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* Final version of the paper. Uploaded at the last minute, of course.

git-svn-id: file:///srv/caca.zoy.org/var/lib/svn/research@2293 92316355-f0b4-4df1-b90c-862c8a59935f
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sam 16 年之前
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共有 26 個檔案被更改,包括 156208 行新增88920 行删除
  1. +52
    -23
      2008-displacement/README
  2. +7
    -3
      2008-displacement/paper/Makefile
  3. +2
    -0
      2008-displacement/paper/README
  4. +369
    -0
      2008-displacement/paper/crop-7-3-5-1-serp.eps
  5. 二進制
      2008-displacement/paper/crop-7-3-5-1-serp.png
  6. +369
    -0
      2008-displacement/paper/crop-7-4-5-0-serp.eps
  7. 二進制
      2008-displacement/paper/crop-7-4-5-0-serp.png
  8. +14340
    -14340
      2008-displacement/paper/fs-histo.eps
  9. +15
    -13
      2008-displacement/paper/fs-histo.tex
  10. +16173
    -16173
      2008-displacement/paper/jajuni-histo.eps
  11. +13
    -11
      2008-displacement/paper/jajuni-histo.tex
  12. +0
    -12535
      2008-displacement/paper/lena-min.eps
  13. +966
    -0
      2008-displacement/paper/lena-values.eps
  14. +22
    -49
      2008-displacement/paper/lena-values.tex
  15. +13781
    -13781
      2008-displacement/paper/optimum-histo.eps
  16. +19
    -18
      2008-displacement/paper/optimum-histo.tex
  17. +16185
    -16257
      2008-displacement/paper/ostro-histo.eps
  18. +18
    -23
      2008-displacement/paper/ostro-histo.tex
  19. +1191
    -0
      2008-displacement/paper/output-7-3-5-1-serp.eps
  20. 二進制
      2008-displacement/paper/output-7-3-5-1-serp.png
  21. +1191
    -0
      2008-displacement/paper/output-7-4-5-0-serp.eps
  22. 二進制
      2008-displacement/paper/output-7-4-5-0-serp.png
  23. +75792
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      2008-displacement/paper/paper.ps
  24. +52
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      2008-displacement/paper/paper.tex
  25. +15632
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      2008-displacement/paper/serpopt-histo.eps
  26. +19
    -16
      2008-displacement/paper/serpopt-histo.tex

+ 52
- 23
2008-displacement/README 查看文件

@@ -66,11 +66,26 @@ set xrange [-1:1]
set yrange [1:-1]
set mxtics 2
set mytics 2
set xlabel "$dx$"
set ylabel "$dy$"
unset mztics
unset ztics
set size square
set xzeroaxis
set yzeroaxis
set xlabel "dx" font "Italic,32"
splot 'part0/lena-values.txt' with lines
set lmargin screen 0.0 #.05
set bmargin screen 0.2 # .15
set tmargin screen 0.9 #.95
set rmargin screen 0.9 #.95
set terminal epslatex color size 5,2 blacktext
unset colorbox
#set lmargin 0.05
#set rmargin 0.95
#splot 'part0/lena-values.txt' with lines
set output "lena-values.tex"
splot '../part0/lena-values.txt' with lines lw 3 notitle
unset output
set term pop


#set border 0
@@ -127,19 +142,21 @@ sed -ne 's/.* for //p' fs-*txt | ./xy2d >| histo-fs.txt
# Et ensuite dans gnuplot:
set xrange [-.1:.4]
set yrange [.4:-.1]
set xlabel "$dx$"
set ylabel "$dy$"
set grid
set lmargin screen 0.05
set bmargin screen 0.15
set bmargin screen 0.25
set tmargin screen 0.95
set rmargin screen 0.95
unset colorbox
set pm3d explicit map interpolate 1.8,1.8
set palette model RGB defined(0 "white", 1 "blue", 2 "red", 3 "yellow")
unset key
#splot "histo-fs.txt" notitle
set terminal epslatex color size 1.8,1.8 blacktext
#splot "../../subblock/histo-fs.txt" notitle
set terminal epslatex color size 1.8,2.0 blacktext
set output "fs-histo.tex"
splot "histo-fs.txt" notitle
splot "../../subblock/histo-fs.txt" notitle
unset output
set term pop

@@ -155,19 +172,21 @@ sed -ne 's/.* for //p' jajuni*txt | ./xy2d-jajuni >| histo-jajuni.txt
# Et ensuite dans gnuplot:
set xrange [-.1:.9]
set yrange [.9:-.1]
set xlabel "$dx$"
set ylabel "$dy$"
set grid
set lmargin screen 0.05
set bmargin screen 0.15
set bmargin screen 0.25
set tmargin screen 0.95
set rmargin screen 0.95
unset colorbox
set pm3d explicit map interpolate 1.8,1.8
set palette model RGB defined(0 "white", 1 "blue", 2 "red", 3 "yellow")
unset key
#splot "histo-jajuni.txt" notitle
set terminal epslatex color size 1.8,1.8 blacktext
#splot "../../subblock/histo-jajuni.txt" notitle
set terminal epslatex color size 1.8,2.0 blacktext
set output "jajuni-histo.tex"
splot "histo-jajuni.txt" notitle
splot "../../subblock/histo-jajuni.txt" notitle
unset output
set term pop

@@ -190,19 +209,22 @@ sed -ne 's/.* for //p' ostro*txt | ./xy2d-ostro >| histo-ostro.txt
# Et ensuite dans gnuplot:
set xrange [-.2:.2]
set yrange [.3:-.1]
set xlabel "$dx$"
set ylabel "$dy$"
set xtics -.2,0.1
set grid
set lmargin screen 0.05
set bmargin screen 0.15
set bmargin screen 0.25
set tmargin screen 0.95
set rmargin screen 0.95
unset colorbox
set pm3d explicit map interpolate 1.8,1.8
set palette model RGB defined(0 "white", 1 "blue", 2 "red", 3 "yellow")
unset key
splot "histo-ostro.txt" notitle
set terminal epslatex color size 1.8,1.8 blacktext
splot "../../subblock/histo-ostro.txt" notitle
set terminal epslatex color size 1.8,2.0 blacktext
set output "ostro-histo.tex"
splot "histo-ostro.txt" notitle
splot "../../subblock/histo-ostro.txt" notitle
unset output
set term pop

@@ -219,19 +241,21 @@ sed -ne 's/.* for //p' optimum*txt | ./xy2d-optimum >| histo-optimum.txt
# Et ensuite dans gnuplot:
set xrange [-.5:.2]
set yrange [.6:-.1]
set xlabel "$dx$"
set ylabel "$dy$"
set grid
set lmargin screen 0.05
set bmargin screen 0.15
set bmargin screen 0.25
set tmargin screen 0.95
set rmargin screen 0.95
unset colorbox
set pm3d explicit map interpolate 1.8,1.8
set palette model RGB defined(0 "white", 1 "blue", 2 "red", 3 "yellow")
unset key
splot "histo-optimum.txt" notitle
set terminal epslatex color size 1.8,1.8 blacktext
splot "../../subblock/histo-optimum.txt" notitle
set terminal epslatex color size 1.8,2.0 blacktext
set output "optimum-histo.tex"
splot "histo-optimum.txt" notitle
splot "../../subblock/histo-optimum.txt" notitle
unset output
set term pop

@@ -248,19 +272,21 @@ sed -ne 's/.* for //p' serpopt*txt | ./xy2d-serpopt >| histo-serpopt.txt
# Et ensuite dans gnuplot:
set xrange [-.3:.3]
set yrange [.6:-.1]
set xlabel "$dx$"
set ylabel "$dy$"
set grid
set lmargin screen 0.05
set bmargin screen 0.15
set bmargin screen 0.25
set tmargin screen 0.95
set rmargin screen 0.95
unset colorbox
set pm3d explicit map interpolate 1.8,1.8
set palette model RGB defined(0 "white", 1 "blue", 2 "red", 3 "yellow")
unset key
splot "histo-serpopt.txt" notitle
set terminal epslatex color size 1.8,1.8 blacktext
splot "../../subblock/histo-serpopt.txt" notitle
set terminal epslatex color size 1.8,2.0 blacktext
set output "serpopt-histo.tex"
splot "histo-serpopt.txt" notitle
splot "../../subblock/histo-serpopt.txt" notitle
unset output
set term pop

@@ -286,4 +312,7 @@ for x in out-*.txt; do sort -k7 $x | head -20 ; done | cut -f1 -d: | sort | uniq
### Conversion du vieux format de résultats (deprecated)
cat -n $x | sed 's/^ *[0-9]*\([0-9]\)[[:space:]]*/[\1] /; s/....###/###/; s/\[[27]/[1/; s/\[[38]/[2/; s/\[[49]/[3/; s/\[[50]/[4/'

#
# Convert lena results to cropped detail
convert output-7-3-5-1-serp.png -crop 160x160+32+160 crop-7-3-5-1-serp.png
convert output-7-4-5-0-serp.png -crop 160x160+32+160 crop-7-4-5-0-serp.png


+ 7
- 3
2008-displacement/paper/Makefile 查看文件

@@ -1,10 +1,14 @@
all: paper.pdf

paper.pdf: paper.tex fs-histo.tex
IMAGES = direction.tex fs-histo.tex jajuni-histo.tex lena-values.tex optimum-histo.tex ostro-histo.tex serpopt-histo.tex

paper.pdf: paper.tex $(IMAGES)
latex paper.tex
latex paper.tex
dvipdf paper.dvi
dvips paper.dvi
sed -i 's,/Title.*,/Title (Reinstating Floyd-Steinberg: Improved Metrics for Quality Assessment of Error Diffusion Algorithms),' paper.ps
ps2pdf paper.ps

clean:
rm -f paper.log paper.dvi paper.aux paper.pdf
rm -f paper.log paper.dvi paper.aux paper.pdf paper.ps


+ 2
- 0
2008-displacement/paper/README 查看文件

@@ -0,0 +1,2 @@
Author: Sam Hocevar <sam@zoy.org>


+ 369
- 0
2008-displacement/paper/crop-7-3-5-1-serp.eps 查看文件

@@ -0,0 +1,369 @@
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%%Title: (crop-7-3-5-1-serp.eps)
%%CreationDate: (Tue Apr 15 23:54:59 2008)
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%%HiResBoundingBox: 32 160 192 320
%%DocumentData: Clean7Bit
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%%Pages: 1
%%EndComments

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%%BeginProlog
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% Postscript viewers or printers that support color, otherwise
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/DirectClassPacket
{
%
% Get a DirectClass packet.
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/number_pixels 3 def
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{ GrayDirectClassPacket } image
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/GrayDirectClassPacket
{
%
% Get a DirectClass packet; convert to grayscale.
%
% Parameters:
% red
% green
% blue
% length: number of pixels minus one of this color (optional).
%
currentfile color_packet readhexstring pop pop
color_packet 0 get 0.299 mul
color_packet 1 get 0.587 mul add
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/GrayPseudoClassPacket
{
%
% Get a PseudoClass packet; convert to grayscale.
%
% Parameters:
% index: index into the colormap.
% length: number of pixels minus one of this color (optional).
%
currentfile byte readhexstring pop 0 get
/offset exch 3 mul def
/color_packet colormap offset 3 getinterval def
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/PseudoClassPacket
{
%
% Get a PseudoClass packet.
%
% Parameters:
% index: index into the colormap.
% length: number of pixels minus one of this color (optional).
%
currentfile byte readhexstring pop 0 get
/offset exch 3 mul def
/color_packet colormap offset 3 getinterval def
compression 0 eq
{
/number_pixels 3 def
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{
currentfile byte readhexstring pop 0 get
/number_pixels exch 1 add 3 mul def
} ifelse
0 3 number_pixels 1 sub
{
pixels exch color_packet putinterval
} for
pixels 0 number_pixels getinterval
} bind def

/PseudoClassImage
{
%
% Display a PseudoClass image.
%
% Parameters:
% class: 0-PseudoClass or 1-Grayscale.
%
currentfile buffer readline pop
token pop /class exch def pop
class 0 gt
{
currentfile buffer readline pop
token pop /depth exch def pop
/grays columns 8 add depth sub depth mul 8 idiv string def
columns rows depth
[
columns 0 0
rows neg 0 rows
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{ currentfile grays readhexstring pop } image
}
{
%
% Parameters:
% colors: number of colors in the colormap.
% colormap: red, green, blue color packets.
%
currentfile buffer readline pop
token pop /colors exch def pop
/colors colors 3 mul def
/colormap colors string def
currentfile colormap readhexstring pop pop
systemdict /colorimage known
{
columns rows 8
[
columns 0 0
rows neg 0 rows
]
{ PseudoClassPacket } false 3 colorimage
}
{
%
% No colorimage operator; convert to grayscale.
%
columns rows 8
[
columns 0 0
rows neg 0 rows
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{ GrayPseudoClassPacket } image
} ifelse
} ifelse
} bind def

/DisplayImage
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% class: 0-DirectClass or 1-PseudoClass.
% compression: 0-none or 1-RunlengthEncoded.
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gsave
/buffer 512 string def
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/pixels 768 string def

currentfile buffer readline pop
token pop /x exch def
token pop /y exch def pop
x y translate
currentfile buffer readline pop
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currentfile buffer readline pop
token pop /pointsize exch def pop
/Times-Roman findfont pointsize scalefont setfont
x y scale
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+ 15
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@@ -101,10 +101,9 @@ an error value based on that model. One such algorithm is direct binary seach
(DBS) \cite{allebach}, also referred to as least-squares model-based halftoning
(LSMB) \cite{lsmb}.

HVS models are usually low-pass filters. Nasanen \cite{nasanen}, Analoui
and Allebach \cite{allebach} found that using Gaussian models gave visually
pleasing results, an observation confirmed by independent visual perception
studies \cite{mcnamara}.
HVS models are usually low-pass filters. Nasanen \cite{nasanen}, Analoui and
Allebach found that using Gaussian models gave visually pleasing results, an
observation confirmed by independent visual perception studies \cite{mcnamara}.

DBS yields halftones of impressive quality. However, despite efforts to make
it more efficient \cite{bhatt}, it suffers from its large computational
@@ -115,8 +114,8 @@ requirements and error diffusion remains a more widely used technique.
Most error diffusion implementations parse the image in raster scan order.
Boustrophedonic (serpentine) scanning has been shown to cause fewer visual
artifacts \cite{halftoning}, but other, more complex processing paths such as
Hilbert curves \cite{spacefilling}, \cite{peano} are seldom used as they do not
improve the image quality significantly.
Hilbert curves \cite{spacefilling} are seldom used as they do not improve the
image quality significantly.

Intuitively, as the error is always propagated to the bottom-left or
bottom-right of each pixel (Fig. \ref{fig:direction}), one may expect the
@@ -168,7 +167,7 @@ Finding the second filter is then straightforward:

Experiments show that for a given image and a given corresponding halftone,
$E_{dx,dy}$ has a local minimum almost always away from $(dx,dy) = (0,0)$ (Fig.
\ref{fig:lena-min}). Let $E$ be an error metric where this remains true. We
\ref{fig:lena-values}). Let $E$ be an error metric where this remains true. We
call the local minimum $E_{min}$:

\begin{equation}
@@ -176,12 +175,14 @@ call the local minimum $E_{min}$:
\end{equation}

\begin{figure}
\begin{minipage}[c]{0.8\textwidth}
\input{lena-values}
\end{minipage}
\begin{center}
\input{lena-min}
\caption{Mean square error for the \textit{Lena} image. $v$ is a simple
$11\times11$ Gaussian convolution kernel with $\sigma = 1.2$ and
$(dx,dy)$ vary in $[-1,1]\times[-1,1]$.}
\label{fig:lena-min}
\caption{Mean square error for the \textit{Lena} image ($\times10^4$). $v$
is a simple $11\times11$ Gaussian convolution kernel with $\sigma
= 1.2$ and $(dx,dy)$ vary in $[-1,1]\times[-1,1]$.}
\label{fig:lena-values}
\end{center}
\end{figure}

@@ -201,7 +202,7 @@ on the Internet nowadays \cite{4chan}.
In addition to the classical Floyd-Steinberg and Jarvis-Judice-Ninke kernels,
we tested two serpentine error diffusion algorithms: Ostromoukhov's simple
error diffusion \cite{ostromoukhov}, which uses a variable coefficient kernel,
and Wong and Allebach's optimum error diffusion kernel \cite{wong}.
and Wong and Allebach's optimum error diffusion kernel \cite{wong}:

\begin{center}
\begin{tabular}{|l|c|c|}
@@ -267,16 +268,16 @@ we refer to them as the \textit{algorithm's displacement}, as opposed to the
\textit{image's displacement} for a given algorithm. We call $E_{fast}(h,b)$
the error computed at $(dx,dy)$. As $E_{fast}$ does not depend on the image, it
is a lot faster to compute than $E_{min}$, and as it is statistically closer to
$E_{min}$, we can expect it to be a better error estimation than $E$.
$E_{min}$, we can expect it to be a better error estimation than $E$:

\begin{center}
\begin{tabular}{|l|c|c|c|c|}
\begin{tabular}{|l|c|c|c|c|c|}
\hline
&~ $E\times10^4$ ~&~ $dx$ ~&~ $dy$ ~&~ $E_{fast}\times10^4$ ~\\ \hline
~raster Floyd-Steinberg ~&~ 3.7902 ~&~ 0.16 ~&~ 0.28 ~&~ 3.3447 ~\\ \hline
~raster Ja-Ju-Ni ~&~ 9.7013 ~&~ 0.26 ~&~ 0.76 ~&~ 7.5891 ~\\ \hline
~Ostromoukhov ~&~ 4.6892 ~&~ 0.00 ~&~ 0.19 ~&~ 4.6117 ~\\ \hline
~optimum kernel ~&~ 7.5209 ~&~ 0.00 ~&~ 0.34 ~&~ 6.8233 ~\\
&~ $E\times10^4$ ~&~ $E_{min}\times10^4$ ~&~ $dx$ ~&~ $dy$ ~&~ $E_{fast}\times10^4$ ~\\ \hline
~raster Floyd-Steinberg ~&~ 3.7902 ~&~ 3.1914 ~&~ 0.16 ~&~ 0.28 ~&~ 3.3447 ~\\ \hline
~raster Ja-Ju-Ni ~&~ 9.7013 ~&~ 6.6349 ~&~ 0.26 ~&~ 0.76 ~&~ 7.5891 ~\\ \hline
~Ostromoukhov ~&~ 4.6892 ~&~ 4.4783 ~&~ 0.00 ~&~ 0.19 ~&~ 4.6117 ~\\ \hline
~optimum kernel ~&~ 7.5209 ~&~ 6.5772 ~&~ 0.00 ~&~ 0.34 ~&~ 6.8233 ~\\
\hline
\end{tabular}
\end{center}
@@ -308,9 +309,9 @@ as an indication and only $E$ was used to elect the best coefficients:
~ rank ~&~ coefficients ~&~ $E\times10^4$ ~&~ $E_{min}\times10^4$ ~\\ \hline
~ 1 ~&~ 7 3 6 0 ~&~ 4.65512 ~&~ 3.94217 ~\\ \hline
~ 2 ~&~ 8 3 5 0 ~&~ 4.65834 ~&~ 4.03699 ~\\ \hline
~ \dots ~&~ \dots ~&~ \dots ~&~ \dots ~\\ \hline
\hline
~ 5 ~&~ 7 3 5 1 ~&~ 4.68588 ~&~ 3.79556 ~\\ \hline
~ \dots ~&~ \dots ~&~ \dots ~&~ \dots ~\\ \hline
\hline
~ 18 ~&~ 6 3 5 2 ~&~ 4.91020 ~&~ 3.70465 ~\\ \hline
~ \dots ~&~ \dots ~&~ \dots ~&~ \dots ~\\
\hline
@@ -326,9 +327,9 @@ different results. Similarly, $E$ is only given here as an indication:
~ rank ~&~ coefficients ~&~ $E_{min}\times10^4$ ~&~ $E\times10^4$ ~\\ \hline
~ 1 ~&~ 6 3 5 2 ~&~ 3.70465 ~&~ 4.91020 ~\\ \hline
~ 2 ~&~ 7 3 5 1 ~&~ 3.79556 ~&~ 4.68588 ~\\ \hline
~ \dots ~&~ \dots ~&~ \dots ~&~ \dots ~\\ \hline
\hline
~ 15 ~&~ 7 3 6 0 ~&~ 3.94217 ~&~ 4.65512 ~\\ \hline
~ \dots ~&~ \dots ~&~ \dots ~&~ \dots ~\\ \hline
\hline
~ 22 ~&~ 8 3 5 0 ~&~ 4.03699 ~&~ 4.65834 ~\\ \hline
~ \dots ~&~ \dots ~&~ \dots ~&~ \dots ~\\
\hline
@@ -338,7 +339,8 @@ different results. Similarly, $E$ is only given here as an indication:
Our improved metric allowed us to confirm that the original Floyd-Steinberg
coefficients were indeed amongst the best possible for raster scan.
More importantly, using $E$ as the decision variable may have elected
$\frac{1}{16}\{8,4,4,0\}$, which is in fact a poor choice.
$\frac{1}{16}\{7,3,6,0\}$ or $\frac{1}{16}\{8,3,5,0\}$, which are in fact poor
choices.

For serpentine scan, however, our experiment suggests that
$\frac{1}{16}\{7,4,5,0\}$ is a better choice than the Floyd-Steinberg
@@ -347,11 +349,21 @@ coefficients that have nonetheless been widely in use so far (Fig.

\begin{figure}
\begin{center}
\includegraphics[width=0.8\textwidth]{lena.eps}
\caption{halftone of \textit{Lena} using serpentine error diffusion and
the optimum coefficients $\frac{1}{16}\{7,4,5,0\}$ that improve
on the standard Floyd-Steinberg coefficients in terms of visual
quality for the HVS model studied in section 3.}
\includegraphics[width=0.4\textwidth]{output-7-3-5-1-serp.eps}
~
\includegraphics[width=0.4\textwidth]{output-7-4-5-0-serp.eps}
\end{center}
\begin{center}
\includegraphics[width=0.4\textwidth]{crop-7-3-5-1-serp.eps}
~
\includegraphics[width=0.4\textwidth]{crop-7-4-5-0-serp.eps}
\caption{halftone of \textit{Lena} using serpentine error diffusion
(\textit{left}) and the optimum coefficients
$\frac{1}{16}\{7,4,5,0\}$ (\textit{right}) that improve on the
standard Floyd-Steinberg coefficients in terms of visual quality
for the HVS model used in section 3. The detailed area
(\textit{bottom}) shows fewer structure artifacts in the regions
with low contrast.}
\label{fig:lena7450}
\end{center}
\end{figure}
@@ -418,59 +430,54 @@ L. Velho and J. Gomes,
\textit{Digital halftoning with space-filling curves}.
Computer Graphics (Proceedings of SIGGRAPH 91), 25(4):81--90, 1991

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I.~H. Witten and R.~M. Neal,
\textit{Using peano curves for bilevel display of continuous-tone images}.
IEEE Computer Graphics \& Appl., 2:47--52, 1982

\bibitem[10]{nasanen}
\bibitem[9]{nasanen}
R. Nasanen,
\textit{Visibility of halftone dot textures}.
IEEE Trans. Syst. Man. Cyb., vol. 14, no. 6, pp. 920--924, 1984

\bibitem[11]{allebach}
\bibitem[10]{allebach}
M. Analoui and J.~P. Allebach,
\textit{Model-based halftoning using direct binary search}.
Proc. of SPIE/IS\&T Symp. on Electronic Imaging Science and Tech.,
February 1992, San Jose, CA, pp. 96--108

\bibitem[12]{mcnamara}
\bibitem[11]{mcnamara}
Ann McNamara,
\textit{Visual Perception in Realistic Image Synthesis}.
Computer Graphics Forum, vol. 20, no. 4, pp. 211--224, 2001

\bibitem[13]{bhatt}
\bibitem[12]{bhatt}
Bhatt \textit{et al.},
\textit{Direct Binary Search with Adaptive Search and Swap}.
\url{http://www.ima.umn.edu/2004-2005/MM8.1-10.05/activities/Wu-Chai/halftone.pdf}

\bibitem[14]{4chan}
\bibitem[13]{4chan}
moot,
\url{http://www.4chan.org/}

\bibitem[15]{wong}
\bibitem[14]{wong}
P.~W. Wong and J.~P. Allebach,
\textit{Optimum error-diffusion kernel design}.
Proc. SPIE Vol. 3018, p. 236--242, 1997

\bibitem[16]{ostromoukhov}
\bibitem[15]{ostromoukhov}
Victor Ostromoukhov,
\textit{A Simple and Efficient Error-Diffusion Algorithm}.
in Proceedings of SIGGRAPH 2001, in ACM Computer Graphics, Annual Conference
Series, pp. 567--572, 2001

\bibitem[17]{lsmb}
\bibitem[16]{lsmb}
T.~N. Pappas and D.~L. Neuhoff,
\textit{Least-squares model-based halftoning}.
in Proc. SPIE, Human Vision, Visual Proc., and Digital Display III, San Jose,
CA, Feb. 1992, vol. 1666, pp. 165--176

\bibitem[18]{stability}
\bibitem[17]{stability}
R. Eschbach, Z. Fan, K.~T. Knox and G. Marcu,
\textit{Threshold Modulation and Stability in Error Diffusion}.
in Signal Processing Magazine, IEEE, July 2003, vol. 20, issue 4, pp. 39--50

\bibitem[19]{sullivan}
\bibitem[18]{sullivan}
J. Sullivan, R. Miller and G. Pios,
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J. Opt. Soc. Am. A, vol. 10, pp. 1714--1724, Aug. 1993
@@ -478,4 +485,3 @@ J. Opt. Soc. Am. A, vol. 10, pp. 1714--1724, Aug. 1993
\end{thebibliography}

\end{document}


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- 15632
2008-displacement/paper/serpopt-histo.eps
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查看文件


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2008-displacement/paper/serpopt-histo.tex 查看文件

@@ -72,7 +72,7 @@
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