Improving Image Embeddings with Colour Features in Indoor Scene Geolocation

Bamigbade, Opeyemi; Scanlon, Mark; Sheppard, John

Authors: Bamigbade, Opeyemi; Scanlon, Mark and Sheppard, John

Publication Date: April 2025

Publication Name: IEEE Access, Volume 13,, Pages

Abstract:

Embeddings remain the best way to represent image features, but do not always capture all latent information. This is still a problem in representation learning, and computer vision descriptors struggle with precision and accuracy. Improving image embedding with other features is necessary for tasks like image geolocation, especially for indoor scenes where descriptive cues can have less distinctive characteristics. This work proposes a model architecture that integrates image N-dominant colours and colour histogram vectors in different colour spaces with image embedding from deep metric learning and classification perspectives. The results indicate that the integration of colour features improves image embedding, surpassing the performance of using embedding alone. In addition, the classification approach yields higher accuracy compared to deep metric learning methods. Interestingly, different saturation points were observed for image colour-improved embedding features in models and colour spaces. These findings have implications for the design of more robust image geolocation systems, particularly in indoor environments.

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BibTeX Entry:

@article{bamigbade2025ImageEmbeddingsColourFeatures,
author={Bamigbade, Opeyemi and Scanlon, Mark and Sheppard, John},
title="{Improving Image Embeddings with Colour Features in Indoor Scene Geolocation}",
journal="{IEEE Access}",
year=2025,
month=04,
volume=13,
abstract={Embeddings remain the best way to represent image features, but do not always capture all latent information. This is still a problem in representation learning, and computer vision descriptors struggle with precision and accuracy. Improving image embedding with other features is necessary for tasks like image geolocation, especially for indoor scenes where descriptive cues can have less distinctive characteristics. This work proposes a model architecture that integrates image N-dominant colours and colour histogram vectors in different colour spaces with image embedding from deep metric learning and classification perspectives. The results indicate that the integration of colour features improves image embedding, surpassing the performance of using embedding alone. In addition, the classification approach yields higher accuracy compared to deep metric learning methods. Interestingly, different saturation points were observed for image colour-improved embedding features in models and colour spaces. These findings have implications for the design of more robust image geolocation systems, particularly in indoor environments.}
}