Commit 2fd9fdfd authored by Jaime Arias's avatar Jaime Arias
Browse files

add treasure-hunters minimal assignment figures

parent cf3988b2
......@@ -40,6 +40,13 @@ greater than the time for the thieves to steal the treasure and go away.
![Treasure Hunters ADTree](results/treasure-hunters/model/treasure-hunters.png)
### Minimal Scheduling
![treasure-hunters Assignment](results/treasure-hunters/assignment/treasure-hunters_scheduling.png)
### Toy Example
![toy-example ADTree](results/toy-example/model/toy-example.png)
### Compromise IoT device (iot-dev)
......@@ -51,9 +58,9 @@ ADTree adds defence nodes on top of the attack trees used in [4].
![iot-dev ADTree](results/iot-dev/model/iot-dev.png)
### Toy Example
### Minimal Scheduling
![toy-example ADTree](results/toy-example/model/toy-example.png)
![iot-dev Assignment](results/iot-dev/assignment/iot-dev_scheduling.png)
## Authors
......
\documentclass{standalone}
\usepackage[dvipsnames,svgnames,table]{xcolor}
\usepackage{tikz}
\usetikzlibrary{automata, positioning, arrows, shapes, shapes.gates.logic, shapes.gates.logic.US}
\begin{document}
\begin{tikzpicture}[node distance=1.8cm]
\tikzstyle{SEQ}=[diamond]
\tikzstyle{NULL}=[trapezium, trapezium left angle=120, trapezium right angle=120, minimum size=8mm]
\tikzstyle{AND}=[and gate US, logic gate inputs=nn, rotate=90 ]
\tikzstyle{OR}=[or gate US, logic gate inputs=nn, rotate=90 ]
\tikzset{every node/.style={ultra thick, draw=red, minimum size=6mm}}
\node[draw=red, NULL, xshift=0.000000cm ] (TS') {\ensuremath{\mathtt{TS'}}};
\node[draw=none, blue, xshift=2mm, yshift=7mm] at (TS'.east) {\small{\ensuremath{\mathtt{level}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=7mm] at (TS'.west) {\small{\ensuremath{\mathtt{depth}}}};\node[draw=none, blue, xshift=2mm, yshift=0mm] at (TS'.east) {\small{\ensuremath{\mathtt{0}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (TS'.west) {\small{\ensuremath{\mathtt{125}}}}; \node[draw=red, NULL, xshift=-0.000000cm , below of=TS'] (TF'_2) {\ensuremath{\mathtt{TF'_{2}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (TF'_2.east) {\small{\ensuremath{\mathtt{0}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (TF'_2.west) {\small{\ensuremath{\mathtt{125}}}}; \draw[solid] (TS') edge (TF'_2);
\node[draw=red, OR, xshift=-0.000000cm , yshift=4mm, below = 1.4cm of TF'_2.south] (GA') {\rotatebox {-90}{\ensuremath{\mathtt{GA'}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (GA'.south) {\small{\ensuremath{\mathtt{0}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (GA'.north) {\small{\ensuremath{\mathtt{125}}}}; \draw[solid] (TF'_2) edge (GA'.east);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=GA'] (h_3) {\ensuremath{\mathtt{h_{3}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (h_3.east) {\small{\ensuremath{\mathtt{0}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (h_3.west) {\small{\ensuremath{\mathtt{125}}}}; \draw[solid] (GA'.west) edge (h_3);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=h_3] (h_2) {\ensuremath{\mathtt{h_{2}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (h_2.east) {\small{\ensuremath{\mathtt{1}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (h_2.west) {\small{\ensuremath{\mathtt{124}}}}; \draw[solid] (h_3) edge (h_2);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=h_2] (h_1) {\ensuremath{\mathtt{h_{1}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (h_1.east) {\small{\ensuremath{\mathtt{2}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (h_1.west) {\small{\ensuremath{\mathtt{123}}}}; \draw[solid] (h_2) edge (h_1);
\node[draw=red, state, xshift=-0.000000cm , below of=h_1] (h') {\ensuremath{\mathtt{h'}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (h'.east) {\small{\ensuremath{\mathtt{3}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (h'.west) {\small{\ensuremath{\mathtt{122}}}}; \draw[solid] (h_1) edge (h');
\node[draw=red, NULL, xshift=-0.000000cm , below of=h'] (TF'_1) {\ensuremath{\mathtt{TF'_{1}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (TF'_1.east) {\small{\ensuremath{\mathtt{3}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (TF'_1.west) {\small{\ensuremath{\mathtt{122}}}}; \draw[solid] (h') edge (TF'_1);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=TF'_1] (ST_2) {\ensuremath{\mathtt{ST_{2}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (ST_2.east) {\small{\ensuremath{\mathtt{3}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (ST_2.west) {\small{\ensuremath{\mathtt{122}}}}; \draw[solid] (TF'_1) edge (ST_2);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=ST_2] (ST_1) {\ensuremath{\mathtt{ST_{1}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (ST_1.east) {\small{\ensuremath{\mathtt{4}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (ST_1.west) {\small{\ensuremath{\mathtt{121}}}}; \draw[solid] (ST_2) edge (ST_1);
\node[draw=red, AND, xshift=-0.000000cm , yshift=4mm, below = 1.4cm of ST_1.south] (ST') {\rotatebox {-90}{\ensuremath{\mathtt{ST'}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (ST'.south) {\small{\ensuremath{\mathtt{5}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (ST'.north) {\small{\ensuremath{\mathtt{120}}}}; \draw[solid] (ST_1) edge (ST'.east);
\node[draw=red, SEQ, xshift=-1.250000cm , below of=ST'] (b_60) {\ensuremath{\mathtt{b_{60}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (b_60.east) {\small{\ensuremath{\mathtt{5}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (b_60.west) {\small{\ensuremath{\mathtt{60}}}}; \draw[solid] (ST'.input 1) edge (b_60);
\node[draw=red, SEQ, xshift=1.250000cm , below of=ST'] (f_120) {\ensuremath{\mathtt{f_{120}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (f_120.east) {\small{\ensuremath{\mathtt{5}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (f_120.west) {\small{\ensuremath{\mathtt{120}}}}; \draw[solid] (ST'.input 2) edge (f_120);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=f_120] (f_3) {\ensuremath{\mathtt{f_{3}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (f_3.east) {\small{\ensuremath{\mathtt{122}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (f_3.west) {\small{\ensuremath{\mathtt{3}}}}; \draw[dotted, red, thick] (f_120) edge (f_3);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=f_3] (f_2) {\ensuremath{\mathtt{f_{2}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (f_2.east) {\small{\ensuremath{\mathtt{123}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (f_2.west) {\small{\ensuremath{\mathtt{2}}}}; \draw[solid] (f_3) edge (f_2);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=f_2] (f_1) {\ensuremath{\mathtt{f_{1}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (f_1.east) {\small{\ensuremath{\mathtt{124}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (f_1.west) {\small{\ensuremath{\mathtt{1}}}}; \draw[solid] (f_2) edge (f_1);
\node[draw=red, state, xshift=-0.000000cm , below of=f_1] (f') {\ensuremath{\mathtt{f'}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (f'.east) {\small{\ensuremath{\mathtt{125}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (f'.west) {\small{\ensuremath{\mathtt{0}}}}; \draw[solid] (f_1) edge (f');
\node[draw=red, SEQ, xshift=-0.000000cm , below of=b_60] (b_3) {\ensuremath{\mathtt{b_{3}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (b_3.east) {\small{\ensuremath{\mathtt{62}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (b_3.west) {\small{\ensuremath{\mathtt{3}}}}; \draw[dotted, red, thick] (b_60) edge (b_3);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=b_3] (b_2) {\ensuremath{\mathtt{b_{2}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (b_2.east) {\small{\ensuremath{\mathtt{63}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (b_2.west) {\small{\ensuremath{\mathtt{2}}}}; \draw[solid] (b_3) edge (b_2);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=b_2] (b_1) {\ensuremath{\mathtt{b_{1}}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (b_1.east) {\small{\ensuremath{\mathtt{64}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (b_1.west) {\small{\ensuremath{\mathtt{1}}}}; \draw[solid] (b_2) edge (b_1);
\node[draw=red, state, xshift=-0.000000cm , below of=b_1] (b') {\ensuremath{\mathtt{b'}}};
\node[draw=none, blue, xshift=2mm, yshift=0mm] at (b'.east) {\small{\ensuremath{\mathtt{65}}}};\node[draw=none, green!60!black, xshift=-2mm, yshift=0mm] at (b'.west) {\small{\ensuremath{\mathtt{0}}}}; \draw[solid] (b_1) edge (b');
\end{tikzpicture}
\end{document}
\documentclass{standalone}
\usepackage[dvipsnames,svgnames,table]{xcolor}
\usepackage{tikz}
\usetikzlibrary{automata, positioning, arrows, shapes, shapes.gates.logic, shapes.gates.logic.US}
\begin{document}
\begin{tikzpicture}[node distance=1.8cm]
\tikzstyle{SEQ}=[diamond]
\tikzstyle{NULL}=[trapezium, trapezium left angle=120, trapezium right angle=120, minimum size=8mm]
\tikzstyle{AND}=[and gate US, logic gate inputs=nn, rotate=90 ]
\tikzstyle{OR}=[or gate US, logic gate inputs=nn, rotate=90 ]
\tikzset{every node/.style={ultra thick, draw=red, minimum size=6mm}}
\node[draw=red, NULL, xshift=0.000000cm ] (TS') {\ensuremath{\mathtt{TS'}}};
\node[draw=red, NULL, xshift=-0.000000cm , below of=TS'] (TF'_2) {\ensuremath{\mathtt{TF'_{2}}}};
\draw[solid] (TS') edge (TF'_2);
\node[draw=red, OR, xshift=-0.000000cm , yshift=4mm, below = 1.4cm of TF'_2.south] (GA') {\rotatebox {-90}{\ensuremath{\mathtt{GA'}}}};
\draw[solid] (TF'_2) edge (GA'.east);
\node[draw=red, SEQ, xshift=-1.250000cm , below of=GA'] (h_3) {\ensuremath{\mathtt{h_{3}}}};
\draw[solid] (GA'.input 1) edge (h_3);
\node[draw=red, SEQ, xshift=1.250000cm , below of=GA'] (e_10) {\ensuremath{\mathtt{e_{10}}}};
\draw[solid] (GA'.input 2) edge (e_10);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=e_10] (e_3) {\ensuremath{\mathtt{e_{3}}}};
\draw[dotted, red, thick] (e_10) edge (e_3);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=e_3] (e_2) {\ensuremath{\mathtt{e_{2}}}};
\draw[solid] (e_3) edge (e_2);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=e_2] (e_1) {\ensuremath{\mathtt{e_{1}}}};
\draw[solid] (e_2) edge (e_1);
\node[draw=red, state, xshift=-0.000000cm , below of=e_1] (e') {\ensuremath{\mathtt{e'}}};
\draw[solid] (e_1) edge (e');
\node[draw=red, NULL, xshift=-0.000000cm , below of=e'] (TF'_1) {\ensuremath{\mathtt{TF'_{1}}}};
\draw[solid] (e') edge (TF'_1);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=TF'_1] (ST_2) {\ensuremath{\mathtt{ST_{2}}}};
\draw[solid] (TF'_1) edge (ST_2);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=ST_2] (ST_1) {\ensuremath{\mathtt{ST_{1}}}};
\draw[solid] (ST_2) edge (ST_1);
\node[draw=red, AND, xshift=-0.000000cm , yshift=4mm, below = 1.4cm of ST_1.south] (ST') {\rotatebox {-90}{\ensuremath{\mathtt{ST'}}}};
\draw[solid] (ST_1) edge (ST'.east);
\node[draw=red, SEQ, xshift=-1.250000cm , below of=ST'] (b_60) {\ensuremath{\mathtt{b_{60}}}};
\draw[solid] (ST'.input 1) edge (b_60);
\node[draw=red, SEQ, xshift=1.250000cm , below of=ST'] (f_120) {\ensuremath{\mathtt{f_{120}}}};
\draw[solid] (ST'.input 2) edge (f_120);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=f_120] (f_3) {\ensuremath{\mathtt{f_{3}}}};
\draw[dotted, red, thick] (f_120) edge (f_3);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=f_3] (f_2) {\ensuremath{\mathtt{f_{2}}}};
\draw[solid] (f_3) edge (f_2);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=f_2] (f_1) {\ensuremath{\mathtt{f_{1}}}};
\draw[solid] (f_2) edge (f_1);
\node[draw=red, state, xshift=-0.000000cm , below of=f_1] (f') {\ensuremath{\mathtt{f'}}};
\draw[solid] (f_1) edge (f');
\node[draw=red, SEQ, xshift=-0.000000cm , below of=b_60] (b_3) {\ensuremath{\mathtt{b_{3}}}};
\draw[dotted, red, thick] (b_60) edge (b_3);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=b_3] (b_2) {\ensuremath{\mathtt{b_{2}}}};
\draw[solid] (b_3) edge (b_2);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=b_2] (b_1) {\ensuremath{\mathtt{b_{1}}}};
\draw[solid] (b_2) edge (b_1);
\node[draw=red, state, xshift=-0.000000cm , below of=b_1] (b') {\ensuremath{\mathtt{b'}}};
\draw[solid] (b_1) edge (b');
\node[draw=red, SEQ, xshift=-0.000000cm , below of=h_3] (h_2) {\ensuremath{\mathtt{h_{2}}}};
\draw[solid] (h_3) edge (h_2);
\node[draw=red, SEQ, xshift=-0.000000cm , below of=h_2] (h_1) {\ensuremath{\mathtt{h_{1}}}};
\draw[solid] (h_2) edge (h_1);
\node[draw=red, state, xshift=-0.000000cm , below of=h_1] (h') {\ensuremath{\mathtt{h'}}};
\draw[solid] (h_1) edge (h');
\draw[solid] (h') edge (TF'_1);
\end{tikzpicture}
\end{document}
\documentclass{standalone}
\usepackage[dvipsnames,svgnames,table]{xcolor}
\usepackage{diagbox}
\begin{document}
\rowcolors{2}{lightgray!30}{white}
\begin{tabular}{c|l|l|}
\diagbox[]{slot}{agent}&1&2\\
\hline
1&{\ensuremath{\mathtt{f',f_{1}}}}&{\ensuremath{\mathtt{b',b_{1}}}}\\
2&{\ensuremath{\mathtt{f_{2}}}}&{\ensuremath{\mathtt{b_{2}}}}\\
3&{\ensuremath{\mathtt{f_{3}}}}&{\ensuremath{\mathtt{b_{3}}}}\\
4&{\ensuremath{\mathtt{f_{4}}}}&{\ensuremath{\mathtt{b_{4}}}}\\
5&{\ensuremath{\mathtt{f_{5}}}}&{\ensuremath{\mathtt{b_{5}}}}\\
6&{\ensuremath{\mathtt{f_{6}}}}&{\ensuremath{\mathtt{b_{6}}}}\\
7&{\ensuremath{\mathtt{f_{7}}}}&{\ensuremath{\mathtt{b_{7}}}}\\
8&{\ensuremath{\mathtt{f_{8}}}}&{\ensuremath{\mathtt{b_{8}}}}\\
9&{\ensuremath{\mathtt{f_{9}}}}&{\ensuremath{\mathtt{b_{9}}}}\\
10&{\ensuremath{\mathtt{f_{10}}}}&{\ensuremath{\mathtt{b_{10}}}}\\
11&{\ensuremath{\mathtt{f_{11}}}}&{\ensuremath{\mathtt{b_{11}}}}\\
12&{\ensuremath{\mathtt{f_{12}}}}&{\ensuremath{\mathtt{b_{12}}}}\\
13&{\ensuremath{\mathtt{f_{13}}}}&{\ensuremath{\mathtt{b_{13}}}}\\
14&{\ensuremath{\mathtt{f_{14}}}}&{\ensuremath{\mathtt{b_{14}}}}\\
15&{\ensuremath{\mathtt{f_{15}}}}&{\ensuremath{\mathtt{b_{15}}}}\\
16&{\ensuremath{\mathtt{f_{16}}}}&{\ensuremath{\mathtt{b_{16}}}}\\
17&{\ensuremath{\mathtt{f_{17}}}}&{\ensuremath{\mathtt{b_{17}}}}\\
18&{\ensuremath{\mathtt{f_{18}}}}&{\ensuremath{\mathtt{b_{18}}}}\\
19&{\ensuremath{\mathtt{f_{19}}}}&{\ensuremath{\mathtt{b_{19}}}}\\
20&{\ensuremath{\mathtt{f_{20}}}}&{\ensuremath{\mathtt{b_{20}}}}\\
21&{\ensuremath{\mathtt{f_{21}}}}&{\ensuremath{\mathtt{b_{21}}}}\\
22&{\ensuremath{\mathtt{f_{22}}}}&{\ensuremath{\mathtt{b_{22}}}}\\
23&{\ensuremath{\mathtt{f_{23}}}}&{\ensuremath{\mathtt{b_{23}}}}\\
24&{\ensuremath{\mathtt{f_{24}}}}&{\ensuremath{\mathtt{b_{24}}}}\\
25&{\ensuremath{\mathtt{f_{25}}}}&{\ensuremath{\mathtt{b_{25}}}}\\
26&{\ensuremath{\mathtt{f_{26}}}}&{\ensuremath{\mathtt{b_{26}}}}\\
27&{\ensuremath{\mathtt{f_{27}}}}&{\ensuremath{\mathtt{b_{27}}}}\\
28&{\ensuremath{\mathtt{f_{28}}}}&{\ensuremath{\mathtt{b_{28}}}}\\
29&{\ensuremath{\mathtt{f_{29}}}}&{\ensuremath{\mathtt{b_{29}}}}\\
30&{\ensuremath{\mathtt{f_{30}}}}&{\ensuremath{\mathtt{b_{30}}}}\\
31&{\ensuremath{\mathtt{f_{31}}}}&{\ensuremath{\mathtt{b_{31}}}}\\
32&{\ensuremath{\mathtt{f_{32}}}}&{\ensuremath{\mathtt{b_{32}}}}\\
33&{\ensuremath{\mathtt{f_{33}}}}&{\ensuremath{\mathtt{b_{33}}}}\\
34&{\ensuremath{\mathtt{f_{34}}}}&{\ensuremath{\mathtt{b_{34}}}}\\
35&{\ensuremath{\mathtt{f_{35}}}}&{\ensuremath{\mathtt{b_{35}}}}\\
36&{\ensuremath{\mathtt{f_{36}}}}&{\ensuremath{\mathtt{b_{36}}}}\\
37&{\ensuremath{\mathtt{f_{37}}}}&{\ensuremath{\mathtt{b_{37}}}}\\
38&{\ensuremath{\mathtt{f_{38}}}}&{\ensuremath{\mathtt{b_{38}}}}\\
39&{\ensuremath{\mathtt{f_{39}}}}&{\ensuremath{\mathtt{b_{39}}}}\\
40&{\ensuremath{\mathtt{f_{40}}}}&{\ensuremath{\mathtt{b_{40}}}}\\
41&{\ensuremath{\mathtt{f_{41}}}}&{\ensuremath{\mathtt{b_{41}}}}\\
42&{\ensuremath{\mathtt{f_{42}}}}&{\ensuremath{\mathtt{b_{42}}}}\\
43&{\ensuremath{\mathtt{f_{43}}}}&{\ensuremath{\mathtt{b_{43}}}}\\
44&{\ensuremath{\mathtt{f_{44}}}}&{\ensuremath{\mathtt{b_{44}}}}\\
45&{\ensuremath{\mathtt{f_{45}}}}&{\ensuremath{\mathtt{b_{45}}}}\\
46&{\ensuremath{\mathtt{f_{46}}}}&{\ensuremath{\mathtt{b_{46}}}}\\
47&{\ensuremath{\mathtt{f_{47}}}}&{\ensuremath{\mathtt{b_{47}}}}\\
48&{\ensuremath{\mathtt{f_{48}}}}&{\ensuremath{\mathtt{b_{48}}}}\\
49&{\ensuremath{\mathtt{f_{49}}}}&{\ensuremath{\mathtt{b_{49}}}}\\
50&{\ensuremath{\mathtt{f_{50}}}}&{\ensuremath{\mathtt{b_{50}}}}\\
51&{\ensuremath{\mathtt{f_{51}}}}&{\ensuremath{\mathtt{b_{51}}}}\\
52&{\ensuremath{\mathtt{f_{52}}}}&{\ensuremath{\mathtt{b_{52}}}}\\
53&{\ensuremath{\mathtt{f_{53}}}}&{\ensuremath{\mathtt{b_{53}}}}\\
54&{\ensuremath{\mathtt{f_{54}}}}&{\ensuremath{\mathtt{b_{54}}}}\\
55&{\ensuremath{\mathtt{f_{55}}}}&{\ensuremath{\mathtt{b_{55}}}}\\
56&{\ensuremath{\mathtt{f_{56}}}}&{\ensuremath{\mathtt{b_{56}}}}\\
57&{\ensuremath{\mathtt{f_{57}}}}&{\ensuremath{\mathtt{b_{57}}}}\\
58&{\ensuremath{\mathtt{f_{58}}}}&{\ensuremath{\mathtt{b_{58}}}}\\
59&{\ensuremath{\mathtt{f_{59}}}}&{\ensuremath{\mathtt{b_{59}}}}\\
60&{\ensuremath{\mathtt{f_{60}}}}&{\ensuremath{\mathtt{b_{60}}}}\\
61&{\ensuremath{\mathtt{f_{61}}}}&{\ensuremath{\mathtt{}}}\\
62&{\ensuremath{\mathtt{f_{62}}}}&{\ensuremath{\mathtt{}}}\\
63&{\ensuremath{\mathtt{f_{63}}}}&{\ensuremath{\mathtt{}}}\\
64&{\ensuremath{\mathtt{f_{64}}}}&{\ensuremath{\mathtt{}}}\\
65&{\ensuremath{\mathtt{f_{65}}}}&{\ensuremath{\mathtt{}}}\\
66&{\ensuremath{\mathtt{f_{66}}}}&{\ensuremath{\mathtt{}}}\\
67&{\ensuremath{\mathtt{f_{67}}}}&{\ensuremath{\mathtt{}}}\\
68&{\ensuremath{\mathtt{f_{68}}}}&{\ensuremath{\mathtt{}}}\\
69&{\ensuremath{\mathtt{f_{69}}}}&{\ensuremath{\mathtt{}}}\\
70&{\ensuremath{\mathtt{f_{70}}}}&{\ensuremath{\mathtt{}}}\\
71&{\ensuremath{\mathtt{f_{71}}}}&{\ensuremath{\mathtt{}}}\\
72&{\ensuremath{\mathtt{f_{72}}}}&{\ensuremath{\mathtt{}}}\\
73&{\ensuremath{\mathtt{f_{73}}}}&{\ensuremath{\mathtt{}}}\\
74&{\ensuremath{\mathtt{f_{74}}}}&{\ensuremath{\mathtt{}}}\\
75&{\ensuremath{\mathtt{f_{75}}}}&{\ensuremath{\mathtt{}}}\\
76&{\ensuremath{\mathtt{f_{76}}}}&{\ensuremath{\mathtt{}}}\\
77&{\ensuremath{\mathtt{f_{77}}}}&{\ensuremath{\mathtt{}}}\\
78&{\ensuremath{\mathtt{f_{78}}}}&{\ensuremath{\mathtt{}}}\\
79&{\ensuremath{\mathtt{f_{79}}}}&{\ensuremath{\mathtt{}}}\\
80&{\ensuremath{\mathtt{f_{80}}}}&{\ensuremath{\mathtt{}}}\\
81&{\ensuremath{\mathtt{f_{81}}}}&{\ensuremath{\mathtt{}}}\\
82&{\ensuremath{\mathtt{f_{82}}}}&{\ensuremath{\mathtt{}}}\\
83&{\ensuremath{\mathtt{f_{83}}}}&{\ensuremath{\mathtt{}}}\\
84&{\ensuremath{\mathtt{f_{84}}}}&{\ensuremath{\mathtt{}}}\\
85&{\ensuremath{\mathtt{f_{85}}}}&{\ensuremath{\mathtt{}}}\\
86&{\ensuremath{\mathtt{f_{86}}}}&{\ensuremath{\mathtt{}}}\\
87&{\ensuremath{\mathtt{f_{87}}}}&{\ensuremath{\mathtt{}}}\\
88&{\ensuremath{\mathtt{f_{88}}}}&{\ensuremath{\mathtt{}}}\\
89&{\ensuremath{\mathtt{f_{89}}}}&{\ensuremath{\mathtt{}}}\\
90&{\ensuremath{\mathtt{f_{90}}}}&{\ensuremath{\mathtt{}}}\\
91&{\ensuremath{\mathtt{f_{91}}}}&{\ensuremath{\mathtt{}}}\\
92&{\ensuremath{\mathtt{f_{92}}}}&{\ensuremath{\mathtt{}}}\\
93&{\ensuremath{\mathtt{f_{93}}}}&{\ensuremath{\mathtt{}}}\\
94&{\ensuremath{\mathtt{f_{94}}}}&{\ensuremath{\mathtt{}}}\\
95&{\ensuremath{\mathtt{f_{95}}}}&{\ensuremath{\mathtt{}}}\\
96&{\ensuremath{\mathtt{f_{96}}}}&{\ensuremath{\mathtt{}}}\\
97&{\ensuremath{\mathtt{f_{97}}}}&{\ensuremath{\mathtt{}}}\\
98&{\ensuremath{\mathtt{f_{98}}}}&{\ensuremath{\mathtt{}}}\\
99&{\ensuremath{\mathtt{f_{99}}}}&{\ensuremath{\mathtt{}}}\\
100&{\ensuremath{\mathtt{f_{100}}}}&{\ensuremath{\mathtt{}}}\\
101&{\ensuremath{\mathtt{f_{101}}}}&{\ensuremath{\mathtt{}}}\\
102&{\ensuremath{\mathtt{f_{102}}}}&{\ensuremath{\mathtt{}}}\\
103&{\ensuremath{\mathtt{f_{103}}}}&{\ensuremath{\mathtt{}}}\\
104&{\ensuremath{\mathtt{f_{104}}}}&{\ensuremath{\mathtt{}}}\\
105&{\ensuremath{\mathtt{f_{105}}}}&{\ensuremath{\mathtt{}}}\\
106&{\ensuremath{\mathtt{f_{106}}}}&{\ensuremath{\mathtt{}}}\\
107&{\ensuremath{\mathtt{f_{107}}}}&{\ensuremath{\mathtt{}}}\\
108&{\ensuremath{\mathtt{f_{108}}}}&{\ensuremath{\mathtt{}}}\\
109&{\ensuremath{\mathtt{f_{109}}}}&{\ensuremath{\mathtt{}}}\\
110&{\ensuremath{\mathtt{f_{110}}}}&{\ensuremath{\mathtt{}}}\\
111&{\ensuremath{\mathtt{f_{111}}}}&{\ensuremath{\mathtt{}}}\\
112&{\ensuremath{\mathtt{f_{112}}}}&{\ensuremath{\mathtt{}}}\\
113&{\ensuremath{\mathtt{f_{113}}}}&{\ensuremath{\mathtt{}}}\\
114&{\ensuremath{\mathtt{f_{114}}}}&{\ensuremath{\mathtt{}}}\\
115&{\ensuremath{\mathtt{f_{115}}}}&{\ensuremath{\mathtt{}}}\\
116&{\ensuremath{\mathtt{f_{116}}}}&{\ensuremath{\mathtt{}}}\\
117&{\ensuremath{\mathtt{f_{117}}}}&{\ensuremath{\mathtt{}}}\\
118&{\ensuremath{\mathtt{f_{118}}}}&{\ensuremath{\mathtt{}}}\\
119&{\ensuremath{\mathtt{f_{119}}}}&{\ensuremath{\mathtt{}}}\\
120&{\ensuremath{\mathtt{f_{120}}}}&{\ensuremath{\mathtt{}}}\\
121&{\ensuremath{\mathtt{ST',ST_{1}}}}&{\ensuremath{\mathtt{}}}\\
122&{\ensuremath{\mathtt{ST_{2,TF'_1}}}}&{\ensuremath{\mathtt{}}}\\
123&{\ensuremath{\mathtt{h',h_{1}}}}&{\ensuremath{\mathtt{}}}\\
124&{\ensuremath{\mathtt{h_{2}}}}&{\ensuremath{\mathtt{}}}\\
125&{\ensuremath{\mathtt{GA',TF'_{2,TS',h_3}}}}&{\ensuremath{\mathtt{}}}\\
\hline
\end{tabular}
\end{document}
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