23 research outputs found

    Content Aware Video Retargeting using Seam Carving

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    Video retargeting method achieves high - quality resizing to arbitrary aspect ratios for complex videos containing diverse camera and dynamic motions . Video retargeting from a full - resolution video to a lower resolution display will inevitably cause information loss. While retargeting the video the important contents must also be preserved. Seam carving works well for images without straight lines or regular patterns like landscape images but may cause distortions if used for images with straight lines. Our approach combines Seam Carving method along with Hough transform to preserve the origi nality of the video

    Adaptation of Images and Videos for Different Screen Sizes

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    With the increasing popularity of smartphones and similar mobile devices, the demand for media to consume on the go rises. As most images and videos today are captured with HD or even higher resolutions, there is a need to adapt them in a content-aware fashion before they can be watched comfortably on screens with small sizes and varying aspect ratios. This process is called retargeting. Most distortions during this process are caused by a change of the aspect ratio. Thus, retargeting mainly focuses on adapting the aspect ratio of a video while the rest can be scaled uniformly. The main objective of this dissertation is to contribute to the modern image and video retargeting, especially regarding the potential of the seam carving operator. There are still unsolved problems in this research field that should be addressed in order to improve the quality of the results or speed up the performance of the retargeting process. This dissertation presents novel algorithms that are able to retarget images, videos and stereoscopic videos while dealing with problems like the preservation of straight lines or the reduction of the required memory space and computation time. Additionally, a GPU implementation is used to achieve the retargeting of videos in real-time. Furthermore, an enhancement of face detection is presented which is able to distinguish between faces that are important for the retargeting and faces that are not. Results show that the developed techniques are suitable for the desired scenarios

    VISUAL SALIENCY ANALYSIS AND APPLICATIONS

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    Ph.DDOCTOR OF PHILOSOPH

    Computational Media Aesthetics for Media Synthesis

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    Ph.DDOCTOR OF PHILOSOPH

    Advanced editing methods for image and video sequences

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    In the context of image and video editing, this thesis proposes methods for modifying the semantic content of a recorded scene. Two different editing problems are approached: First, the removal of ghosting artifacts from high dynamic range (HDR) images recovered from exposure sequences, and second, the removal of objects from video sequences recorded with and without camera motion. These editings need to be performed in a way that the result looks plausible to humans, but without having to recover detailed models about the content of the scene, e.g. its geometry, reflectance, or illumination. The proposed editing methods add new key ingredients, such as camera noise models and global optimization frameworks, that help achieving results that surpass the capabilities of state-of-the-art methods. Using these ingredients, each proposed method defines local visual properties that approximate well the specific editing requirements of each task. These properties are then encoded into a energy function that, when globally minimized, produces the required editing results. The optimization of such energy functions corresponds to Bayesian inference problems that are solved efficiently using graph cuts. The proposed methods are demonstrated to outperform other state-ofthe-art methods. Furthermore, they are demonstrated to work well on complex real-world scenarios that have not been previously addressed in the literature, i.e., highly cluttered scenes for HDR deghosting, and highly dynamic scenes and unconstraint camera motion for object removal from videos.Diese Arbeit schlägt Methoden zur Änderung des semantischen Inhalts einer aufgenommenen Szene im Kontext der Bild-und Videobearbeitung vor. Zwei unterschiedliche Bearbeitungsmethoden werden angesprochen: Erstens, das Entfernen von Ghosting Artifacts (Geist-ähnliche Artefakte) aus High Dynamic Range (HDR) Bildern welche von Belichtungsreihen erstellt wurden und zweitens, das Entfernen von Objekten aus Videosequenzen mit und ohne Kamerabewegung. Das Bearbeiten muss in einer Weise durchgeführt werden, dass das Ergebnis für den Menschen plausibel aussieht, aber ohne das detaillierte Modelle des Szeneninhalts rekonstruiert werden müssen, z.B. die Geometrie, das Reflexionsverhalten, oder Beleuchtungseigenschaften. Die vorgeschlagenen Bearbeitungsmethoden beinhalten neuartige Elemente, etwa Kameralärm-Modelle und globale Optimierungs-Systeme, mit deren Hilfe es möglich ist die Eigenschaften der modernsten existierenden Methoden zu übertreffen. Mit Hilfe dieser Elemente definieren die vorgeschlagenen Methoden lokale visuelle Eigenschaften welche die beschriebenen Bearbeitungsmethoden gut annähern. Diese Eigenschaften werden dann als Energiefunktion codiert, welche, nach globalem minimieren, die gewünschten Bearbeitung liefert. Die Optimierung solcher Energiefunktionen entspricht dem Bayes’schen Inferenz Modell welches effizient mittels Graph-Cut Algorithmen gelöst werden kann. Es wird gezeigt, dass die vorgeschlagenen Methoden den heutigen Stand der Technik übertreffen. Darüber hinaus sind sie nachweislich gut auf komplexe natürliche Szenarien anwendbar, welche in der existierenden Literatur bisher noch nicht angegangen wurden, d.h. sehr unübersichtliche Szenen für HDR Deghosting und sehr dynamische Szenen und unbeschränkte Kamerabewegungen für das Entfernen von Objekten aus Videosequenzen

    Gaze-Based Human-Robot Interaction by the Brunswick Model

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    We present a new paradigm for human-robot interaction based on social signal processing, and in particular on the Brunswick model. Originally, the Brunswick model copes with face-to-face dyadic interaction, assuming that the interactants are communicating through a continuous exchange of non verbal social signals, in addition to the spoken messages. Social signals have to be interpreted, thanks to a proper recognition phase that considers visual and audio information. The Brunswick model allows to quantitatively evaluate the quality of the interaction using statistical tools which measure how effective is the recognition phase. In this paper we cast this theory when one of the interactants is a robot; in this case, the recognition phase performed by the robot and the human have to be revised w.r.t. the original model. The model is applied to Berrick, a recent open-source low-cost robotic head platform, where the gazing is the social signal to be considered

    Change blindness: eradication of gestalt strategies

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    Arrays of eight, texture-defined rectangles were used as stimuli in a one-shot change blindness (CB) task where there was a 50% chance that one rectangle would change orientation between two successive presentations separated by an interval. CB was eliminated by cueing the target rectangle in the first stimulus, reduced by cueing in the interval and unaffected by cueing in the second presentation. This supports the idea that a representation was formed that persisted through the interval before being 'overwritten' by the second presentation (Landman et al, 2003 Vision Research 43149–164]. Another possibility is that participants used some kind of grouping or Gestalt strategy. To test this we changed the spatial position of the rectangles in the second presentation by shifting them along imaginary spokes (by ±1 degree) emanating from the central fixation point. There was no significant difference seen in performance between this and the standard task [F(1,4)=2.565, p=0.185]. This may suggest two things: (i) Gestalt grouping is not used as a strategy in these tasks, and (ii) it gives further weight to the argument that objects may be stored and retrieved from a pre-attentional store during this task

    Control mechanisms for the procedural generation of visual pattern designs

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