Publication Details
| Sylvia Rothe
Konzepte und Guidelines für Applikationen in Cinematic Virtual Reality Dissertation, LMU München: Fakultät für Mathematik, Informatik und Statistik |
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| Most people who watch an omnidirectional film for the first time on a head-mounted display (HMD) are fascinated by the new world of experience. The feeling of being in a different place, right in the middle of the action, far from reality, impresses and gives the opportunity to immerse in another world. The film language developed over decades cannot simply be transferred to this new media, Cinematic Virtual Reality (CVR). The viewer can freely choose the direction of view and thus the visible section of the picture and it is therefore not always possible to show the viewer what is important for the story. Traditional methods for directing attention - such as close-ups or zooms - are not easy to use, others - such as movement and colors - needs to be assessed and adjusted. For finding new concepts and methods for CVR, in addition to the research results from the film area, other areas in the field of virtual and augmented reality (VR and AR) are relevant. In order to find suitable methods to draw attention in CVR, known methods from film, VR, and AR are analyzed in this work and a uniform taxonomy is presented. This makes it possible to investigate the various aspects of the methods in more detail. The positioning of the camera cannot simply be transferred from traditional film to CVR. When viewing a CVR application in the virtual world, the viewer takes the place of the camera in the real world. This can lead to problems if the camera height does not match the viewerâs height. In addition, a resolution of a scene due different setting sizes is not possible as this would mean that the viewer would jump around in the virtual world. In this work, the effects of different camera positions on the viewer are examined and guidelines for camera positioning are presented. The additional space component offers new possibilities. Cuts do not necessarily have to depend on the elapsed time, but can also be based on the viewer's gaze. In accordance with the term timeline, we introduce the concept of the spaceline for this method of story plot construction. While the cuts on the timeline are determined by the filmmaker, the viewer determines the spaceline - within a construct determined by the filmmaker. Through this individual guided tour, everyone can discover their own story at their own pace and with their own priorities. The spaceline concept offers new interaction options that can be implemented using various selection techniques. In order to find methods that are suitable for CVR, this work examines eye and head-based techniques. Even if the effectiveness of them strongly depends on the chosen parameters and physiological factors, valuable insights are gained, which are included in a design space for spaceline constructs. This design space allows one to find the attributes that best suits for the application when designing a CVR application. But not only the creation of CVR applications presents new challenges. The HMD isolates a viewer from the rest of the world and requires new techniques to experience CVR in a social way. Some of these are presented and analyzed in this work. Recommendations for a CVR movie player are derived from the experience gained. Several user studies were conducted to develop the concepts and guidelines, some of them by recording of the head and gaze directions. To be able to analyze this data, a tool was developed which enables us to visualize the data on the film. In this work, concepts and guidelines for various fields in Cinematic Virtual Reality are presented: attention guiding, camera positioning, montage, audience experience, and data analysis. In each of these areas, knowledge was gained that is also of interest to the other fields. The findings of the individual fields are often related and complement each other. This work aims to present the various aspects as a whole. |
