Optimization-based User Support for Cinematographic Quadrotor Camera Target Framing

Christoph Gebhardt, Otmar Hilliges
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引用次数: 4

Abstract

To create aesthetically pleasing aerial footage, the correct framing of camera targets is crucial. However, current quadrotor camera tools do not consider the 3D extent of actual camera targets in their optimization schemes and simply interpolate between keyframes when generating a trajectory. This can yield videos with aesthetically unpleasing target framing. In this paper, we propose a target framing algorithm that optimizes the quadrotor camera pose such that targets are positioned at desirable screen locations according to videographic compositional rules and entirely visible throughout a shot. Camera targets are identified using a semi-automatic pipeline which leverages a deep-learning-based visual saliency model. A large-scale perceptual study (N ≈ 500) shows that our method enables users to produce shots with a target framing that is closer to what they intended to create and more or as aesthetically pleasing than with the previous state of the art.
基于优化的电影四旋翼相机目标取景用户支持
为了创造美观的航拍画面,相机目标的正确取景是至关重要的。然而,目前的四旋翼相机工具在其优化方案中没有考虑实际相机目标的3D程度,而只是在生成轨迹时在关键帧之间进行插值。这可能会产生具有美学上令人不快的目标框架的视频。在本文中,我们提出了一种目标分帧算法,该算法优化了四旋翼摄像机的姿势,使目标根据视频构图规则定位在理想的屏幕位置,并且在整个镜头中完全可见。相机目标识别使用半自动管道,利用深度学习为基础的视觉显著性模型。一项大规模的感知研究(N≈500)表明,我们的方法使用户能够以更接近他们想要创建的目标框架生成镜头,并且比以前的艺术状态更具有美感。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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