[Gzz-commits] manuscripts/Paper paper.tex

[Tuomas J. Lukka]

CVSROOT:        /cvsroot/gzz
Module name:    manuscripts
Changes by:     Tuomas J. Lukka <address@hidden>        03/03/31 10:31:46

Modified files:
        Paper          : paper.tex 

Log message:
        ifout

CVSWeb URLs:
http://savannah.gnu.org/cgi-bin/viewcvs/gzz/manuscripts/Paper/paper.tex.diff?tr1=1.102&tr2=1.103&r1=text&r2=text

Patches:
Index: manuscripts/Paper/paper.tex
diff -u manuscripts/Paper/paper.tex:1.102 manuscripts/Paper/paper.tex:1.103
--- manuscripts/Paper/paper.tex:1.102   Mon Mar 31 10:22:57 2003
+++ manuscripts/Paper/paper.tex Mon Mar 31 10:31:46 2003
@@ -180,10 +180,13 @@
 
 In this article, we introduce the use of procedurally generated unique 
backgrounds
 as a visualization of document identity: if each document has 
-a different, easily distinguishable background texture, the user can become 
aware of the identity
-of a displayed item at a glance, without explicitly reading the title.
-The user can even become aware of the identity just by seeing 
-any {\em fragment} of the item, instead of the title page. This property is 
vital
+a different, easily distinguishable background texture, 
+the user can become aware of the identity
+of a displayed item at a glance, 
+just by seeing 
+any {\em fragment} of the item, 
+without explicitly reading the title which might not even be visible.
+This property is vital
 for our example application discussed in Section~\ref{secbuoyoing} and is in 
fact
 one of the prime motivators for this work.
 
@@ -207,12 +210,11 @@
 
 In the following sections,
 we first review related work on texturing.
-Next, we discuss the motivating example for this work:
-the BuoyOING focus+context
+Next, we discuss the example user interface
 user interface to a hypertext structure.
 Then, we formulate general principles for designing
-recognizable backgrounds, based on texture and image perception literature,
-and present a hardware-accelerated implementation.
+recognizable backgrounds\iftechreport, based on texture and image perception 
literature,\fi
+and present our hardware-accelerated implementation.
 Following this, we discuss enhancing text readability on such backgrounds
 and practical experiences and conclude.
 %Finally, we show an example application of unique backgrounds
@@ -484,11 +486,11 @@
 and the structurally connected but further-away 
 elements peripherally, with less magnification.
 Much of the work on focus+context views has
-concentrated on tree structures\cite{lamping96hyperbolic,fc-images},
-or flat 2D images or maps\cite{fc-taxonomy}.
+concentrated on tree 
structures\iftechreport\cite{lamping96hyperbolic,fc-images},\fi
+or flat 2D images or maps\iftechreport\cite{fc-taxonomy}\fi.
 
 The motivating example for unique backgrounds is
-the BuoyOING (Buoy-Oriented Interface, Next Generation (i.e. our version 2))
+the BuoyOING (Buoy-Oriented Interface, Next Generation\iftechreport (i.e. our 
version 2)\fi)
 user interface, a focus+context interface for navigating
 hypertext. BuoyOING is a logical step from the earlier work
 on Fluid Links\cite{zellweger98fluid} and hypercept 
animations\cite{milgram99hypercept}.