Transfer Learning for the Visual Arts: The Multi-modal Retrieval of Iconclass Codes-Reference-Cited by-同舟云学术

Transfer Learning for the Visual Arts: The Multi-modal Retrieval of Iconclass Codes

Published:2023-06-24 Issue:2 Volume:16 Page:1-16
ISSN:1556-4673
Container-title:Journal on Computing and Cultural Heritage
language:en
Short-container-title:J. Comput. Cult. Herit.

Author:

Banar Nikolay¹^ORCID,Daelemans Walter¹^ORCID,Kestemont Mike¹^ORCID

Affiliation:

1. University of Antwerp

Abstract

Iconclass is an iconographic thesaurus, which is widely used in the digital heritage domain to describe subjects depicted in artworks. Each subject is assigned a unique descriptive code, which has a corresponding textual definition. The assignment of Iconclass codes is a challenging task for computational systems, due to the large number of available labels in comparison to the limited amount of training data available. Transfer learning has become a common strategy to overcome such a data shortage. In deep learning, transfer learning consists in fine-tuning the weights of a deep neural network for a downstream task. In this work, we present a deep retrieval framework, which can be fully fine-tuned for the task under consideration. Our work is based on a recent approach to this task, which already yielded state-of-the-art performance, although it could not be fully fine-tuned yet. This approach exploits the multi-linguality and multi-modality that is inherent to digital heritage data. Our framework jointly processes multiple input modalities, namely, textual and visual features. We extract the textual features from the artwork titles in multiple languages, whereas the visual features are derived from photographic reproductions of the artworks. The definitions of the Iconclass codes, containing useful textual information, are used as target labels instead of the codes themselves. As our main contribution, we demonstrate that our approach outperforms the state-of-the-art by a large margin. In addition, our approach is superior to the M 3 P feature extractor and outperforms the multi-lingual CLIP in most experiments due to the better quality of the visual features. Our out-of-domain and zero-shot experiments show poor results and demonstrate that the Iconclass retrieval remains a challenging task. We make our source code and models publicly available to support heritage institutions in the further enrichment of their digital collections.

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Graphics and Computer-Aided Design,Computer Science Applications,Information Systems,Conservation

Link

https://dl.acm.org/doi/pdf/10.1145/3575865

Reference57 articles.

1. Bottom-Up and Top-Down Attention for Image Captioning and Visual Question Answering

2. Nikolay Banar, Walter Daelemans, and Mike Kestemont. 2020. Neural machine translation of artwork titles using iconclass codes. In Proceedings of the the 4th Joint SIGHUM Workshop on Computational Linguistics for Cultural Heritage, Social Sciences, Humanities, and Literature. 42–51.

3. Nikolay Banar, Walter Daelemans, and Mike Kestemont. 2021. Multi-modal label retrieval for the visual arts: The case of iconclass. In Proceedings of the ICAART (1). 622–629.

4. Lorenzo Baraldi, Marcella Cornia, Costantino Grana, and Rita Cucchiara. 2018. Aligning text and document illustrations: Towards visually explainable digital humanities. In Proceedings of the 2018 24th International Conference on Pattern Recognition. IEEE, 1097–1102.

5. Hans Brandhorst. 2019. A Word is Worth a Thousand Pictures: Why the Use of Iconclass Will Make Artificial Intelligence Smarter. (2019). Retrieved from https://labs.brill.com/ictestset/ICONCLASS_and_AI.pdf. Accessed 10 Nov. 2021.