Dataset Viewer
id
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30
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imagewidth (px) 384
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| code
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example_10000_combination_5
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ] (p) -- (ep) node[right,midway] {$\sigma_2P$};
\end{tikzpicture}
\end{document}
|
|
example_10000_combination_2
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$\lambda_1$ };
\end{tikzpicture}
\end{document}
|
|
example_10000_combination_3
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\end{tikzpicture}
\end{document}
|
|
example_10000_combination_4
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\end{tikzpicture}
\end{document}
|
|
example_10000_combination_10
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ] (p) -- (ep) node[right,midway] {$\sigma_2P$};
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\draw (p.west) node[below left,inner sep=2] {\tiny +1};
\end{tikzpicture}
\end{document}
|
|
example_10000_combination_9
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ] (p) -- (ep) node[right,midway] {$\sigma_2P$};
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\end{tikzpicture}
\end{document}
|
|
example_10000_combination_7
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ] (p) -- (ep) node[right,midway] {$\sigma_2P$};
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\end{tikzpicture}
\end{document}
|
|
example_10000_combination_1
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\end{tikzpicture}
\end{document}
|
|
example_10000_combination_6
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ] (p) -- (ep) node[right,midway] {$\sigma_2P$};
\draw (m.north)+(0,0.5) node[above]{mRNA};
\end{tikzpicture}
\end{document}
|
|
example_10000_combination_8
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ] (p) -- (ep) node[right,midway] {$\sigma_2P$};
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\end{tikzpicture}
\end{document}
|
|
example_10000_combination_11
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ] (p) -- (ep) node[right,midway] {$\sigma_2P$};
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\draw (p.west) node[below left,inner sep=2] {\tiny +1};
\draw (p.south) node[below left,inner sep=2] {\tiny -1};
\end{tikzpicture}
\end{document}
|
|
example_10000_main
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none] {$\emptyset$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ] (p) -- (ep) node[right,midway] {$\sigma_2P$};
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\draw (p.west) node[below left,inner sep=2] {\tiny +1};
\draw (p.south) node[below left,inner sep=2] {\tiny -1};
\end{tikzpicture}
\end{document}
|
|
example_10001_combination_1
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\node[anchor=south west,inner sep=0] (im) at (0,0) {\includegraphics[height=5.5cm,page=1]{example-image}};
\end{tikzpicture}
\end{document}
|
|
example_10001_combination_2
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\node[anchor=south west,inner sep=0] (im) at (0,0) {\includegraphics[height=5.5cm,page=1]{example-image}};
\node[anchor=south west,inner sep=0] (im1) at (4,.9) {
\includegraphics[width=4.4cm]{example-image}};
\end{tikzpicture}
\end{document}
|
|
example_10001_combination_3
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\node[anchor=south west,inner sep=0] (im) at (0,0) {\includegraphics[height=5.5cm,page=1]{example-image}};
\node[anchor=south west,inner sep=0] (im1) at (4,.9) {
\includegraphics[width=4.4cm]{example-image}};
\end{tikzpicture}
\end{document}
|
|
example_10001_main
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\node[anchor=south west,inner sep=0] (im) at (0,0) {\includegraphics[height=5.5cm,page=1]{example-image}};
\node[anchor=south west,inner sep=0] (im1) at (4,.9) {
\includegraphics[width=4.4cm]{example-image}};
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_13
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\node[black] at (1.2,1.3){$\Delta_s$};
\draw[axis,<->] (3,0) node(xline)[right,align=left] {Time} -|
(0,2) node(yline)[above] {Lifetime};
\coordinate (starpt) at (1.25,1);
\foreach \x/\y/\z in {0.5/0.25/0, 1.4/0.6/0, 2/1.3/0.5, 0.2/0.4/0,
2.3/0.7/0.2, 2.55/0.2/0}
{
\node[dot,color=blue] at (\x,\y) {};
\draw[dashed line,blue] (\x,\y)--($(\x+\y-\z,\z)$);
}
\node[dot,color=blue] at (starpt) {};
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1,0)$) node[below,red]{$t_i$}
(starpt)--($(0,\y1)$)
;
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1+\y1,0)$) node[below,red]{$t_i+\delta_i$};
\draw[<->,red,line width=0.25mm] let \p1=(starpt) in
(-0.1,0)--(-0.1,\y1) node[above,midway,rotate=90,red]{
$\delta_i\sim{\cal E}(\sigma_{1})$};
\draw[<->,black,line width=0.25mm] (0,-0.3)--(2.8,-0.3)
node[below,midway]{Point Poisson Process ($\lambda_1$)};
\draw[line width=0.5mm] (1.8,2)--(1.8,0) node[below]{$s$};
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_8
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\node[black] at (1.2,1.3){$\Delta_s$};
\draw[axis,<->] (3,0) node(xline)[right,align=left] {Time} -|
(0,2) node(yline)[above] {Lifetime};
\coordinate (starpt) at (1.25,1);
\foreach \x/\y/\z in {0.5/0.25/0, 1.4/0.6/0, 2/1.3/0.5, 0.2/0.4/0,
2.3/0.7/0.2, 2.55/0.2/0}
{
\node[dot,color=blue] at (\x,\y) {};
\draw[dashed line,blue] (\x,\y)--($(\x+\y-\z,\z)$);
}
\node[dot,color=blue] at (starpt) {};
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1,0)$) node[below,red]{$t_i$}
(starpt)--($(0,\y1)$)
;
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_1
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_6
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\node[black] at (1.2,1.3){$\Delta_s$};
\draw[axis,<->] (3,0) node(xline)[right,align=left] {Time} -|
(0,2) node(yline)[above] {Lifetime};
\coordinate (starpt) at (1.25,1);
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_12
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\node[black] at (1.2,1.3){$\Delta_s$};
\draw[axis,<->] (3,0) node(xline)[right,align=left] {Time} -|
(0,2) node(yline)[above] {Lifetime};
\coordinate (starpt) at (1.25,1);
\foreach \x/\y/\z in {0.5/0.25/0, 1.4/0.6/0, 2/1.3/0.5, 0.2/0.4/0,
2.3/0.7/0.2, 2.55/0.2/0}
{
\node[dot,color=blue] at (\x,\y) {};
\draw[dashed line,blue] (\x,\y)--($(\x+\y-\z,\z)$);
}
\node[dot,color=blue] at (starpt) {};
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1,0)$) node[below,red]{$t_i$}
(starpt)--($(0,\y1)$)
;
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1+\y1,0)$) node[below,red]{$t_i+\delta_i$};
\draw[<->,red,line width=0.25mm] let \p1=(starpt) in
(-0.1,0)--(-0.1,\y1) node[above,midway,rotate=90,red]{
$\delta_i\sim{\cal E}(\sigma_{1})$};
\draw[<->,black,line width=0.25mm] (0,-0.3)--(2.8,-0.3)
node[below,midway]{Point Poisson Process ($\lambda_1$)};
\draw[line width=0.5mm] (1.8,2)--(1.8,0) node[below]{$s$};
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_7
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\node[black] at (1.2,1.3){$\Delta_s$};
\draw[axis,<->] (3,0) node(xline)[right,align=left] {Time} -|
(0,2) node(yline)[above] {Lifetime};
\coordinate (starpt) at (1.25,1);
\foreach \x/\y/\z in {0.5/0.25/0, 1.4/0.6/0, 2/1.3/0.5, 0.2/0.4/0,
2.3/0.7/0.2, 2.55/0.2/0}
{
\node[dot,color=blue] at (\x,\y) {};
\draw[dashed line,blue] (\x,\y)--($(\x+\y-\z,\z)$);
}
\node[dot,color=blue] at (starpt) {};
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_9
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\node[black] at (1.2,1.3){$\Delta_s$};
\draw[axis,<->] (3,0) node(xline)[right,align=left] {Time} -|
(0,2) node(yline)[above] {Lifetime};
\coordinate (starpt) at (1.25,1);
\foreach \x/\y/\z in {0.5/0.25/0, 1.4/0.6/0, 2/1.3/0.5, 0.2/0.4/0,
2.3/0.7/0.2, 2.55/0.2/0}
{
\node[dot,color=blue] at (\x,\y) {};
\draw[dashed line,blue] (\x,\y)--($(\x+\y-\z,\z)$);
}
\node[dot,color=blue] at (starpt) {};
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1,0)$) node[below,red]{$t_i$}
(starpt)--($(0,\y1)$)
;
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1+\y1,0)$) node[below,red]{$t_i+\delta_i$};
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_3
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_4
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\node[black] at (1.2,1.3){$\Delta_s$};
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_11
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\node[black] at (1.2,1.3){$\Delta_s$};
\draw[axis,<->] (3,0) node(xline)[right,align=left] {Time} -|
(0,2) node(yline)[above] {Lifetime};
\coordinate (starpt) at (1.25,1);
\foreach \x/\y/\z in {0.5/0.25/0, 1.4/0.6/0, 2/1.3/0.5, 0.2/0.4/0,
2.3/0.7/0.2, 2.55/0.2/0}
{
\node[dot,color=blue] at (\x,\y) {};
\draw[dashed line,blue] (\x,\y)--($(\x+\y-\z,\z)$);
}
\node[dot,color=blue] at (starpt) {};
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1,0)$) node[below,red]{$t_i$}
(starpt)--($(0,\y1)$)
;
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1+\y1,0)$) node[below,red]{$t_i+\delta_i$};
\draw[<->,red,line width=0.25mm] let \p1=(starpt) in
(-0.1,0)--(-0.1,\y1) node[above,midway,rotate=90,red]{
$\delta_i\sim{\cal E}(\sigma_{1})$};
\draw[<->,black,line width=0.25mm] (0,-0.3)--(2.8,-0.3)
node[below,midway]{Point Poisson Process ($\lambda_1$)};
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_5
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\node[black] at (1.2,1.3){$\Delta_s$};
\draw[axis,<->] (3,0) node(xline)[right,align=left] {Time} -|
(0,2) node(yline)[above] {Lifetime};
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_2
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\end{tikzpicture}
\end{document}
|
|
example_10002_combination_10
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\node[black] at (1.2,1.3){$\Delta_s$};
\draw[axis,<->] (3,0) node(xline)[right,align=left] {Time} -|
(0,2) node(yline)[above] {Lifetime};
\coordinate (starpt) at (1.25,1);
\foreach \x/\y/\z in {0.5/0.25/0, 1.4/0.6/0, 2/1.3/0.5, 0.2/0.4/0,
2.3/0.7/0.2, 2.55/0.2/0}
{
\node[dot,color=blue] at (\x,\y) {};
\draw[dashed line,blue] (\x,\y)--($(\x+\y-\z,\z)$);
}
\node[dot,color=blue] at (starpt) {};
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1,0)$) node[below,red]{$t_i$}
(starpt)--($(0,\y1)$)
;
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1+\y1,0)$) node[below,red]{$t_i+\delta_i$};
\draw[<->,red,line width=0.25mm] let \p1=(starpt) in
(-0.1,0)--(-0.1,\y1) node[above,midway,rotate=90,red]{
$\delta_i\sim{\cal E}(\sigma_{1})$};
\end{tikzpicture}
\end{document}
|
|
example_10002_main
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\node[black] at (1.2,1.3){$\Delta_s$};
\draw[axis,<->] (3,0) node(xline)[right,align=left] {Time} -|
(0,2) node(yline)[above] {Lifetime};
\coordinate (starpt) at (1.25,1);
\foreach \x/\y/\z in {0.5/0.25/0, 1.4/0.6/0, 2/1.3/0.5, 0.2/0.4/0,
2.3/0.7/0.2, 2.55/0.2/0}
{
\node[dot,color=blue] at (\x,\y) {};
\draw[dashed line,blue] (\x,\y)--($(\x+\y-\z,\z)$);
}
\node[dot,color=blue] at (starpt) {};
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1,0)$) node[below,red]{$t_i$}
(starpt)--($(0,\y1)$)
;
\draw[dashed line,red] let \p1=(starpt) in
(starpt)--($(\x1+\y1,0)$) node[below,red]{$t_i+\delta_i$};
\draw[<->,red,line width=0.25mm] let \p1=(starpt) in
(-0.1,0)--(-0.1,\y1) node[above,midway,rotate=90,red]{
$\delta_i\sim{\cal E}(\sigma_{1})$};
\draw[<->,black,line width=0.25mm] (0,-0.3)--(2.8,-0.3)
node[below,midway]{Point Poisson Process ($\lambda_1$)};
\draw[line width=0.5mm] (1.8,2)--(1.8,0) node[below]{$s$};
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_7
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_10
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_9
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_22
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fy.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[->,blue] (m) -- (empty) node[midway,right] {$\sigma_{1,i} M_i$};
\draw[->,blue] (m) -- (er) node[above,midway] {$\lambda_{2,i} M_i F_R /V$};
\draw[->,blue] (er) -- (p) node[above,midway] {$\mu_{2,i} E_{R,i}$};
\draw[gray] (fr.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fr.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[blue] (m.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[blue] (m.south)+(-0.2,0) node[left,below] {\tiny -1};
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_25
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fy.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[->,blue] (m) -- (empty) node[midway,right] {$\sigma_{1,i} M_i$};
\draw[->,blue] (m) -- (er) node[above,midway] {$\lambda_{2,i} M_i F_R /V$};
\draw[->,blue] (er) -- (p) node[above,midway] {$\mu_{2,i} E_{R,i}$};
\draw[gray] (fr.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fr.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[blue] (m.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[blue] (m.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[blue] (p.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (m) -- (none3);
\draw[-> ,red] (p) -- (none3);
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_34
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fy.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[->,blue] (m) -- (empty) node[midway,right] {$\sigma_{1,i} M_i$};
\draw[->,blue] (m) -- (er) node[above,midway] {$\lambda_{2,i} M_i F_R /V$};
\draw[->,blue] (er) -- (p) node[above,midway] {$\mu_{2,i} E_{R,i}$};
\draw[gray] (fr.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fr.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[blue] (m.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[blue] (m.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[blue] (p.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (m) -- (none3);
\draw[-> ,red] (p) -- (none3);
\draw[->,green] (gj) -- (eyj);
\draw[->,green] (gj.east) -- +(1,0) |- (none1j.center) -- +(1.7,0) |- (mj.west);
\draw[green] (none1j.center) node[above] {$\lambda_{1,j} G_j F_Y/V$};
\draw[green] (eyj.east)+(-0.4,.9) node[right] {$\mu_{1,j} E_{Y,j}$};
\draw[->,green] (mj) -- (emptyj) node[midway,right] {$\sigma_{1,j} M_j$};
\draw[->,green] (mj) -- (erj) node[above,midway] {$\lambda_{2,j} M_j F_R /V$};
\draw[->,green] (erj) -- (pj) node[above,midway] {$\mu_{2,j} E_{R,j}$};
\draw[green] (mj.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[green] (mj.south)+(-0.2,0) node[left,below] {\tiny -1};
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_16
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fy.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[->,blue] (m) -- (empty) node[midway,right] {$\sigma_{1,i} M_i$};
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_1
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_11
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_38
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fy.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[->,blue] (m) -- (empty) node[midway,right] {$\sigma_{1,i} M_i$};
\draw[->,blue] (m) -- (er) node[above,midway] {$\lambda_{2,i} M_i F_R /V$};
\draw[->,blue] (er) -- (p) node[above,midway] {$\mu_{2,i} E_{R,i}$};
\draw[gray] (fr.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fr.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[blue] (m.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[blue] (m.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[blue] (p.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (m) -- (none3);
\draw[-> ,red] (p) -- (none3);
\draw[->,green] (gj) -- (eyj);
\draw[->,green] (gj.east) -- +(1,0) |- (none1j.center) -- +(1.7,0) |- (mj.west);
\draw[green] (none1j.center) node[above] {$\lambda_{1,j} G_j F_Y/V$};
\draw[green] (eyj.east)+(-0.4,.9) node[right] {$\mu_{1,j} E_{Y,j}$};
\draw[->,green] (mj) -- (emptyj) node[midway,right] {$\sigma_{1,j} M_j$};
\draw[->,green] (mj) -- (erj) node[above,midway] {$\lambda_{2,j} M_j F_R /V$};
\draw[->,green] (erj) -- (pj) node[above,midway] {$\mu_{2,j} E_{R,j}$};
\draw[green] (mj.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[green] (mj.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[green] (pj.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (mj) -- (none3j);
\draw[-> ,red] (pj) -- (none3j);
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_36
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fy.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[->,blue] (m) -- (empty) node[midway,right] {$\sigma_{1,i} M_i$};
\draw[->,blue] (m) -- (er) node[above,midway] {$\lambda_{2,i} M_i F_R /V$};
\draw[->,blue] (er) -- (p) node[above,midway] {$\mu_{2,i} E_{R,i}$};
\draw[gray] (fr.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fr.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[blue] (m.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[blue] (m.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[blue] (p.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (m) -- (none3);
\draw[-> ,red] (p) -- (none3);
\draw[->,green] (gj) -- (eyj);
\draw[->,green] (gj.east) -- +(1,0) |- (none1j.center) -- +(1.7,0) |- (mj.west);
\draw[green] (none1j.center) node[above] {$\lambda_{1,j} G_j F_Y/V$};
\draw[green] (eyj.east)+(-0.4,.9) node[right] {$\mu_{1,j} E_{Y,j}$};
\draw[->,green] (mj) -- (emptyj) node[midway,right] {$\sigma_{1,j} M_j$};
\draw[->,green] (mj) -- (erj) node[above,midway] {$\lambda_{2,j} M_j F_R /V$};
\draw[->,green] (erj) -- (pj) node[above,midway] {$\mu_{2,j} E_{R,j}$};
\draw[green] (mj.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[green] (mj.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[green] (pj.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (mj) -- (none3j);
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_31
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fy.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[->,blue] (m) -- (empty) node[midway,right] {$\sigma_{1,i} M_i$};
\draw[->,blue] (m) -- (er) node[above,midway] {$\lambda_{2,i} M_i F_R /V$};
\draw[->,blue] (er) -- (p) node[above,midway] {$\mu_{2,i} E_{R,i}$};
\draw[gray] (fr.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fr.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[blue] (m.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[blue] (m.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[blue] (p.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (m) -- (none3);
\draw[-> ,red] (p) -- (none3);
\draw[->,green] (gj) -- (eyj);
\draw[->,green] (gj.east) -- +(1,0) |- (none1j.center) -- +(1.7,0) |- (mj.west);
\draw[green] (none1j.center) node[above] {$\lambda_{1,j} G_j F_Y/V$};
\draw[green] (eyj.east)+(-0.4,.9) node[right] {$\mu_{1,j} E_{Y,j}$};
\draw[->,green] (mj) -- (emptyj) node[midway,right] {$\sigma_{1,j} M_j$};
\draw[->,green] (mj) -- (erj) node[above,midway] {$\lambda_{2,j} M_j F_R /V$};
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_27
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fy.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[->,blue] (m) -- (empty) node[midway,right] {$\sigma_{1,i} M_i$};
\draw[->,blue] (m) -- (er) node[above,midway] {$\lambda_{2,i} M_i F_R /V$};
\draw[->,blue] (er) -- (p) node[above,midway] {$\mu_{2,i} E_{R,i}$};
\draw[gray] (fr.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fr.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[blue] (m.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[blue] (m.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[blue] (p.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (m) -- (none3);
\draw[-> ,red] (p) -- (none3);
\draw[->,green] (gj) -- (eyj);
\draw[->,green] (gj.east) -- +(1,0) |- (none1j.center) -- +(1.7,0) |- (mj.west);
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_29
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fy.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[->,blue] (m) -- (empty) node[midway,right] {$\sigma_{1,i} M_i$};
\draw[->,blue] (m) -- (er) node[above,midway] {$\lambda_{2,i} M_i F_R /V$};
\draw[->,blue] (er) -- (p) node[above,midway] {$\mu_{2,i} E_{R,i}$};
\draw[gray] (fr.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fr.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[blue] (m.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[blue] (m.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[blue] (p.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (m) -- (none3);
\draw[-> ,red] (p) -- (none3);
\draw[->,green] (gj) -- (eyj);
\draw[->,green] (gj.east) -- +(1,0) |- (none1j.center) -- +(1.7,0) |- (mj.west);
\draw[green] (none1j.center) node[above] {$\lambda_{1,j} G_j F_Y/V$};
\draw[green] (eyj.east)+(-0.4,.9) node[right] {$\mu_{1,j} E_{Y,j}$};
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_2
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_30
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fy.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[->,blue] (m) -- (empty) node[midway,right] {$\sigma_{1,i} M_i$};
\draw[->,blue] (m) -- (er) node[above,midway] {$\lambda_{2,i} M_i F_R /V$};
\draw[->,blue] (er) -- (p) node[above,midway] {$\mu_{2,i} E_{R,i}$};
\draw[gray] (fr.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fr.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[blue] (m.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[blue] (m.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[blue] (p.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (m) -- (none3);
\draw[-> ,red] (p) -- (none3);
\draw[->,green] (gj) -- (eyj);
\draw[->,green] (gj.east) -- +(1,0) |- (none1j.center) -- +(1.7,0) |- (mj.west);
\draw[green] (none1j.center) node[above] {$\lambda_{1,j} G_j F_Y/V$};
\draw[green] (eyj.east)+(-0.4,.9) node[right] {$\mu_{1,j} E_{Y,j}$};
\draw[->,green] (mj) -- (emptyj) node[midway,right] {$\sigma_{1,j} M_j$};
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_14
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_3
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_4
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\end{tikzpicture}
\end{document}
|
|
example_10003_combination_13
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\end{tikzpicture}
\end{document}
|
|
example_10003_main
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=20mm, row sep=10mm,ampersand replacement=\&] {
\&
\node[gray] (fy) [draw, shape=rectangle] {$F_Y$}; \&
\&
\node[gray] (fr) [draw, shape=rectangle] {$F_R$}; \&
\\
\node (g) [draw, shape=rectangle,blue] {$G_i$}; \&
\node (ey) [draw, shape=rectangle,blue] {$E_{Y,i}$}; \&
\node (m) [draw, shape=rectangle,blue] {$M_i$}; \&
\node (er) [draw, shape=rectangle,blue] {$E_{R,i}$}; \&
\node (p) [draw, shape=rectangle,blue] {$P_i$};\\
\&
\node (none1) [draw=none,fill=none,blue] {}; \&
\node (empty) [draw=none,fill=none,blue] {$\emptyset$}; \&
\node (none2) [draw=none,fill=none] {}; \&
\node (none3) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \&
\\
\node (gj) [draw, shape=rectangle,green] {$G_j$}; \&
\node (eyj) [draw, shape=rectangle,green] {$E_{Y,j}$}; \&
\node (mj) [draw, shape=rectangle,green] {$M_j$}; \&
\node (erj) [draw, shape=rectangle,green] {$E_{R,j}$}; \&
\node (pj) [draw, shape=rectangle,green] {$P_j$}; \\
\&
\node (none1j) [draw=none,fill=none,green] {}; \&
\node (emptyj) [draw=none,fill=none,green] {$\emptyset$}; \&
\node (none2j) [draw=none,fill=none,green] {}; \&
\node (none3j) [draw=none,fill=none,color=red,align=center] {
Divisions at \\the volume $2 V_0$}; \\
};
\draw[->,blue!50,thick] (fy.west) to [left,bend right=70] (ey.west);
\draw[->,blue!50,thick] (ey.east) to [left,bend right=70] (fy.east);
\draw[->,blue!50,thick] (fr.west) to [left,bend right=70] (er.west);
\draw[->,blue!50,thick] (er.east) to [left,bend right=70] (fr.east);
\draw[->,green!50,thick] (fy.west) to [left,bend right=70] (eyj.west);
\draw[->,green!50,thick] (eyj.east) to [left,bend right=70] (fy.east);
\draw[->,green!50,thick] (fr.west) to [left,bend right=70] (erj.west);
\draw[->,green!50,thick] (erj.east) to [left,bend right=70] (fr.east);
\draw[->,blue] (g) -- (ey);
\draw[->,blue] (g.east) -- +(1,0) |- (none1.center) -- +(1.7,0) |- (m.west);
\draw[blue] (none1.center) node[above] {$\lambda_{1,i} G_i F_Y/V$};
\draw[blue] (ey.east)+(-0.85,.9) node[right] {$\mu_{1,i} E_{Y,i}$};
\draw[gray] (fy.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fy.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[->,blue] (m) -- (empty) node[midway,right] {$\sigma_{1,i} M_i$};
\draw[->,blue] (m) -- (er) node[above,midway] {$\lambda_{2,i} M_i F_R /V$};
\draw[->,blue] (er) -- (p) node[above,midway] {$\mu_{2,i} E_{R,i}$};
\draw[gray] (fr.east)+(0.3,0) node[right,above] {\tiny +1};
\draw[gray] (fr.west)+(-0.3,0) node[left,above] {\tiny -1};
\draw[blue] (m.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[blue] (m.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[blue] (p.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (m) -- (none3);
\draw[-> ,red] (p) -- (none3);
\draw[->,green] (gj) -- (eyj);
\draw[->,green] (gj.east) -- +(1,0) |- (none1j.center) -- +(1.7,0) |- (mj.west);
\draw[green] (none1j.center) node[above] {$\lambda_{1,j} G_j F_Y/V$};
\draw[green] (eyj.east)+(-0.4,.9) node[right] {$\mu_{1,j} E_{Y,j}$};
\draw[->,green] (mj) -- (emptyj) node[midway,right] {$\sigma_{1,j} M_j$};
\draw[->,green] (mj) -- (erj) node[above,midway] {$\lambda_{2,j} M_j F_R /V$};
\draw[->,green] (erj) -- (pj) node[above,midway] {$\mu_{2,j} E_{R,j}$};
\draw[green] (mj.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[green] (mj.south)+(-0.2,0) node[left,below] {\tiny -1};
\draw[green] (pj.west)+(-0.2,0) node[left,above] {\tiny +1};
\draw[-> ,red] (mj) -- (none3j);
\draw[-> ,red] (pj) -- (none3j);
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_10
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_17
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\draw[->,black!60]
[bend right=27] ($(ey1.west)+(0,0.015)$) to
($(fy.east)+(0,0.055)$);
\draw[->,black!60]
($(fy.east)+(0,0.025)$) to
[bend right=-27] ($(ey1.west)+(0,-0.015)$);
\draw[->,black!60]
[bend right=-27] ($(eyk.west)+(0,-0.015)$) to
($(fy.east)+(0,-0.055)$);
\draw[->,black!60]
($(fy.east)+(0,-0.025)$) to
[bend right=27] ($(eyk.west)+(0,0.015)$);
\draw (sy.north)+(0,0.3) node[above]{Non-specifically bound};
\draw (fy.north)+(0,0.3) node[above]{Free};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_22
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\draw[->,black!60]
[bend right=27] ($(ey1.west)+(0,0.015)$) to
($(fy.east)+(0,0.055)$);
\draw[->,black!60]
($(fy.east)+(0,0.025)$) to
[bend right=-27] ($(ey1.west)+(0,-0.015)$);
\draw[->,black!60]
[bend right=-27] ($(eyk.west)+(0,-0.015)$) to
($(fy.east)+(0,-0.055)$);
\draw[->,black!60]
($(fy.east)+(0,-0.025)$) to
[bend right=27] ($(eyk.west)+(0,0.015)$);
\draw (sy.north)+(0,0.3) node[above]{Non-specifically bound};
\draw (fy.north)+(0,0.3) node[above]{Free};
\draw (ey1.north)+(0,0.05) node[above]{Specifically bound};
\draw (ey1.north west)+(-0.05,0.05) node (a) {};
\draw (eyk.south east)+(0.05,-0.05) node (b) {};
\path[draw] (a) rectangle (b);
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_3
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_4
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_18
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\draw[->,black!60]
[bend right=27] ($(ey1.west)+(0,0.015)$) to
($(fy.east)+(0,0.055)$);
\draw[->,black!60]
($(fy.east)+(0,0.025)$) to
[bend right=-27] ($(ey1.west)+(0,-0.015)$);
\draw[->,black!60]
[bend right=-27] ($(eyk.west)+(0,-0.015)$) to
($(fy.east)+(0,-0.055)$);
\draw[->,black!60]
($(fy.east)+(0,-0.025)$) to
[bend right=27] ($(eyk.west)+(0,0.015)$);
\draw (sy.north)+(0,0.3) node[above]{Non-specifically bound};
\draw (fy.north)+(0,0.3) node[above]{Free};
\draw (ey1.north)+(0,0.05) node[above]{Specifically bound};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_16
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\draw[->,black!60]
[bend right=27] ($(ey1.west)+(0,0.015)$) to
($(fy.east)+(0,0.055)$);
\draw[->,black!60]
($(fy.east)+(0,0.025)$) to
[bend right=-27] ($(ey1.west)+(0,-0.015)$);
\draw[->,black!60]
[bend right=-27] ($(eyk.west)+(0,-0.015)$) to
($(fy.east)+(0,-0.055)$);
\draw[->,black!60]
($(fy.east)+(0,-0.025)$) to
[bend right=27] ($(eyk.west)+(0,0.015)$);
\draw (sy.north)+(0,0.3) node[above]{Non-specifically bound};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_11
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_5
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_2
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_1
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_6
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_8
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_20
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\draw[->,black!60]
[bend right=27] ($(ey1.west)+(0,0.015)$) to
($(fy.east)+(0,0.055)$);
\draw[->,black!60]
($(fy.east)+(0,0.025)$) to
[bend right=-27] ($(ey1.west)+(0,-0.015)$);
\draw[->,black!60]
[bend right=-27] ($(eyk.west)+(0,-0.015)$) to
($(fy.east)+(0,-0.055)$);
\draw[->,black!60]
($(fy.east)+(0,-0.025)$) to
[bend right=27] ($(eyk.west)+(0,0.015)$);
\draw (sy.north)+(0,0.3) node[above]{Non-specifically bound};
\draw (fy.north)+(0,0.3) node[above]{Free};
\draw (ey1.north)+(0,0.05) node[above]{Specifically bound};
\draw (ey1.north west)+(-0.05,0.05) node (a) {};
\draw (eyk.south east)+(0.05,-0.05) node (b) {};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_12
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\draw[->,black!60]
[bend right=27] ($(ey1.west)+(0,0.015)$) to
($(fy.east)+(0,0.055)$);
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_15
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\draw[->,black!60]
[bend right=27] ($(ey1.west)+(0,0.015)$) to
($(fy.east)+(0,0.055)$);
\draw[->,black!60]
($(fy.east)+(0,0.025)$) to
[bend right=-27] ($(ey1.west)+(0,-0.015)$);
\draw[->,black!60]
[bend right=-27] ($(eyk.west)+(0,-0.015)$) to
($(fy.east)+(0,-0.055)$);
\draw[->,black!60]
($(fy.east)+(0,-0.025)$) to
[bend right=27] ($(eyk.west)+(0,0.015)$);
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_9
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_14
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\draw[->,black!60]
[bend right=27] ($(ey1.west)+(0,0.015)$) to
($(fy.east)+(0,0.055)$);
\draw[->,black!60]
($(fy.east)+(0,0.025)$) to
[bend right=-27] ($(ey1.west)+(0,-0.015)$);
\draw[->,black!60]
[bend right=-27] ($(eyk.west)+(0,-0.015)$) to
($(fy.east)+(0,-0.055)$);
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_13
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\draw[->,black!60]
[bend right=27] ($(ey1.west)+(0,0.015)$) to
($(fy.east)+(0,0.055)$);
\draw[->,black!60]
($(fy.east)+(0,0.025)$) to
[bend right=-27] ($(ey1.west)+(0,-0.015)$);
\end{tikzpicture}
\end{document}
|
|
example_10004_combination_21
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\draw[->,black!60]
[bend right=27] ($(ey1.west)+(0,0.015)$) to
($(fy.east)+(0,0.055)$);
\draw[->,black!60]
($(fy.east)+(0,0.025)$) to
[bend right=-27] ($(ey1.west)+(0,-0.015)$);
\draw[->,black!60]
[bend right=-27] ($(eyk.west)+(0,-0.015)$) to
($(fy.east)+(0,-0.055)$);
\draw[->,black!60]
($(fy.east)+(0,-0.025)$) to
[bend right=27] ($(eyk.west)+(0,0.015)$);
\draw (sy.north)+(0,0.3) node[above]{Non-specifically bound};
\draw (fy.north)+(0,0.3) node[above]{Free};
\draw (ey1.north)+(0,0.05) node[above]{Specifically bound};
\draw (ey1.north west)+(-0.05,0.05) node (a) {};
\draw (eyk.south east)+(0.05,-0.05) node (b) {};
\path[draw] (a) rectangle (b);
\end{tikzpicture}
\end{document}
|
|
example_10004_main
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[scale=4]
\node[draw,shape=rectangle] (fy) at (0,0){$F_Y$};
\node[draw,shape=rectangle] (sy) at (-1,0){$D_Y$};
\node[draw,shape=rectangle] (eyi) at (1,0){$E_{Y,i}$};
\node[draw,shape=rectangle] (ey1) at (1,0.4){$E_{Y,1}$};
\node[draw,shape=rectangle] (eyk) at (1,-0.4){$E_{Y,K}$};
\node[] at (1,0.2){...};
\node[] at (1,-0.2){...};
\draw[transform canvas={yshift=.3ex},->]
(fy) -- (sy) node[above,midway]
{$\lambda_{+}F_{Y}G/(K\cdot V)$};
\draw[transform canvas={yshift=-.3ex},->]
(sy) -- (fy) node[below,midway] {$\lambda_{-}\cdot D_Y$};
\draw[transform canvas={yshift=.3ex},->]
(eyi) -- (fy) node[above,midway] {$\lambda_{1,i} G_i F_Y/V$};
\draw[transform canvas={yshift=-.3ex},->]
(fy) -- (eyi) node[below,midway] {$\mu_{1,i} E_{Y,i}$};
\draw[->,black!60]
[bend right=27] ($(ey1.west)+(0,0.015)$) to
($(fy.east)+(0,0.055)$);
\draw[->,black!60]
($(fy.east)+(0,0.025)$) to
[bend right=-27] ($(ey1.west)+(0,-0.015)$);
\draw[->,black!60]
[bend right=-27] ($(eyk.west)+(0,-0.015)$) to
($(fy.east)+(0,-0.055)$);
\draw[->,black!60]
($(fy.east)+(0,-0.025)$) to
[bend right=27] ($(eyk.west)+(0,0.015)$);
\draw (sy.north)+(0,0.3) node[above]{Non-specifically bound};
\draw (fy.north)+(0,0.3) node[above]{Free};
\draw (ey1.north)+(0,0.05) node[above]{Specifically bound};
\draw (ey1.north west)+(-0.05,0.05) node (a) {};
\draw (eyk.south east)+(0.05,-0.05) node (b) {};
\path[draw] (a) rectangle (b);
\end{tikzpicture}
\end{document}
|
|
example_10005_combination_9
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Exact/random \\ partitioning every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$V(s)\cdot\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\draw (p.west) node[below left,inner sep=2] {\tiny +1};
\end{tikzpicture}
\end{document}
|
|
example_10005_combination_7
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Exact/random \\ partitioning every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$V(s)\cdot\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\end{tikzpicture}
\end{document}
|
|
example_10005_combination_6
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Exact/random \\ partitioning every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$V(s)\cdot\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\end{tikzpicture}
\end{document}
|
|
example_10005_combination_1
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Exact/random \\ partitioning every $\tau_{D}$}; \\
};
\end{tikzpicture}
\end{document}
|
|
example_10005_combination_10
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Exact/random \\ partitioning every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$V(s)\cdot\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\draw (p.west) node[below left,inner sep=2] {\tiny +1};
\end{tikzpicture}
\end{document}
|
|
example_10005_combination_8
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Exact/random \\ partitioning every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$V(s)\cdot\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\end{tikzpicture}
\end{document}
|
|
example_10005_combination_2
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Exact/random \\ partitioning every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$V(s)\cdot\lambda_1$ };
\end{tikzpicture}
\end{document}
|
|
example_10005_combination_5
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Exact/random \\ partitioning every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$V(s)\cdot\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\end{tikzpicture}
\end{document}
|
|
example_10005_combination_4
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Exact/random \\ partitioning every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$V(s)\cdot\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\end{tikzpicture}
\end{document}
|
|
example_10005_combination_3
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Exact/random \\ partitioning every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$V(s)\cdot\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\end{tikzpicture}
\end{document}
|
|
example_10005_main
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Exact/random \\ partitioning every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[above,midway,align=left]{$V(s)\cdot\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\draw (p.west) node[below left,inner sep=2] {\tiny +1};
\end{tikzpicture}
\end{document}
|
|
example_10006_combination_1
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\node[anchor=south west,inner sep=0] (im) at (0,0) {\includegraphics[height=5.5cm,page=1]{example-image}};
\end{tikzpicture}
\end{document}
|
|
example_10006_combination_3
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\node[anchor=south west,inner sep=0] (im) at (0,0) {\includegraphics[height=5.5cm,page=1]{example-image}};
\node[anchor=south west,inner sep=0] (im1) at (1.3,.9) {
\includegraphics[height=3.3cm]{example-image}};
\end{tikzpicture}
\end{document}
|
|
example_10006_combination_2
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\node[anchor=south west,inner sep=0] (im) at (0,0) {\includegraphics[height=5.5cm,page=1]{example-image}};
\node[anchor=south west,inner sep=0] (im1) at (1.3,.9) {
\includegraphics[height=3.3cm]{example-image}};
\end{tikzpicture}
\end{document}
|
|
example_10006_main
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\node[anchor=south west,inner sep=0] (im) at (0,0) {\includegraphics[height=5.5cm,page=1]{example-image}};
\node[anchor=south west,inner sep=0] (im1) at (1.3,.9) {
\includegraphics[height=3.3cm]{example-image}};
\end{tikzpicture}
\end{document}
|
|
example_10007_combination_5
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[pos=-0.1,above,align=left]
{Before repl. $\lambda_1$ };
\draw[-> ] (g) -- (m) node[pos=-0.1,below,align=left]
{After repl. $2\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\end{tikzpicture}
\end{document}
|
|
example_10007_combination_2
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[pos=-0.1,above,align=left]
{Before repl. $\lambda_1$ };
\end{tikzpicture}
\end{document}
|
|
example_10007_combination_3
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[pos=-0.1,above,align=left]
{Before repl. $\lambda_1$ };
\draw[-> ] (g) -- (m) node[pos=-0.1,below,align=left]
{After repl. $2\lambda_1$ };
\end{tikzpicture}
\end{document}
|
|
example_10007_combination_4
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[pos=-0.1,above,align=left]
{Before repl. $\lambda_1$ };
\draw[-> ] (g) -- (m) node[pos=-0.1,below,align=left]
{After repl. $2\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\end{tikzpicture}
\end{document}
|
|
example_10007_combination_7
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[pos=-0.1,above,align=left]
{Before repl. $\lambda_1$ };
\draw[-> ] (g) -- (m) node[pos=-0.1,below,align=left]
{After repl. $2\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\end{tikzpicture}
\end{document}
|
|
example_10007_combination_9
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[pos=-0.1,above,align=left]
{Before repl. $\lambda_1$ };
\draw[-> ] (g) -- (m) node[pos=-0.1,below,align=left]
{After repl. $2\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\end{tikzpicture}
\end{document}
|
|
example_10007_combination_11
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[pos=-0.1,above,align=left]
{Before repl. $\lambda_1$ };
\draw[-> ] (g) -- (m) node[pos=-0.1,below,align=left]
{After repl. $2\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\draw (p.west) node[below left,inner sep=2] {\tiny +1};
\end{tikzpicture}
\end{document}
|
|
example_10007_combination_10
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[pos=-0.1,above,align=left]
{Before repl. $\lambda_1$ };
\draw[-> ] (g) -- (m) node[pos=-0.1,below,align=left]
{After repl. $2\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\draw (p.west) node[below left,inner sep=2] {\tiny +1};
\end{tikzpicture}
\end{document}
|
|
example_10007_combination_8
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[pos=-0.1,above,align=left]
{Before repl. $\lambda_1$ };
\draw[-> ] (g) -- (m) node[pos=-0.1,below,align=left]
{After repl. $2\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\end{tikzpicture}
\end{document}
|
|
example_10007_combination_1
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\end{tikzpicture}
\end{document}
|
|
example_10007_combination_6
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[pos=-0.1,above,align=left]
{Before repl. $\lambda_1$ };
\draw[-> ] (g) -- (m) node[pos=-0.1,below,align=left]
{After repl. $2\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\end{tikzpicture}
\end{document}
|
|
example_10007_main
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}
\linespread{1}
\matrix [column sep=13mm, row sep=10mm,ampersand replacement=\&] {
\node (g) [draw=none,fill=none] {}; \&
\node (m) [draw, shape=rectangle] {$M$}; \&
\node (p) [draw, shape=rectangle] {$P$}; \\
\&
\node (em) [draw=none,fill=none] {$\emptyset$}; \&
\node (ep) [draw=none,fill=none,color=red,align=center] {
Random partitioning \\ every $\tau_{D}$}; \\
};
\draw[-> ] (g) -- (m) node[pos=-0.1,above,align=left]
{Before repl. $\lambda_1$ };
\draw[-> ] (g) -- (m) node[pos=-0.1,below,align=left]
{After repl. $2\lambda_1$ };
\draw[-> ] (m) -- (em) node[right,midway] {$\sigma_1M$};
\draw[-> ] (m) -- (p) node[midway,above] {$\lambda_2M$};
\draw[-> ,red] (m) -- (ep);%
\draw[-> ,red] (p) -- (ep);%
\draw (m.north)+(0,0.5) node[above]{mRNA};
\draw (p.north)+(0,0.5) node[above]{Protein};
\draw (m.west) node[below left,inner sep=2] {\tiny +1};
\draw (m.south) node[below left,inner sep=2] {\tiny -1};
\draw (p.west) node[below left,inner sep=2] {\tiny +1};
\end{tikzpicture}
\end{document}
|
|
example_10008_combination_5
|
\documentclass[american]{article}
\usepackage[T1]{fontenc}
\usepackage{amssymb}
\usepackage{amsmath}
\usepackage{tikz}
\usetikzlibrary{positioning,calc,arrows}
\begin{document}
\begin{tikzpicture}[
scale=1.6,
IS/.style={blue, thick},
LM/.style={red, thick},
axis/.style={very thick, ->, >=stealth', line join=miter},
important line/.style={thick}, dashed line/.style={dashed, thin},
every node/.style={color=black},
dot/.style={circle,fill=black,minimum size=4pt,inner sep=0pt,
outer sep=-1pt},
]
\fill[black!10] (1.8,0) -- (1.8,2) -- (0,2) -- (0,1.8) -- cycle;
\draw[line width=0.5mm,green] (2.8,2)--(2.8,0)
node[pos=0.21,below,green,rotate=90]{Division};
\draw[line width=0.5mm,green] (0.025,2)--(0.025,0)
node[pos=0.15,below,green,rotate=90]{Birth};
\draw[line width=0.5mm,green] (1,2)--(1,0)
node[pos=0.25,below,green,rotate=90]{Replication};
\node[black] at (0.7,1.6){$\Delta_s$};
\end{tikzpicture}
\end{document}
|
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