Europeana: mapping postcards

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Revision as of 15:49, 19 December 2023 by Yanzi.liu (talk | contribs) (→‎PaddleOCR)
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Introduction & Motivation

Deliverables

  • 39,587 records related to postcards with image copyrights, along with their metadata, from the Europeana website.
  • OCR results of a sample set of 350 images containing text.
  • GPT-3.5 prediction results for a sample set of 350 images containing text, based on OCR results.
  • A high-quality, manually annotated Ground Truth for a sample set of 309 images.
  • GPT-3.5 prediction results for Ground Truth.
  • GPT-4 prediction results for Ground Truth.
  • An interactive webpage displaying the mapping of the postcards.
  • The GitHub repository contains all the codes for the whole project.

Methodologies

Data collection

Using the APIs provided by Europeana, we used web scrapers to collect relevant data. Initially, we utilized the search API to obtain all records related to postcards with an open copyright status, resulting in 39,587 records. Subsequently, we filtered these records using the record API, retaining only those records whose metadata allowed for direct image retrieval via a web scraper, amounting to 20,000 records in total. We then organized this metadata, preserving only the attributes relevant to our research, such as the providing country, the providing institution, and potential coordinates. Employing a method of random sampling with this metadata, we downloaded some image samples locally for analysis.

Optical character recognition(OCR)

This project aims to accurately extract textual information from various types of postcards in the European region and further utilize this information for geographic location recognition. To address the diversity of languages and scripts across the European region, the project adopts a multilingual model to ensure coverage of multiple languages, thereby enhancing the comprehensiveness and accuracy of recognition.

PaddleOCR

PaddleOCR offers specialized models encompassing 80 minority languages, such as Italian and Bulgarian, which are particularly beneficial for this project.

Fig 1: Original Image
Fig 2: Segmented Image

Prediction using ChatGPT

Due to the suboptimal performance of applying NER directly on OCR results, as OCR may contain grammatical errors in recognition or the text on the postcard itself may lack the names of locations, we decided to introduce an LLM, like ChatGPT, to attempt this task. Using OpenAI APIs, we mainly explored two approaches: one was to use GPT-3.5 for location prediction based on OCR results, and the other was to directly use GPT-4 for predictions based on images. Additionally, we required ChatGPT to return a fixed JSON format object, including the predicted country and city, eliminating the need for NER. We found that both methods significantly improved upon previous efforts. Although GPT-4 showed better performance, as it also had the image itself as additional information, we discovered that after multiple optimizations of the GPT-3.5 prompt, its results were not much inferior to GPT-4. Moreover, considering the cost, using OCR results with an optimized prompt for GPT-3.5 is an economical method. Therefore, we use this as our main pipeline.

Construction of Ground Truth

Web Application

Result Assessment

Limitations & Future work

For postcards without text, we currently rely on predictions made by GPT-4, which can be expensive. Subsequently, we may need to explore more methods.

Project plan & Milestones

Project plan

Timeframe Task Completion
Week 4
  • Explore postcard search results on Europeana's website
  • Study the Europeana API documentation and get an access key.
  • Extract data of postcards using the Europeana API
Week 5
  • Clean data using metadata.
  • Analyze the data of Europeana postcards
  • Prepare sample image sets and explore prediction methods
Week 6
  • Decide to focus on postcards with text
  • Test and evaluate the effectiveness of multiple OCR models
Week 7
  • Use OCR and NER for prediction
  • Test and evaluate the effectiveness of multiple NER tools
  • Explore alternative forecasting methods
Week 8
  • Introduce ChatGPT for the prediction(OCR+GPT-3.5+NER)
  • Try to make predictions directly using GPT-4
Week 9
  • Optimize GPT-3.5 prompt for better results
  • Compare the results of OCR + GPT-3.5 (optimized prompts) to those of GPT-4.
Week 10
  • Complete the pipeline for the entire prediction process
  • Prepare a sample set to evaluate the effect
Week 11
  • Explore the visualization methods
  • Refine the test set and analyze it
Week 12
  • Use the TA's annotation tool for building a ground truth
  • Build the visualization platform
Week 13
  • Testing and refinement of the Web application
  • Analyze the results of the test set evaluation
Week 14
  • Prepare the final report and presentation

Milestones

Github Repository

Europeana-mapping-postcards

References