This paper proposes a functional video handling technique based on structured video. The video handling architecture, which includes a video data structure, file management structure, and visual interface structure, is introduced as the core concept of this technique. One of the key features of this architecture is that the newly proposed video indexing method is performed automatically based on image processing. The video data structure, which plays an important role in the architecture, has two kinds of data structures: content and node. The central idea behind these structures is to separate the video contents from the processing operations and to create links between them. Video indexes work as a backend mechanism in structuring video content. A prototype video handling system called the MediaBENCH, a hypermedia basic environment for computer and human interactions, which demonstrates the actual implementation of the proposed concept and technique, is described. Basic functions such as browsing and editing, which are achieved based on the architecture, exhibit the advantages of structured video handling. The concept and the methods proposed in this paper assure various video-computer applications, which will play major roles in the multimedia field.

Browsing is an important function supporting efficient access to relevant information in video archives. In this paper, we present PanoramaExcerpts -- a video browsing interface that shows a catalogue of two types of video icons: panoramic and keyframe icons. A panoramic icon is automatically synthesized from a video segment taken with camera pan or tilt using a camera parameter estimation technique. One keyframe icon is extracted for each shot to supplement the panoramic icons. A panoramic icon represents the entire visible contents of a scene extended with a camera pan or tilt, which is difficult to represent using a single keyframe. A graphical representation, called camera-work trajectory, is also proposed to show the direction and the speed of camera operation. For the automatic generation of PanoramaExcerpts, we propose an approach to integrate the following: (a) a shot-change detection method; (b) a method for locating segments that contain smooth camera operations; (c) a layout method for packing icons in a space-efficient manner. In this paper, we mainly describe (b) and (c) with experimental results.