Browsing by Author "Kustanowitz, Jack"
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Item Bi-Level Hierarchical Layouts for Photo Libraries: Algorithms for Design Optimization with Quantum Content(2005) Kustanowitz, Jack; Shneiderman, Ben; ISRA frequently-used layout for a collection of two-dimensional, fixed aspect-ratio objects, such as photo thumbnails, is the grid, in which rows and columns are configured to match the allowed space. However, in cases where these objects have some group relationship among them, it can be advantageous to show this relationship in the layout, rather than in textual captions. We use an annotated digital photo collection as a case study of an auto-layout technique in which a two-level hierarchy is generated, consisting of a primary, central region with secondary regions (typically 2-12 regions) surrounding it. We show that given specific requirements, this technique is also optimal, in the sense that it will generate the largest size for the objects. Since all objects are the same size we refer to them as quantum content. These algorithms are designed to be real-time, enabling a compelling interactive display as users resize the canvas, or move and resize the primary region. The interactive redisplay also occurs as users add regions or objects to a secondary region.Item Meaningful Presentations of Photo Libraries: Rationale and Applications of Bi-Level Radial Quantum Layouts (2005)(2005) Kustanowitz, Jack; Shneiderman, Ben; ISRSearching photo libraries can be made more satisfying and successful if search results are presented in a way that allows users to gain an overview of the photo categories. Since photo layouts on computer displays are the primary way that users get an overview, we propose a novel approach to show more photos in meaningful groupings. Photo layouts can be linear strips, or zoomable three dimensional arrangements, but the most common form is the flat two-dimensional grid. This paper introduces a novel bi-level hierarchical layout with motivating examples. In a bi-level hierarchy, one region is designated for primary content, which can be a single photo, text, graphic, or combination. Adjacent to that primary region, groups of photos are placed radially in an ordered fashion, such that the relationship of the single primary region to its many secondary regions is immediately apparent. A compelling aspect is the interactive experience in which the layout is dynamically resizable, allowing users to rapidly, incrementally, and reversibly alter the dimensions and content. It can accommodate hundreds of photos in dozens of regions, can be customized in a corner or center layout, and can scale from an element on a web page to a large poster size. On typical displays (1024 x 1280 or 1200 x 1600 pixels), bi-level radial quantum layouts can conveniently accommodate 2-20 regions with tens or hundreds of photos per region.Item Motivating Annotation for Digital Photographs: Lowering Barriers While Raising Incentives (2004)(2005) Kustanowitz, Jack; Shneiderman, Ben; ISRFrameworks for understanding annotation requirements could guide improved strategies that would motivate more users to invest the necessary effort. We propose one framework for annotation techniques along with the strengths and weaknesses of each one, and a second framework for target user groups and their motivations. Several applications are described that provide useful and information-rich representations, but which require good annotations, in the hope of providing incentives for high quality annotation. We describe how annotations make possible four novel presentations of photo collections: (1) Birthday Collage to show growth of a child over several years, (2) FamiliarFace to show family trees of photos, (3) Kaleidoscope to show photos of related people in an appeal tableau, and (4) TripPics to show photos from a sequential story such as a vacation trip.