@article{pham2023active,
  abstract = {Remote sensing through semantic segmentation of satellite images contributes to the understanding and utilisation of the earth's surface. For this purpose, semantic segmentation networks are typically trained on large sets of labelled satellite images. However, obtaining expert labels for these images is costly. Therefore, we propose to rely on a low-cost approach, e.g. crowdsourcing or pretrained networks, to label the images in the first step. Since these initial labels are partially erroneous, we use active learning strategies to cost-efficiently refine the labels in the second step. We evaluate the active learning strategies using satellite images of Bengaluru in India, labelled with land cover and land use labels. Our experimental results suggest that an active label refinement to improve the semantic segmentation network's performance is beneficial.},
  archiveprefix = {arXiv},
  author = {Pham, Minh Tuan and Wijesingha, Jayan and Kottke, Daniel and Herde, Marek and Huseljic, Denis and Sick, Bernhard and Wachendorf, Michael and Esch, Thomas},
  eid = {arXiv:2309.06159},
  eprint = {2309.06159},
  interhash = {e5158d96b05d17554e2b64d55dd049c5},
  intrahash = {dde3ceb092a8b7df34cbfa22e5ea3e26},
  journal = {arXiv e-prints},
  pages = {arXiv:2309.06159},
  primaryclass = {cs.CV},
  title = {Active Label Refinement for Semantic Segmentation of Satellite Images},
  url = {https://arxiv.org/abs/2309.06159},
  year = 2023
}