Woodruff, A. et. al. 1995. Navigation and coordination primitives for multidimensional visual browsers. Proceedings of Visual Database Systems. Lausanne, Switzerland. 360-371.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....technique; the user is actually getting some sense of the overall content of the database in a way that could not be achieved through the use of querying or even, to some extent, browsing. The Starfield approach seems to merge both of these activities. Data displayed by the Tioga browser [Woodruff 95] shows a two dimesnional viewing space that appears to share some of the Starfield features. Such systems, which present the entire database, allow us to explore the topography of the data as a whole. This means we can get an overall feel for the data. It may be, therefore, that such systems ....

Woodruff, A., Su, A., Stonebraker, M., Paxson, C., Chen, J., Aiken, A., Wisnovsky, P, and Taylor, C.:"Navigation and Coordination Primitives for Multidimensional Visual Browsers", in Proc. 3rd IFIP 2.6 working conference on Visual Database Systems, Lausanne, March 1995.

....is layout independent [115] Semnet [53] has included this technique in their network of Prolog rules. When the technique is applied to change the graphical representation, for example, to reveal a different level of detail of information, semantic fisheye views are also called semantic zooming in [173]. 3.2.1.4 Visualising Document Corpus The relationships between document are indirect and ambiguous, and are derived from similarity comparison using text analysis. Text analysis is not new, with much research within the information retrieval community. See Schutze et al. [141] for a review of ....

WOODRUFF, A., SU, A., STONEBRAKER,M.,AND PAXSON, C. Navigation and Coordination Primitives for Multidimentional Visual Browsers. In Proceedings of VDB'3, IFIP WG2.6 Conferece on Visual Database Systems (Lausanne, Switzerland, March 1995), Chapman & Hall.

....can be manipulated by moving its graphical boundaries in the timeline. For multiscale editing we take the abstract dimension of scale and reify it graphically, and the various transition and coordination problems get translated into more familiar spatial ones. We note that very recently Woodruff [10] has used such a device to control the appearance and disappearance of overlay layers in a GIS, giving each a two point slider for setting the min and max scale for its visibility. Here we use a more detailed representation, Space Scale Diagrams [2] which we will review shortly. Among the other ....

Woodruff, A. Su, M. Stonebraker, C. Paxson, J. Chen, A. Aiken, P. Wisnovsky, and C. Taylor. Navigation and Coordination Primitives for Multidimensional Browsers. Proceedings of the 3rd Conference on Visual Database Sys, Lausanne, Switzerland, March 1995, pp. 360-371.

....be sticky. 3.2. 2 S nav and S nav 1 Dependencies We refer to the dependency parent visible frame # child visible frame as the s nav dependency (for synchronous navigation) which can be used to apply navigation performed in the parent canvas to the child canvas (possibly with a transformation) [16]. In other words, navigating the parent canvas causes the child canvas inside the portal to automatically navigate. This dependency is useful for portals whose view is somehow linked to the view of the parent, as in coordinated views (Section 2.3) and certain varieties of other tools. The s nav ....

A. Woodruff, A. Su, M. Stonebraker, C. Paxson, J. Chen, A. Aiken, P. Wisnovsky, and C. Taylor. Navigation and coordination primitives for multidimensional browsers. In Proceedings of the 3rd IFIP 2.6 Working Conference on Visual Database Systems, pages 360--371, Lausanne, Switzerland, March 1995.

....to be unappealing at another. Therefore, DataSplash objects change representation as users zoom closer to them. For example, when a user zooms closer to a circle representing a city, the name of the city may appear next to the circle. DataSplash provides a unique mechanism, the layer manager [23], which allows users to visually program the way objects behave during zooming. The resulting program is called an application. Screenshots and further detail appear in the next section. Although users generally respond positively to the layer manager, we observe that they have difficulty ....

Woodruff, A., et al., "Navigation and Coordination Primitives for Multidimensional Browsers", Visual Database Systems 3: Visual Information Management (Proc. 3rd IFIP 2.6 Working Conference on Visual Database Systems, Lausanne, Switzerland, March 1995), pp. 360-371, S. Spaccapietra and R. Jain (Eds.), Chapman & Hall, 1995.

....to be unappealing at another. Therefore, DataSplash objects change representation as users zoom closer to them. For example, when a user zooms closer to a circle representing a city, the name of the city may appear next to the circle. DataSplash provides a unique mechanism, the layer manager [21,22], which allows users to visually program the way objects behave during zooming. The resulting program is called an application. Screenshots and further detail appear in Section 2. Although users generally respond positively to the layer manager, we observe that they have difficulty constructing ....

Woodruff, A., et al., "Navigation and Coordination Primitives for Multidimensional Browsers", Visual Database Systems 3: Visual Information Management (Proc. 3rd IFIP 2.6 Working Conference on Visual Database Systems, Lausanne, Switzerland, March 1995), pp. 360-371, S. Spaccapietra and R. Jain (Eds.), Chapman & Hall, 1995.

....to be unappealing at another. Therefore, DataSplash objects change representation as users zoom closer to them. For example, when a user zooms closer to a circle representing a city, the name of the city may appear next to the circle. DataSplash provides a unique mechanism, the layer manager [22,23], which allows users to visually program the way objects behave during zooming. The resulting program is called an application. Screenshots and further detail appear in Section 2. Although users generally respond positively to the layer manager, we observe that they have difficulty constructing ....

Woodruff, A., et al., "Navigation and Coordination Primitives for Multidimensional Browsers", Visual Database Systems 3: Visual Information Management (Proc. 3rd IFIP 2.6 Working Conference on Visual Database Systems, Lausanne, Switzerland, March 1995), pp. 360-371, S. Spaccapietra and R. Jain (Eds.), Chapman & Hall, 1995.

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Woodruff, A. et. al. 1995. Navigation and coordination primitives for multidimensional visual browsers. Proceedings of Visual Database Systems. Lausanne, Switzerland. 360-371.

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