || 66.6% (N=20) | ||
|- | |- | ||
! scope="row" | Recall | ! scope="row" | Recall | ||
| 37% || 25% || 77% || 100% || 100% || 0% || | | 37% || 25% || 77% || 100% || 100% || 0% || 100% (N=8) || 0.44% (N=12) || 100% (N=12) || 77% (N=20) | ||
|} | |} | ||
Revision as of 21:52, 6 December 2020
Introduction
The Fondo Ulderico Rolandi is one of the greatest collections of librettos (text booklet of an opera) in the world. This collection of librettos which is in the possession of the Fondazione Cini consist of around 32’000 thousand librettos, spanning a time period from the 16th to the 20th century. This collection is being digitized and made accessible to the public in the online archives of the Fondazione Cini, where currently 1'110 librettos are available.
Project Abstract
The Rolandi Librettos can be considered as a collection of many unstructured documents, where each document describes an opera performance. Each document contains structured entity information about place, time and people (e.g.: composer, actors) who were involved in this opera. In our project we want to extract as much entity information about the operas as possible. This includes information as the title of the opera, when and in which city it was performed, who was the composer, etc. By extracting the entity information and linking it to internal and external entities, it is possible to construct one comprehensive data set which describes the Rolandi Collection. The linking of information to external entities, would allow us to connect our data set to the real world. This would for example include linking every city name to a real place and assigning geographical coordinates (longitude and latitude) to it. Constructing links in the data set as such, would allow us for example to trace popular operas which were played several times in different places or famous directors which directed many operas in different places. In a last step we want to construct one comprehensive end product which represents Rolandi Collection as a whole. Thus we want to visualize the distribution of operas Librettos in space and time and potentially construct indications of linking.
Planning
The draft of the project and the tasks for each week are assigned below:
Timeframe | Task | Completion |
---|---|---|
Week 4 | ||
07.10 | Evaluating which APIs to use (IIIF) | ✅ |
Write a scraper to scrape IIIF manifests from the Libretto website | ||
Week 5 | ||
14.10 | Processing of images: apply Tessaract OCR | ✅ |
Extraction of dates and cleaned the dataset to create initial DataFrame | ||
Week 6 | ||
21.10 | Design and develop initial structure for the visualization (using dates data) | ✅ |
Running a sanity check on the initial DataFrame by hand | ||
Matching list of cities extracted from OCR using search techniques | ||
Week 7 | ||
28.10 | Remove irrelevant backgrounds of images | ✅ |
Extract age and gender from images | ||
Design data model | ||
Extract tags, names, birth and death years out of metadata | ||
Week 8 | ||
04.11 | Get coordinates for each city and translation of city names | ✅ |
Extracted additional metadata (opera title, maestro) from the title of Libretto | ||
Setting up map and slider in the visualization and order by year | ||
Week 9 | ||
11.11 | Adding metadata information in visualization by having information pane | ✅ |
Checking in with the Cini Foundation | ||
Preparing the Wiki outline and the midterm presentation | ||
Week 10 | ||
18.11 | Compiling a list of musical theatres | ✅ |
Getting better recall and precision on the city information | ||
Identifying composers and getting a performer's information | ||
Extracting corresponding information for the MediaWiki API for entities (theatres etc.) | ||
Week 11 | ||
25.11 | Integrate visualization's zoom functionality with the data pipeline to see intra-level info | ✅ |
Linking similar entities together (which directors performed the same play in different cities?) | ||
Week 12 | ||
02.12 | Serving the website and do performance metrics for our data analysis | ✅ |
Communicate and get feedback from the Cini Foundation | ||
Continuously working on the report and the presentation | ||
Week 13 | ||
09.12 | Finishing off the project website and work, do a presentation on our results | ⬜️ |
Methodology
Our data processing pipeline consists of three steps:
Collecting data
- scraper
- putting metadata into dataframe
Metadata extraction from titles
- composer
- location
-- from title information
-- using regex to find chunk of text that contains the location
-- search for location using spacy on the extracted chunk of text
-- use geopy to find latitude and longitude of the extracted location
-- use kmeans to cluster the extracted locations (make invariant to small changes in name)
-- infer latitude, longitude and location of a place if another element in the cluster has it
- title
- genre
- occasion
Metadata extraction from copertas
- place
- composer
Visualization
- place
- time
- linking entities
- others
Quality assessment
Evaluation
First, we evaluate how many and which percentage of entities we could extract for a given class compared to the number of librettos which were available. Relative and absolute number of this retrieval rate are denoted in the table below:
Feature Extraction | Cities | Theaters | Composer | Genre | Occasion |
---|---|---|---|---|---|
Relative | 72.97% | 76.21% | 27.74% | 95.04% | 01.62% |
Absolute | 810 | 846 | 308 | 1055 | 18 |
This however does not tell us what percentage of the retrieved entities is actually correct. Therefore, in a second step we analysis which percentage of our entities is correct. To compute this we randomly selected a subset of 20 librettos and extract the ground truth by hand. By comparing now our extracted entities with this ground we can compute confusion matrices and metrics as precision and recall.
|
|
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Given the ground truth and our predicted labels we now can calculate precision and recall metrics for all our feature extractions. Please consider that precision and recall for the linking of features to external entities (e.g.: city localization, wiki data linking of libretto titles) was calculated based on the features we were able to extract. E.i: if we could localize the cities which we were able to extract correctly. Thus the number of observation changes. The new number observations is denoted for every linking metric in the corresponding cell.
Cities | Composer | Theaters | Title | Genre | Occasion | City Localization | Theater Localization | Title Wiki Data Linking | ||
---|---|---|---|---|---|---|---|---|---|---|
Precision | 87.5% | 100% | 83.3% | 80% | 100% | 0% | 100% (N=8) | 100% (N=12) | 100% (N=12) | 66.6% (N=20) |
Recall | 37% | 25% | 77% | 100% | 100% | 0% | 100% (N=8) | 0.44% (N=12) | 100% (N=12) | 77% (N=20) |
Reliability
- how reliable the extraction is
- what are the limitations (i.e. theaters changing names etc)
Efficiency of algorithms
- both computational and qualitative
- how well they can generalize to new data
Results
- small analysis of results
Motivation
- speed up metadata extraction
- extend existing metadata
- reduce to atomic entity existing metadata
- visualize metadata in an interactive and understandable way
Realisation
- description of the realization (?)