Monocular depth estimation in images and sequences using occlusion cues

Tesis doctoral de Guillem Palou Visa

When humans observe a scene, they are able to perfectly distinguish the different parts composing it. Moreover, humans can easily reconstruct the spatial position of these parts and conceive a consistent structure. The mechanisms involving visual perception have been studied since the beginning of neuroscience but, still today, not all the processes composing it are known. in usual situations, humans can make use of three different methods to estimate the scene structure. The first one is the so called divergence and it makes use of both eyes. When objects lie in front of the observed at a distance up to hundred meters, subtle differences in the image formation in each eye can be used to determine depth. When objects are not in the field of view of both eyes, other mechanisms should be used. In these cases, both visual cues and prior learned information can be used to determine depth. Even if these mechanisms are less accurate than divergence, humans can almost always infer the correct depth structure when using them. As an example of visual cues, occlusion, perspective or object size provide a lot of information about the structure of the scene. A priori information depends on each observer, but it is normally used subconsciously by humans to detect commonly known regions such as the sky, the ground or different types of objects. in the last years, since technology has been able to handle the processing burden of vision systems, there has been lots of efforts devoted to design automated scene interpreting systems. In this thesis we address the problem of depth estimation using only one point of view and using only occlusion depth cues. The thesis objective is to detect occlusions present in the scene and combine them with a segmentation system so as to generate a relative depth order depth map for a scene. We explore both static and dynamic situations such as single images, frame inside sequences or full video sequences. In the case where a full image sequence is available, a system exploiting motion information to recover depth structure is also designed. Results are promising and competitive with respect to the state of the art literature, but there is still much room for improvement when compared to human depth perception performance.

 

Datos académicos de la tesis doctoral «Monocular depth estimation in images and sequences using occlusion cues«

  • Título de la tesis:  Monocular depth estimation in images and sequences using occlusion cues
  • Autor:  Guillem Palou Visa
  • Universidad:  Politécnica de catalunya
  • Fecha de lectura de la tesis:  21/02/2014

 

Dirección y tribunal

  • Director de la tesis
    • Philippe Salembier Clairon
  • Tribunal
    • Presidente del tribunal: ferran Marqués acosta
    • felipe Calderero patino (vocal)
    • laurent Najman (vocal)
    • pablo Andrés Arbelaez (vocal)

 

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