Ecole d'ingénieur et centre de recherche en Sciences du numérique

Semantic representations of images and videos

Francis, Danny


Describing images or videos is a task that we all have been able to tackle since our earliest childhood. However, having a machine automatically describe visual objects or match them with texts is a tough endeavor, as it requires to extract complex semantic information from images or videos. Recent research in Deep Learning has sent the quality of results in multimedia tasks rocketing: thanks to the creation of big datasets of annotated images and videos, Deep Neural Networks (DNN) have outperformed other models in most cases. In this thesis, we aim at developing novel DNN models for automatically deriving semantic representations of images and videos. In particular we focus on two main tasks : vision-text matching and image/ video automatic captioning. Addressing the matching task can be done by comparing visual objects and texts in a visual space, a textual space or a multimodal space. In this thesis, we experiment with these three possible methods. Moreover, based on recent works on capsule networks, we define two novel models to address the vision-text matching problem: Recurrent Capsule Networks and Gated Recurrent Capsules. We find that replacing Recurrent Neural Networks usually used for natural language processing such as Long Short-Term Memories or Gated Recurrent Units by our novel models improve results in matching tasks. On top of that, we show that intrinsic characteristics of our models should make them useful for other tasks. In image and video captioning, we have to tackle a challenging task where a visual object has to be analyzed, and translated into a textual description in natural language. For that purpose, we propose two novel curriculum learning methods. Experiments on captioning datasets show that our methods lead to better results and faster convergence than usual methods. Moreover regarding video captioning, analyzing videos requires not only to parse still images, but also to draw correspondences through time. We propose a novel Learned Spatio-Temporal Adaptive Pooling (L-STAP) method for video captioning that combines spatial and temporal analysis. We show that our L-STAP method outperforms state-of-the-art methods on the video captioning task in terms of several evaluation metrics. Extensive experiments are also conducted to discuss the interest of the different models and methods we introduce throughout this thesis, and in particular how results can be improved by jointly addressing the matching task and the captioning task.

Document Bibtex

Titre:Semantic representations of images and videos
Département:Data Science
Eurecom ref:6123
Copyright: © EURECOM. Personal use of this material is permitted. The definitive version of this paper was published in Thesis and is available at :
Bibtex: @phdthesis{EURECOM+6123, year = {2019}, title = {{S}emantic representations of images and videos}, author = {{F}rancis, {D}anny}, school = {{T}hesis}, month = {12}, url = {} }
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