Opera Rolandi archive

From FDHwiki
Jump to navigation Jump to search

Abstract

The Fondazione Giorgio Cini has digitized 36000 pages from Ulderico Rolandi's opera libretti collection. This collection contains contemporary works of 17th- and 18th-century composers. These opera libretti have a diverse content, which offered us a large amount of possibilities for analysis.

This project chose to concentrate on a way to illustrate the characters’ interactions in the Rolandi's libretti collection through network visualization. We also highlighted the importance of each character in the libretto they figure in. To achieve this, we retrieved important information using Deep Learning models and OCR. We started from a subset of Rolandi’s libretti collection and generalized this algorithm for all Rolandi’s libretti collection.

Planning

Week To do
12.11. (week 9) Step 1: Segmentation model training, fine tuning & testing
19.11. (week 10) Step 2: Information extraction & cleaning
26.11. (week 11) Finishing Step 2
03.12. (week 12) Step 3: Information storing & network visualization
10.12. (week 13) Finishing Step 3 and Finalize Report and Wikipage (Step 4: Generalization)
17.12. (week 14) Final Presentation

Step 1

  • Train model on diverse random images of Rolandi’s libretti collection (better for generalization aspects)
  • Test model on diverse random images of Rolandi’s libretti collection
  • Test on a single chosen libretto:
    • If bad results, train the model on more images coming from the libretto
    • If still bad results (and ok with the planning), try to help the model by pre-processing the images beforehand : i.e. black and white images (filter that accentuates shades of black)
  • Choose a well-formatted and not too damaged libretto (to be able to do step 2)

Step 2

  • Extract essential information from the libretto with OCR
    • names, scenes and descriptions
    • if bad results, apply pre-processing to make the handwriting sharper for reading
  • If OCR extracts variants of same name:
    • perform clustering to give it a common name
    • apply distance measuring techniques
    • find the real name (not just the abbreviation) of the character using the introduction at the start of the scene

Step 3

  • Focus on one libretto
  • Extract the information below and store it in a tree format (json file):
  • Assessment of extraction and cleaning results
  • Create the relationship network:
    • nodes = characters’ name
    • links = interactions
    • weight of the links = importance of a relationship
    • weight of nodes = speech weight of a character + normalization so that all the scenes have the same weight/importance

Step 4

  • See how our network algorithm generalizes (according to the success of step 1) to five Rolandi’s libretti.
  • If this does not generalize well, strengthen our deep learning model with more images coming from these libretti.

Resources

Methodology

Challenges

Links