Karatsiolis, S.; Padubidri, C.; Kamilaris, A. Scalable Retrieval of Similar Landscapes in Optical Satellite Imagery Using Unsupervised Representation Learning. Remote Sens.2024, 16, 142.
Karatsiolis, S.; Padubidri, C.; Kamilaris, A. Scalable Retrieval of Similar Landscapes in Optical Satellite Imagery Using Unsupervised Representation Learning. Remote Sens. 2024, 16, 142.
Karatsiolis, S.; Padubidri, C.; Kamilaris, A. Scalable Retrieval of Similar Landscapes in Optical Satellite Imagery Using Unsupervised Representation Learning. Remote Sens.2024, 16, 142.
Karatsiolis, S.; Padubidri, C.; Kamilaris, A. Scalable Retrieval of Similar Landscapes in Optical Satellite Imagery Using Unsupervised Representation Learning. Remote Sens. 2024, 16, 142.
Abstract
Global Earth Observation (EO) is becoming increasingly important in understanding and addressing critical aspects of life on our planet about environmental issues, natural disasters, sustainable development and others. EO plays a key role in making informed decisions on applying or reforming land use, responding to disasters, shaping climate adaptation policies etc. EO is also becoming a useful tool for helping professionals make the most profitable decisions, e.g., in real estate or the investment sector. Finding similarities in landscapes may provide useful information regarding applying contiguous policies, taking alike decisions or learning from best practices on events and happenings that have already occurred in similar landscapes in the past. However, current applications of similar landscape retrieval are limited by moderate performance and the need for time-consuming and costly annotations. We propose splitting the similar landscape retrieval task into a set of smaller tasks that aim at identifying individual concepts inherent to satellite images. Our approach relies on several models trained with Unsupervised Representation Learning (URL) on Google Earth images to identify these concepts. We show the efficacy of matching individual concepts for tackling the task of retrieving similar landscape(s) to a user-selected satellite image with a proof-of-concept application of the proposed approach on the geographical territory of the Republic of Cyprus. Our results demonstrate the efficacy of breaking up the landscape similarity task into individual concepts closely related to remote sensing instead of trying to capture all concepts and image semantics with a single model like a single RGB semantics model.
Computer Science and Mathematics, Artificial Intelligence and Machine Learning
Copyright:
This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.