Tangled Cord of FTTM4

Shukor, Noorsufia Abd; Ahmad, Tahir; Abdullahi, Mujahid; Idris, Amidora; Awang, Siti Rahmah

doi:10.3390/math11122613

Open AccessArticle

Tangled Cord of FTTM₄

by

Noorsufia Abd Shukor

¹,

Tahir Ahmad

^2,*,

Mujahid Abdullahi

^1,3,*

,

Amidora Idris

¹ and

Siti Rahmah Awang

⁴

¹

Department of Mathematical Sciences, Faculty of Science, Universiti Teknologi Malaysia, Skudai 81300, Johor, Malaysia

²

Malaysian Mathematical Sciences Society, Universiti Kebangsaan Malaysia, Bangi 43600, Selangor, Malaysia

³

Department of Mathematics and Computer Science, Faculty of Natural and Applied Sciences, Sule Lamido University, Kafin Hausa 048, Jigawa, Nigeria

⁴

Department of Management and Technology, Faculty of Management, Universiti Teknologi Malaysia, Skudai 81310, Johor, Malaysia

^*

Authors to whom correspondence should be addressed.

Mathematics 2023, 11(12), 2613; https://doi.org/10.3390/math11122613

Submission received: 27 March 2023 / Revised: 17 May 2023 / Accepted: 29 May 2023 / Published: 7 June 2023

(This article belongs to the Special Issue Research and Applications of Discrete Mathematics)

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Abstract

:

Fuzzy Topological Topographic Mapping (FTTM) is a mathematical model that consists of a set of homeomorphic topological spaces designed to solve the neuro magnetic inverse problem. A sequence of FTTM, denoted as

F T T M_{n}

, is an extension of FTTM that is arranged in a symmetrical form. The special characteristic of FTTM, namely the homeomorphisms between its components, allows the generation of new FTTM. Later, the

F T T M_{n}

can also be viewed as a graph. Previously, a group of researchers defined an assembly graph and utilized it to model a DNA recombination process. Some researchers then used this to introduce the concept of tangled cords for assembly graphs. In this paper, the tangled cord for

F T T M_{4}

is used to calculate the Eulerian paths. Furthermore, it is utilized to determine the least upper bound of the Hamiltonian paths of its assembly graph. Hence, this study verifies the conjecture made by Burns et al.

Keywords:

fuzzy topographic topological mapping; assembly graph; Hamiltonian path; tangled cord

MSC:

05C45; 05C72; 05C38

1. Introduction and Motivation

Fuzzy Topographic Topological Mapping (FTTM) was introduced to solve the neuro magnetic inverse problem, in particular, sources of electroencephalography (EEG) signals recorded from an epileptic patient [1]. Originally, the model was a 4-tuple of topological spaces of its respective homeomorphic mappings [1]. Unlike the works of Abbas et al. [2] and Shukala et al. [3] on graphical metric spaces, our mappings are purely ordinary topological mappings. The topological spaces are Magnetic Plane (MC), Base Magnetic Plane (BM), Fuzzy Magnetic Field (FM), and Topographic Magnetic Field (TM). The FTTM is defined formally as follows (see Figure 1).

Definition 1

([1]). Let

F T T M = (M C, B M, F M, T M)

such that

M C, B M, F M, T M

are topological spaces that are homeomorphics, namely,

M C ≅ B M ≅ F M ≅ T M

. The set of

{F T T M}_{i}

is denoted by

F T T M = \{{F T T M}_{i} : i = 1, 2, 3, \dots, n\}

. The sequence of

{n F T T M}_{i}

of FTTM is

{F T T M}_{1}, {F T T M}_{2}, {F T T M}_{3},

{F T T M}_{4}, \dots, {F T T M}_{n}

, such that

{M C}_{i} ≅ {M C}_{i + 1}, {B M}_{i} ≅ {B M}_{i + 1}

,

{F M}_{i} ≅ {F M}_{i + 1}

and

{T M}_{i} ≅ {T M}_{i + 1}

.

Basically

F T T M_{n}

(see Figure 2) is an extension of FTTM and is illustrated in the following Figure 2. It is arranged in a symmetrical form and can accommodate magnetoencephalography (MEG) or electroencephalography (EEG) signals, as well as grey scale image data [1,5]. This accommodative feature of FTTM is due to its homeomorphic structures.

In 2009, a notion of an assembly graph was first introduced by Angeleska, Jonoska, and Saito [6]. Meanwhile, Burns et al. [7] conducted a study on polynomial invariant for the assembly graph and its properties. The authors also suggested the possibility that only a tangled cord can achieve the upper bound in the assembly graph for every positive integer [7]. Later, an assembly graph of

F T T M_{n}

was developed by Shukor et al. [4]. The authors established the relations and determined the lower and upper bounds for the assembly graph of

F T T M_{n}

[1].

The aim of this paper is to establish an assembly graph as a tangled cord as well as to discover the least upper bound of the assembly graph

F T T M_{4}

. In Section 2, a brief review of the concept of the assembly graph and the tangled cord is presented, while Section 3 covers the previous related works on the assembly graph of

F T T M_{n}

. Next, a transverse eulerian paths for the assembly graph of

F T T M_{4}

is shown in Section 4. The results are discussed in Section 5, where the tangled cord of

F T T M_{4}

is presented, in which the whole processes involves enumerating all the Hamiltonian polygonal paths and non-consecutive vertices Hamiltonian polygonal paths. Consequently, the proposed conjecture by Burns et al. [7] is proven. The conclusion is drawn in Section 6.

2. Concepts of Assembly Graph and Tangled Cord

As mention in Section 1, the assembly graph was created by researchers in [6], and then Burns et al. broadened the structure of the assembly graph as the tangled cord [7]. Some formal definitions and theorems related to the assembly graph and its properties are as follows.

Definition 2

([6]). An assembly graph is a finite connected graph where all vertices are rigid vertices of valency 1 or 4. A vertex of valency 1 is called an end point. Let

Γ = (V, E)

be a finite graph with a set of vertices, V, and a set of edges, E. The number of 4-valent vertices in Γ is denoted with

| Γ |

. The assembly graph is called trivial if

| Γ | = 0

(see Figure 3).

Definition 3

([6]). A transverse path in Γ is a sequence

γ = (v_{0}, e_{1}, v_{1}, e_{2}, \dots, e_{n}, v_{n})

if

v_{0}, v_{n}

are endpoints, or

(v_{0}, e_{1}, v_{1}, e_{2}, \dots, e_{n}),

if

v_{0}

is a 4-valent vertex and

e_{n} \in E (v_{0}), s a t i s f y i n g

the following conditions: (1)

v_{0}, \dots, v_{n}

is a sequence of a subset of vertices Γ, with possible repetition of the same vertex at most twice, (2)

\{e_{1}, \dots, e_{n}\}

is a set of distinct edges, and (3) each

e_{i}

is not a neighbor of

e_{i - 1}

with respect to the rigid vertex

v_{i - 1}, i = 2, \dots, n

and in the case where

v_{0}

is a 4-valent vertex,

e_{1}

is not a neighbor of

e_{n}

with respect to the rigid vertex

v_{0}

.

Definition 4

([6]). An assembly graph Γ is called simple if there is a transverse Eulerian path in γ, meaning there is a transverse path, γ, that contains every edge from Γ exactly once.

Theorem 1

([6]). In a simple assembly graph, there is a unique equivalence class of transverse Eulerian paths.

Theorem 2

([7]). If Γ is a simple assembly graph with

| Γ | = k

and C is the collection of all Hamiltonian polygonal paths of Γ, then

| C | \leq F_{2 k + 1} - 1

(1)

where

F_{k}

is the kth Fibonacci number.

Angeleska et al. also develop a convention of using words to represent simple assembly graphs [6]. A word is an element in the free monoid,

Σ^{*}

, and an alphabet is a finite set,

Σ

. Let

Γ

be a simple directed assembly graph with the initial vertex i and the terminal vertex t as its two end points. Subsequently, Burns et al. referred to the double-occurrence word as an assembly word in which every symbol appears exactly twice [7]. The definition of assembly word is given in [8] as follows.

Definition 5

([8]). An assembly word or a double occurrence word is a word in a certain alphabet,

S = {a_{1}, a_{2}, \dots}

, such that every symbol,

a_{i}

, either occurs in the word exactly twice or does not occur at all.

Moreover, Burns et al. [7] introduced the concept of a tangled cord, and the structure of the tangled cord (see Figure 4) is from the assembly word pattern [9]. Recall that the assembly word is a word in which every symbol appears exactly twice, and these words are also referred to as double occurrence words. Then, the researchers developed some properties of tangled cord as follows.

Definition 6

([7]). The tangled cord,

T_{n}

, of size n, for a positive integer, n, is an assembly graph with assembly word:

1213243 \dots (n - 1) (n - 2) n (n - 1) n

(2)

Specifically,

T_{1} = 11, T_{2} = 1212, T_{3} = 121323

, and

T_{n}

is obtained from

T_{n - 1}

by replacing the last letter,

n (n - 1)

, by the subword

n (n - 1) n

.

Theorem 3

([7]). The tangled cord,

T_{n}

, has

(\frac{n + 1}{2})

distinct Hamiltonian polygonal paths.

Due to Theorem 2, Definition 6, and Theorem 3, Burns et al. [7] then proposed their conjecture as follows;

Conjecture 1

([7]). The upper bound in Theorem 2 is achieved for every positive integer, n, only by the tangled cord

T_{n}

.

3. Assembly Graph of ${FTTM}_{4}$

A graph of

F T T M_{n}

contains many subgraphs, including assembly graphs. A new concept called maximal assembly graph for assembly subgraphs of

F T T M_{n}

is introduced.

Definition 7

([1]). Let

G_{1}, G_{2}, G_{3}, \dots, G_{n}

be subgraphs of

G (V, E)

whereby each

G_{i}

is an assembly graph. A maximal assembly subgraph of

G_{i}

is defined as

|Γ_{G_{i}}| = m a x \{|Γ_{G_{1}}|, |Γ_{G_{2}}|, \dots, |Γ_{G_{n}}|\}

.

Now, the assembly graph for

F T T M_{n}

is given as follows.

Definition 8

([1]). The maximal assembly graph of

F T T M_{n}

is

Γ_{F T T M_{n}} = F T T M_{n} - [E (F T T M_{1}) \cup E (F T T M_{n})] f o r n \geq 3

(3)

and

|Γ_{F T T M_{n}}|

is the number of its 4-valent vertices.

Theorem 4

([1]). The

{F T T M}_{4}

consists of an assembly subgraph.

Consider

{F T T M}_{4} = (V ({F T T M}_{4}), E ({F T T M}_{4}), ψ_{{F T T M}_{4}})

such that

ψ_{{F T T M}_{4}} : E \to V \times V

.

The eight vertices of

{FTTM}_{4}

(see Figure 5) that have a valency of four are

M_{2}, B_{2}, F_{2}, T_{2}, M_{3},

B_{3}, F_{3}, a n d T_{3}

such that

\begin{matrix} v a l e n c y (M_{2}) = |\{e_{5}, e_{8}, e_{9}, e_{17}\}| = v a l e n c y (B_{2}) = |\{e_{5}, e_{6}, e_{10}, e_{18}\}| = \\ v a l e n c y (F_{2}) = |\{e_{6}, e_{7}, e_{11}, e_{19}\}| = v a l e n c y (T_{2}) = |\{e_{7}, e_{8}, e_{12}, e_{20}\}| = \\ v a l e n c y (M_{3}) = |\{e_{13}, e_{16}, e_{17}, e_{25}\}| = v a l e n c y (B_{3}) = |\{e_{13}, e_{14}, e_{18}, e_{26}\}| = \\ \begin{matrix} v a l e n c y (F_{3}) = |\{e_{14}, e_{15}, e_{19}, e_{27}\}| = v a l e n c y (T_{3}) = |\{e_{15}, e_{16}, e_{20}, e_{28}\}| = 4 \end{matrix} \end{matrix}

(4)

and

M_{1}, B_{1}, F_{1}, T_{1}, M_{4}, B_{4}, F_{4}, a n d T_{4}

have a valency of one such that

\begin{matrix} \begin{matrix} v a l e n c y (M_{1}) = |\{e_{9}\}| = v a l e n c y (B_{1}) = |\{e_{12}\}| = v a l e n c y (F_{1}) = |\{e_{11}\}| \\ = v a l e n c y (T_{1}) = |\{e_{10}\}| = v a l e n c y (T_{1}) = |\{e_{10}\}| = v a l e n c y (M_{4}) = |\{e_{25}\}| \\ = v a l e n c y (B_{4}) = |\{e_{26}\}| = v a l e n c y (F_{4}) = |\{e_{27}\}| = v a l e n c y (T_{4}) = |\{e_{28}\}| \end{matrix} \\ = 1 . \end{matrix}

(5)

∴ {F T T M}_{4}

consists of an assembly subgraph with

|Γ_{{F T T M}_{4}}| = 8

.

Furthermore, Shukor et al. [1] guaranteed that

F T T M_{4}

has a set of Hamiltonian paths.

Theorem 5

([1]). The

Γ_{{F T T M}_{4}}

consists of a set of Hamiltonian polygonal paths.

Earlier, Burns et al. [7] proved Theorem 2. Later, Shukor et al. proved the version of Theorem 2 for

F T T M_{n}

successfully as follows [1].

Theorem 6

([1]). Let

F T T M_{n}

be a sequence of n-FTTM for

n \geq 3

and C is the set of all Hamiltonian polygonal paths of

F T T M_{n}

, then

| C | \leq F_{8 n + 1} - 1 .

(6)

4. Transverse Eulerian Paths for Assembly Graph of ${FTTM}_{4}$

Angeleska et al. developed a convention of using words to represent simple assembly graphs, including transverse paths [6]. The theorems for transverse paths for the assembly graph of

F T T M_{n}

are necessary as follows.

Theorem 7.

The maximal assembly graph of

{F T T M}_{n}

,

Γ_{{F T T M}_{n}}

, is a simple graph.

Proof.

Let

Γ_{{F T T M}_{n}}

be the maximal assembly graph. Therefore,

Γ_{{F T T M}_{n}} = {F T T M}_{n} - [E ({F T T M}_{1}) \cup E ({F T T M}_{n})] f o r n \geq 3

by Definition 8. It is a simple graph because it does not have any loops or parallel edges. □

Theorem 8.

The maximal assembly graph of

{F T T M}_{n}

,

Γ_{{F T T M}_{n}}

, must contains a transverse path.

Proof.

Let

Γ_{{F T T M}_{n}}

be the maximal assembly graph. Therefore,

Γ_{{F T T M}_{n}} = {F T T M}_{n} - [E ({F T T M}_{1}) \cup E ({F T T M}_{n})] f o r n \geq 3

by Definition 8. Thus, ∃ 4 open vertices in the front

(M_{1}, B_{1}, F_{1}, T_{1})

and at the back

(M_{n}, B_{n}, F_{n}, T_{n})

in which all of them are end points whereby each of them has valency of 1 (see Figure 6).

By Definition 3, ∃ the path in

Γ_{{F T T M}_{n}}

that is a transverse path because it must be in the form of

(v_{1}, e_{1}, \dots, e_{n - 1}, v_{n})

, such that

v_{1} \in V ({F T T M}_{2})

,

v_{n} \in V ({F T T M}_{n - 1})

, and

e_{i} \in \{{F T T M}_{n} - [E ({F T T M}_{1}) \cup E ({F T T M}_{n})]\}

for

i \in 1, 2, \dots, n - 1 .

□

Theorem 9.

The maximal assembly graph of

{F T T M}_{n}

,

Γ_{{F T T M}_{n}}

, contains unique equivalence tranverse Eulerian paths.

Proof.

Theorem 7 guarantees the maximal assembly graph of

{F T T M}_{n}

,

Γ_{{F T T M}_{n}}

, which is a simple graph. Theorem 6 assures that, in a simple assembly graph, there is a unique equivalence class of transverse Eulerian paths. Therefore, the maximal assembly graph of

{F T T M}_{n}

,

Γ_{{F T T M}_{n}}

, contains unique equivalence tranverse Eulerian paths. □

Example 1.

Eulerian paths with consecutive vertices for

Γ_{{F T T M}_{4}}

(see Figure 7).

E_{1} = (M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3});

S_{E_{1}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{1}^{R} = (M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2});

S_{E_{1}^{R}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{2} = (B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3});

S_{E_{2}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{2}^{R} = (B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2});

\begin{matrix} S_{E_{2}^{R}} \end{matrix} = 1, 2, 3, 4, 1, 1, 2, 3, 4, 1

E_{3} = (F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{6} {, F_{2}, e}_{11}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3});

S_{E_{3}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{3}^{R} = (F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{15} {, F_{3}, e}_{11}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2});

S_{E_{3}^{R}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{4} = (T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2} {, e}_{12}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3});

S_{E_{4}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{4}^{R} = (T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3} {, e}_{12}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2});

S_{E_{4}^{R}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{5} = (M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3^{^{'}}} e_{13}, M_{3});

S_{E_{5}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{5}^{R} = (M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2^{^{'}}} e_{8}, M_{2});

S_{E_{5}^{R}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{6} = (T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3^{^{'}}} e_{13}, M_{3}, e_{16}, T_{3});

S_{E_{6}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{6}^{R} = (T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2^{^{'}}} e_{6}, F_{2}, e_{7}, T_{2});

S_{E_{6}^{R}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{7} = (F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{7} {, F_{2} e}_{11}, F_{3}, e_{14}, B_{3^{^{'}}} e_{13}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3});

S_{E_{7}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{7}^{R} = (F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{14} {, F_{3}, e}_{11}, F_{2}, e_{7}, {T_{2}}_{^{'}} e_{8}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2});

S_{E_{7}^{R}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{8} = (B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{7} {, F_{2}, e}_{6}, B_{2}, e_{10}, B_{3^{^{'}}} e_{13}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3});

S_{E_{8}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

S_{E_{8}^{R}} = (1, 2, 3, 4, 1, 1, 2, 3, 4, 1)

E_{1} . . . E_{8}

represent the edges and

S_{E_{1}} . . . S_{E_{8}}

represent the corresponding assembly words.

Clearly,

(1, 2, 3, 4, 1, 1, 2, 3, 4, 1) = S_{E_{1}} ≅ S_{E_{1}^{R}} ≅ S_{E_{2}} ≅ S_{E_{2}^{R}} ≅ S_{E_{3}} ≅ S_{E_{3}^{R}} ≅ S_{E_{4}} ≅ S_{E_{4}^{R}} ≅ S_{E_{5}} ≅ S_{E_{5}^{R}} ≅ S_{E_{6}} ≅ S_{E_{6}^{R}} ≅ S_{E_{7}} ≅ S_{E_{7}^{R}} ≅ S_{E_{8}} ≅ S_{E_{8}^{R}}

.

5. Tangled Cord of ${FTTM}_{4}$

The upper bound is achieved in Conjecture 1 of Burns et al. [7] and refers to the sharp upper bound (least upper bound) (https://math.stackexchange.com/questions/1985794/what-does-it-mean-when-a-bound-is-sharp, (accessed on 22 October 2022)). In other words, the term sharp upper bound means when the greatest lower bound is equal to the least upper bound.

We are now ready to introduce the sharp upper bound (least upper bound) for

{F T T M}_{4}

, i.e., the version of proven Conjecture 1 for

F T T M_{4} .

Theorem 10.

When

Γ_{{F T T M}_{4}}

is the assembly graph of

F T T M_{4}

and C is the set of all its distinct Hamiltonian polygonal paths, then

| C | = T_{4}

, whereby

T_{4}

is its tangled cord.

Proof.

(by construction) Let

Γ_{{F T T M}_{4}}

be the assembly graph of

F T T M_{4}

and

|Γ_{{F T T M}_{4}}| = 8

(see Section 2). The

Γ_{{F T T M}_{4}}

is a simple graph guaranteed by Theorem 7. Therefore,

Γ_{{F T T M}_{4}}

is a simple assembly graph. Angeleska et al. developed a convention of using words to represent simple assembly graphs [1]. Thus,

Γ_{{F T T M}_{4}}

can be presented using words because it is a simple assembly graph.

The

Γ_{{F T T M}_{4}}

consists of a set of Hamiltonian polygonal paths represented by

γ_{1} . . . γ_{144}

that are in [10]. These are now listed as assembly words represented by

S_{1} . . . S_{144}

and presented as follows.

\begin{matrix} γ_{1} = \{\begin{matrix} M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3} \end{matrix}\}; S_{1} = (12344123) \end{matrix}

\begin{matrix} γ_{2} = \{\begin{matrix} M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3} \end{matrix}\}; S_{2} = (12344321) \end{matrix}

\begin{matrix} γ_{3} = \{\begin{matrix} M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2} \end{matrix}\}; S_{3} = (12332144) \end{matrix}

\begin{matrix} γ_{4} = \{\begin{matrix} M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3} \end{matrix}\}; S_{4} = (12213344) \end{matrix}

\begin{matrix} γ_{5} = \{\begin{matrix} M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2} \end{matrix}\}; S_{5} = (12213443) \end{matrix}

\begin{matrix} γ_{6} = \{\begin{matrix} M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3} \end{matrix}\}; S_{6} = (12233441) \end{matrix}

\begin{matrix} γ_{7} = \{\begin{matrix} M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2} \end{matrix}\}; S_{7} = (12213443) \end{matrix}

\begin{matrix} γ_{8} = \{\begin{matrix} M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3} \end{matrix}\}; S_{8} = (12213344) \end{matrix}

\begin{matrix} γ_{9} = \{\begin{matrix} M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3} \end{matrix}\}; S_{9} = (12233441) \end{matrix}

\begin{matrix} γ_{10} = \{\begin{matrix} M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2} \end{matrix}\}; S_{10} = (12332144) \end{matrix}

\begin{matrix} γ_{11} = \{\begin{matrix} M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3} \end{matrix}\}; S_{11} = (12344123) \end{matrix}

\begin{matrix} γ_{12} = \{\begin{matrix} M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3} \end{matrix}\}; S_{12} = (12344321) \end{matrix}

\begin{matrix} γ_{13} = \{\begin{matrix} M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2} \end{matrix}\}; S_{13} = (11234432) \end{matrix}

\begin{matrix} γ_{14} = \{\begin{matrix} M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{18}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3} \end{matrix}\}; S_{14} = (11223443) \end{matrix}

\begin{matrix} γ_{15} = \{\begin{matrix} M_{2}, e_{9}, M_{3}, e_{13}, B_{3} e_{10}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2} \end{matrix}\}; S_{15} = (11223344) \end{matrix}

\begin{matrix} γ_{16} = \{\begin{matrix} M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{110}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2} \end{matrix}\}; S_{16} = (11234432) \end{matrix}

\begin{matrix} γ_{17} = \{\begin{matrix} M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3} \end{matrix}\}; S_{17} = (11223443) \end{matrix}

\begin{matrix} γ_{18} = \{\begin{matrix} M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2} \end{matrix}\}; S_{18} = (11223344) \end{matrix}

\begin{matrix} γ_{19} = \{\begin{matrix} B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3} \end{matrix}\}; S_{19} = (12344123) \end{matrix}

\begin{matrix} γ_{20} = \{\begin{matrix} B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3} \end{matrix}\}; S_{20} = (12344321) \end{matrix}

\begin{matrix} γ_{21} = \{\begin{matrix} B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2} \end{matrix}\}; S_{21} = (12332144) \end{matrix}

γ_{22} = \{\begin{matrix} B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2} \end{matrix}\}; S_{22} = (12213443)

γ_{23} = \{\begin{matrix} B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3} \end{matrix}\}; S_{23} = (12213344)

γ_{24} = \{\begin{matrix} B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3} \end{matrix}\}; S_{24} = (12233441)

γ_{25} = \{\begin{matrix} B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3} \end{matrix}\}; S_{25} = (12344123)

γ_{26} = \{\begin{matrix} B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3} \end{matrix}\}; S_{26} = (12344321)

γ_{27} = \{\begin{matrix} B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2} \end{matrix}\}; S_{27} = (12332144)

γ_{28} = \{\begin{matrix} B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3} \end{matrix}\}; S_{28} = (12233441)

γ_{29} = \{\begin{matrix} B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3} \end{matrix}\}; S_{29} = (12213344)

γ_{30} = \{\begin{matrix} B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2} \end{matrix}\}; S_{30} = (12213443)

γ_{31} = \{\begin{matrix} B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2} \end{matrix}\}; S_{31} = (11223344)

γ_{32} = \{\begin{matrix} B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3} \end{matrix}\}; S_{32} = (11223443)

γ_{33} = \{\begin{matrix} B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2} \end{matrix}\}; S_{33} = (11234432)

γ_{34} = \{\begin{matrix} B_{2}, e_{10}, B_{3}, e_{13}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3} \end{matrix}\}; S_{34} = (11223443)

γ_{35} = \{\begin{matrix} B_{2}, e_{10}, B_{3}, e_{13}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2} \end{matrix}\}; S_{35} = (11223344)

γ_{36} = \{\begin{matrix} B_{2}, e_{10}, B_{3}, e_{13}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2} \end{matrix}\}; S_{36} = (11234432)

γ_{37} = \{\begin{matrix} F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2} \end{matrix}\}; S_{37} = (12332144)

γ_{38} = \{\begin{matrix} F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3} \end{matrix}\}; S_{38} = (12344321)

γ_{39} = \{\begin{matrix} F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3} \end{matrix}\}; S_{39} = (12344123)

γ_{40} = \{\begin{matrix} F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2} \end{matrix}\}; S_{40} = (12213443)

γ_{41} = \{\begin{matrix} F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3} \end{matrix}\}; S_{41} = (12213344)

γ_{42} = \{\begin{matrix} F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3} \end{matrix}\}; S_{42} = (12233441)

γ_{43} = \{\begin{matrix} F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3} \end{matrix}\}; S_{43} = (12344321)

γ_{44} = \{\begin{matrix} F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3} \end{matrix}\}; S_{44} = (12344123)

γ_{45} = \{\begin{matrix} F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2} \end{matrix}\}; S_{45} = (12332144)

γ_{46} = \{\begin{matrix} F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3} \end{matrix}\}; S_{46} = (12233441)

γ_{47} = \{\begin{matrix} F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2} \end{matrix}\}; S_{47} = (12213443)

γ_{48} = \{\begin{matrix} F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3} \end{matrix}\}; S_{48} = (12213344)

γ_{49} = \{\begin{matrix} F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2} \end{matrix}\}; S_{49} = (11234432)

γ_{50} = \{\begin{matrix} F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2} \end{matrix}\}; S_{50} = (11223344)

γ_{51} = \{\begin{matrix} F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3} \end{matrix}\}; S_{51} = (11223443)

γ_{52} = \{\begin{matrix} F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2} \end{matrix}\}; S_{52} = (11234432)

γ_{53} = \{\begin{matrix} F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2} \end{matrix}\}; S_{53} = (11223344)

γ_{54} = \{\begin{matrix} F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3} \end{matrix}\}; S_{54} = (11223443)

γ_{55} = \{\begin{matrix} T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3} \end{matrix}\}; S_{55} = (12233441)

γ_{56} = \{\begin{matrix} T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2} \end{matrix}\}; S_{56} = (12213443)

γ_{57} = \{\begin{matrix} T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3} \end{matrix}\}; S_{57} = (12213344)

γ_{58} = \{\begin{matrix} T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2} \end{matrix}\}; S_{58} = (12332144)

γ_{59} = \{\begin{matrix} T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{15}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3} \end{matrix}\}; S_{59} = (12344321)

γ_{60} = \{\begin{matrix} T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3} \end{matrix}\}; S_{60} = (12344123)

γ_{61} = \{\begin{matrix} T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3} \end{matrix}\}; S_{61} = (12344321)

\begin{matrix} γ_{62} = \{\begin{matrix} T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3} \end{matrix}\} \end{matrix}; S_{62} = (12344123)

γ_{63} = \{\begin{matrix} T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2} \end{matrix}\}; S_{63} = (12332144)

γ_{64} = \{T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}\}; S_{64} = (12233441)

γ_{65} = \{\begin{matrix} T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2} \end{matrix}\}; S_{65} = (12213443)

γ_{66} = \{\begin{matrix} T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3} \end{matrix}\}; S_{66} = (12213344)

γ_{67} = \{\begin{matrix} T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3} \end{matrix}\}; S_{67} = (11223443)

γ_{68} = \{\begin{matrix} T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2} \end{matrix}\}; S_{68} = (11223344)

γ_{69} = \{\begin{matrix} T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2} \end{matrix}\}; S_{69} = (11234432)

γ_{70} = \{\begin{matrix} T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3} \end{matrix}\}; S_{70} = (11223443)

γ_{71} = \{\begin{matrix} T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2} \end{matrix}\}; S_{71} = (11223344)

γ_{72} = \{\begin{matrix} T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2} \end{matrix}\}; S_{72} = (11234432)

γ_{73} = \{\begin{matrix} M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3} \end{matrix}\}; S_{73} = (11234432)

γ_{74} = \{\begin{matrix} M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2} \end{matrix}\}; S_{74} = (11223443)

γ_{75} = \{\begin{matrix} M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3} \end{matrix}\}; S_{75} = (11223344)

γ_{76} = \{\begin{matrix} M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{18}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3} \end{matrix}\}; S_{76} = (11234432)

γ_{77} = \{\begin{matrix} M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2} \end{matrix}\}; S_{77} = (11223443)

γ_{78} = \{\begin{matrix} M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{19}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3} \end{matrix}\}; S_{78} = (11223344)

γ_{79} = \{\begin{matrix} M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3} \end{matrix}\}; S_{79} = (12213443)

γ_{80} = \{\begin{matrix} M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2} \end{matrix}\}; S_{80} = (12213344)

γ_{81} = \{\begin{matrix} M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2} \end{matrix}\}; S_{81} = (12233441)

γ_{82} = \{\begin{matrix} M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3} \end{matrix}\}; S_{82} = (12332144)

γ_{83} = \{\begin{matrix} M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2} \end{matrix}\}; S_{83} = (12344123)

γ_{84} = \{\begin{matrix} M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2} \end{matrix}\}; S_{84} = (12344321)

γ_{85} = \{\begin{matrix} M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2} \end{matrix}\}; S_{85} = (12233441)

γ_{86} = \{\begin{matrix} M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3} \end{matrix}\}; S_{86} = (12213443)

γ_{87} = \{\begin{matrix} M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2} \end{matrix}\}; S_{87} = (12213344)

γ_{88} = \{\begin{matrix} M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2} \end{matrix}\}; S_{88} = (12344123)

γ_{89} = \{\begin{matrix} M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2} \end{matrix}\}; S_{89} = (12344321)

γ_{90} = \{\begin{matrix} M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3} \end{matrix}\}; S_{90} = (12332144)

γ_{91} = \{\begin{matrix} B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2} \end{matrix}\}; S_{91} = (11223443)

γ_{92} = \{\begin{matrix} B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3} \end{matrix}\}; S_{92} = (11223344)

γ_{93} = \{\begin{matrix} B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3} \end{matrix}\}; S_{93} = (11234432)

γ_{94} = \{\begin{matrix} B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3} \end{matrix}\}; S_{94} = (11234432)

γ_{95} = \{\begin{matrix} B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2} \end{matrix}\}; S_{95} = (11223443)

γ_{96} = \{\begin{matrix} B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3} \end{matrix}\}; S_{96} = (11223344)

γ_{97} = \{\begin{matrix} B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3} \end{matrix}\}; S_{97} = (12213443)

γ_{98} = \{\begin{matrix} B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2} \end{matrix}\}; S_{98} = (12213344)

γ_{99} = \{\begin{matrix} B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2} \end{matrix}\}; S_{99} = (12233441)

γ_{100} = \{\begin{matrix} B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2} \end{matrix}\}; S_{100} = (12344123)

γ_{101} = \{\begin{matrix} B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2} \end{matrix}\}; S_{101} = (12344321)

γ_{102} = \{\begin{matrix} B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3} \end{matrix}\}; S_{102} = (12332144)

γ_{103} = \{\begin{matrix} B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2} \end{matrix}\}; S_{103} = (12344123)

γ_{104} = \{\begin{matrix} B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2} \end{matrix}\}; S_{104} = (12344321)

γ_{105} = \{\begin{matrix} B_{3}, e_{14}, F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3} \end{matrix}\}; S_{105} = (12332144)

γ_{106} = \{\begin{matrix} B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3} \end{matrix}\}; S_{106} = (12213443)

γ_{107} = \{\begin{matrix} B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2} \end{matrix}\}; S_{107} = (12213344)

γ_{108} = \{\begin{matrix} B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2} \end{matrix}\}; S_{108} = (12233441)

γ_{109} = \{\begin{matrix} F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3} \end{matrix}\}; S_{109} = (11234432)

γ_{110} = \{\begin{matrix} F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2} \end{matrix}\}; S_{110} = (11223443)

γ_{111} = \{\begin{matrix} F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{17}, M_{2}, e_{8}, T_{2}, e_{12}, T_{3} \end{matrix}\}; S_{111} = (11223344)

γ_{112} = \{\begin{matrix} F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3} \end{matrix}\}; S_{112} = (11234432)

γ_{113} = \{\begin{matrix} F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3} \end{matrix}\}; S_{113} = (11223344)

γ_{114} = \{\begin{matrix} F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2} \end{matrix}\}; S_{114} = (11223443)

\begin{matrix} γ_{115} = \{\begin{matrix} F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2} e_{6}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3} \end{matrix}\} \end{matrix}; S_{115} = (12332144)

γ_{116} = \{\begin{matrix} F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2} \end{matrix}\}; S_{116} = (12344321)

γ_{117} = \{\begin{matrix} F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2} \end{matrix}\}; S_{117} = (12344123)

γ_{118} = \{\begin{matrix} F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2} \end{matrix}\}; S_{118} = (12233441)

γ_{119} = \{\begin{matrix} F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{16}, T_{3} \end{matrix}\}; S_{119} = (12213443)

γ_{120} = \{\begin{matrix} F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{12}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2} \end{matrix}\}; S_{120} = (12213344)

γ_{121} = \{\begin{matrix} F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2} \end{matrix}\}; S_{121} = (12344321)

γ_{122} = \{\begin{matrix} F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2} \end{matrix}\}; S_{122} = (12344123)

γ_{123} = \{\begin{matrix} F_{3}, e_{15}, T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3} \end{matrix}\}; S_{123} = (12332144)

γ_{124} = \{\begin{matrix} F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2} \end{matrix}\}; S_{124} = (12233441)

γ_{125} = \{\begin{matrix} F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3} \end{matrix}\}; S_{125} = (12213443)

γ_{126} = \{\begin{matrix} F_{3}, e_{15}, T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2} \end{matrix}\}; S_{126} = (12213344)

γ_{127} = \{\begin{matrix} T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3} \end{matrix}\}; S_{127} = (11234432)

γ_{128} = \{\begin{matrix} T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{11}, F_{3} \end{matrix}\}; S_{128} = (11223344)

γ_{129} = \{\begin{matrix} T_{3}, e_{12}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2} \end{matrix}\}; S_{129} = (11223443)

γ_{130} = \{\begin{matrix} T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3} \end{matrix}\}; S_{130} = (11234432)

γ_{131} = \{\begin{matrix} T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2} \end{matrix}\}; S_{131} = (11223443)

γ_{132} = \{\begin{matrix} T_{3}, e_{12}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{9}, M_{3} \end{matrix}\}; S_{132} = (11223344)

γ_{133} = \{\begin{matrix} T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2} \end{matrix}\}; S_{133} = (12344321)

γ_{134} = \{\begin{matrix} T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2} \end{matrix}\}; S_{134} = (12344123)

γ_{135} = \{\begin{matrix} T_{3}, e_{16}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2}, e_{5}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3} \end{matrix}\}; S_{135} = (12332144)

γ_{136} = \{\begin{matrix} T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2} \end{matrix}\}; S_{136} = (12233441)

γ_{137} = \{\begin{matrix} T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{14}, F_{3} \end{matrix}\}; S_{137} = (12213443)

γ_{138} = \{\begin{matrix} T_{3}, e_{16}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{11}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2} \end{matrix}\}; S_{138} = (12213344)

γ_{139} = \{\begin{matrix} T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{5}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2} \end{matrix}\}; S_{139} = (12344321)

γ_{140} = \{\begin{matrix} T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2}, e_{7}, F_{2}, e_{6}, B_{2} \end{matrix}\}; S_{140} = (12344123)

γ_{141} = \{\begin{matrix} T_{3}, e_{15}, F_{3}, e_{14}, B_{3}, e_{10}, B_{2}, e_{6}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3} \end{matrix}\}; S_{141} = (12332144)

γ_{142} = \{\begin{matrix} T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{9}, M_{3}, e_{13}, B_{3}, e_{10}, B_{2} \end{matrix}\}; S_{142} = (12213344)

γ_{143} = \{\begin{matrix} T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{7}, T_{2}, e_{8}, M_{2}, e_{5}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3} \end{matrix}\}; S_{143} = (12213443)

γ_{144} = \{\begin{matrix} T_{3}, e_{15}, F_{3}, e_{11}, F_{2}, e_{6}, B_{2}, e_{10}, B_{3}, e_{13}, M_{3}, e_{9}, M_{2}, e_{8}, T_{2} \end{matrix}\}; S_{144} = (12233441)

(12344123) = S_{1} ≅ S_{11} ≅ S_{19} ≅ S_{25} ≅ S_{39} ≅ S_{44} ≅ S_{60} ≅ S_{62} ≅ S_{83} ≅ S_{88} ≅ S_{100} ≅ S_{103} ≅ S_{117} ≅ S_{122} ≅ S_{134} ≅ S_{140}

|S_{1}| = 16

{(12344321) = S}_{2} ≅ S_{12} ≅ S_{20} ≅ S_{26} {≅ S}_{38} ≅ S_{43} ≅ S_{59} ≅ S_{61} ≅ S_{84} ≅ S_{89} ≅ S_{101} ≅ S_{104} ≅ S_{116} ≅ S_{121} ≅ S_{133} ≅ S_{139}

|S_{2}| = 16

{(12332144) = S}_{3} ≅ S_{10} ≅ S_{21} ≅ S_{27} {≅ S}_{37} ≅ S_{45} ≅ S_{58} ≅ S_{63} ≅ S_{82} ≅ S_{90} ≅ S_{102} ≅ S_{105} ≅ S_{115} ≅ S_{123} ≅ S_{135} ≅ S_{141}

|S_{3}| = 16

{(12213344) = S}_{4} ≅ S_{8} ≅ S_{23} ≅ S_{29} {≅ S}_{41} ≅ S_{48} ≅ S_{57} ≅ S_{66} ≅ S_{80} ≅ S_{87} ≅ S_{98} ≅ S_{107} ≅ S_{120} ≅ S_{126} ≅ S_{138} ≅ S_{142}

|S_{4}| = 16

{(12213443) = S}_{5} ≅ S_{7} ≅ S_{23} ≅ S_{30} {≅ S}_{40} ≅ S_{47} ≅ S_{56} ≅ S_{65} ≅ S_{79} ≅ S_{86} ≅ S_{97} ≅ S_{106} ≅ S_{119} ≅ S_{125} ≅ S_{137} ≅ S_{143}

|S_{5}| = 16

{(12233441) ≅ S}_{6} ≅ S_{9} ≅ S_{24} ≅ S_{28} ≅ S_{42} ≅ S_{46} ≅ S_{55} ≅ S_{64} ≅ S_{81} ≅ S_{85} ≅ S_{99} ≅ S_{108} ≅ S_{118} ≅ S_{124} ≅ S_{136} ≅ S_{144}

|S_{6}| = 16

(11234432) = S_{13} ≅ S_{33} ≅ S_{36} ≅ S_{49} ≅ S_{52} ≅ S_{69} ≅ S_{72} ≅ S_{73} ≅ S_{76} ≅ S_{93} ≅ S_{94} ≅ S_{109} ≅ S_{112} ≅ S_{127} ≅ S_{130}

|S_{7}| = 16

(11223443) = S_{14} ≅ S_{17} ≅ S_{32} ≅ S_{34} ≅ S_{51} ≅ S_{54} ≅ S_{67} ≅ S_{70} ≅ S_{74} ≅ S_{77} ≅ S_{91} ≅ S_{95} ≅ S_{110} ≅ S_{114} ≅ S_{129} ≅ S_{131}

|S_{8}| = 16

(11223344) = S_{15} ≅ S_{18} ≅ S_{31} ≅ S_{35} ≅ S_{50} ≅ S_{53} ≅ S_{68} ≅ S_{71} ≅ S_{75} ≅ S_{78} ≅ S_{92} ≅ S_{96} ≅ S_{111} ≅ S_{113} ≅ S_{128} ≅ S_{132}

|S_{9}| = 16

and there is a missing equivalence class of assembly words,

S_{m}

, that is

(12132434) = S_{m} ≅ (M, B, M, F, B, T, F, T) ≅ (M, B, M, T, B, F, T, F) ≅ (M, F, M, B, F, T, B, T) ≅ (M, F, M, T, F, B, T, B)

≅ (M, T, M, B, T, F, B, F) ≅ (M, T, M, F, T, B, F, B) ≅ (B, M, B, F, M, T, F, T) ≅ (B, M, B, T, M, F, T, F)

≅ (B, F, B, M, F, T, M, T) ≅ (B, F, B, T, F, M, T, M) ≅ (B, T, B, M, T, F, M, F)

≅ (B, T, B, F, T, M, F, M) ≅ (F, M, F, B, M, T, B, T) ≅ (F, M, F, T, M, B, T, B) ≅ (F, B, F, M, B, T, M, T)

≅ (F, B, F, T, B, M, T, M) ≅ (F, T, F, M, T, B, M, B) ≅ (F, T, F, B, T, M, B, M)

≅ (T, M, T, B, M, F, B, F) ≅ (T, M, T, F, M, B, F, B) ≅ (T, B, T, M, B, F, M, F) ≅ (T, B, T, F, B, M, F, M)

≅ (T, F, T, M, F, B, M, B) ≅ (T, F, T, B, F, M, B, M)

∣

S_{m}

∣ = 16

The list of the non-consecutive vertices Hamiltonian polygonal paths (see Figure 8) are presented in Appendix A. However,

S_{m}

was not considered in the calculated Hamiltonian paths earlier because the vertices were non-consecutives due to the non-existence of edges between farther vertices (not adjacent to one another), as depicted in the following figure,

{F T T M}_{4}

.

In that case,

Γ_{{F T T M}_{4}}

exhibits nine sets of consecutive vertices Hamiltonian polygonal paths, namely,

S_{1}, S_{2}, S_{3}, S_{4}, S_{5}, S_{6}, S_{13}, S_{14}, and S_{15}

, and a set with non-consecutive vertices Hamiltonian polygonal paths, that is

S_{m}

. Hence,

Γ_{{F T T M}_{4}}

has 10 distinct Hamiltonian polygonal paths, as shown earlier. But then,

10 = \frac{120}{12} = \frac{5.4 . 3.2 . 1}{2.1 (3.2 . 1)} = \frac{5!}{2! (5 - 2)!} = (\begin{matrix} 5 \\ 2 \end{matrix}) = (\begin{matrix} 4 + 1 \\ 2 \end{matrix}) = T_{4}

as stated by Theorem 3. This concurs with the proposed Conjecture 1 by Burns et al. [7].

Therefore, if C is the set of all its distinct Hamiltonian polygonal paths of the assembly graph of

F T T M_{4}

, namely

Γ_{{F T T M}_{4}}

, then

| C | = T_{4}

, whereby

T_{4}

is its tangled cord as required. □

Example 2.

A set of

A_{3}^{3} = \{A, B, C\}

such that

A = \{(A_{1}, A_{2}, A_{3}) : A_{1} ≅ A_{2} ≅ A_{3}\}

,

B = \{(B_{1}, B_{2}, B_{3}) : B_{1} ≅ B_{2} ≅ B_{3}\}

and

C = \{(C_{1}, C_{2}, C_{3}) : C_{1} ≅ C_{2} ≅ C_{3}\}

as depicted in Figure 9 below.

The identified assembly graph of

A_{3}^{3}

is

{Γ_{A_{3}^{3}} = A}_{3}^{3} - (E (A) - E (B)) = B

and the set of its Hamiltonian paths is

γ = \{γ_{1}, γ_{2}, γ_{3}, γ_{4}, γ_{5}, γ_{6}\}

such that

γ_{1} = \{B_{1}, e_{7}, B_{2}, E_{8} {, B}_{3}\}; S_{1} = (123)

;

γ_{2} = \{B_{1}, e_{9}, B_{3}, E_{8} {, B}_{2}\}; S_{2} = (123)

;

γ_{3} = \{B_{2}, e_{8}, B_{3}, E_{9} {, B}_{1}\}; S_{3} = (123)

;

γ_{4} = \{B_{2}, e_{7}, B_{1}, E_{9} {, B}_{3}\}; S_{4} = (123)

;

γ_{5} = \{B_{3}, e_{9}, B_{1}, E_{7} {, B}_{2}\}; S_{6} = (123)

;

γ_{6} = \{B_{3}, e_{8}, B_{2}, E_{7} {, B}_{1}\}; S_{7} = (123)

.

As a matter of fact,

γ_{1}

,

γ_{2}

,

γ_{3}

,

γ_{4}

,

γ_{5}

, and

γ_{6}

are also Eulerian paths of

Γ_{A_{3}^{3}}

. Because the Hamiltonian and Eulerian paths are the same for

Γ_{A_{3}^{3}}

, each of them is just a cyclic (see Figure 10).

The

A_{3}^{3}

is a

T_{0}

, therefore it does not have distinct Hamiltonian paths because

(\begin{matrix} 0 + 1 \\ 2 \end{matrix}) = (\begin{matrix} 1 \\ 2 \end{matrix}) = \frac{1!}{2! (0 - 2)!} = \frac{1}{2 (- 2)!}

is undefined, i.e.,

- 2!

is undefined.

Therefore, all the Hamiltonian paths in

A_{3}^{3}

are similar.

Furthermore, Ahmad et al. [9] and Shukor et al. [1] simulated and listed all Hamiltonian paths with consecutive vertices in the assembly graph of

{F T T M}_{n}

for

n = 3, 4, \dots, 10

as follows (see Table 1).

However, a similar form of a sequence of Hamiltonian polygonal paths for

{F T T M}_{n}

in Table 1 has not been previously reported in the Online Encyclopedia of Integer Sequences (OEIS) (http://oeis.org, (accessed on 22 October 2022)). The non-existence of such a sequence in OEIS was anticipated by Burns et al. earlier [7].

6. Conclusions

Fuzzy Topological Topographic Mapping (FTTM) is a mathematical model that consists of a set of homeomorphic topological spaces designed to solve the neuro magnetic inverse problem. A sequence of FTTM,

{F T T M}_{n}

, is an extension of FTTM that is arranged in a symmetrical form. The special characteristic of FTTM, namely the homeomorphisms between its components, allows the generation of new FTTM. Later, the

{F T T M}_{n}

can also be viewed as a graph. Angeleska et al. defined an assembly graph for modeling their DNA recombination [6]. Then, the concept of a tangled cord for assembly graphs was introduced by Burns et al. for the same purpose [7]. This paper has demonstrated a concept to calculate the Eulerian paths and to determine the least upper bound of the Hamiltonian paths of the assembly graph of

{F T T M}_{4}

.

Author Contributions

Conceptualization, N.A.S. and T.A.; methodology T.A.; software, N.A.S.; formal analysis, N.A.S.; investigation, N.A.S.; writing—original draft preparation, T.A. and N.A.S.; writing—review and editing, M.A.; supervision, T.A., A.I., and S.R.A.; funding acquisition, T.A. All authors have read and agreed to the published version of the manuscript.

Funding

This research is supported by the Fundamental Research Grant Scheme (FRGS) FRGS/1/2020/STG06/UTM/01/1 awarded by the Ministry of Higher Education, Malaysia.

Data Availability Statement

Not applicable.

Acknowledgments

The authors acknowledge the support of Universiti Teknologi Malaysia (UTM) and the Ministry of Higher Education Malaysia (MOHE) in this work.

Conflicts of Interest

The authors declare no conflict of interest.

Abbreviations

The following abbreviations are used in this manuscript:

FTTM	Fuzzy Topographic Topological Mapping
MP	Magnetic Plane
BM	Base Magnetic Plane
FM	Fuzzy Magnetic Field
TM	Topographic Magnetic Field
MEG	magnetoencephalography
EEG	electroencephalography
DNA	Deoxyribonucleic acid

Appendix A. Non-Consecutive Vertices Hamiltonian Polygonal Paths

γ_{1^{'}} = \{\begin{matrix} M_{2}, e_{2}, B_{2}, e_{12}, M_{3}, e_{27}, F_{2}, e_{18}, B_{3}, e_{28}, T_{2}, e_{16}, F_{3}, e_{22}, T_{3} \end{matrix}\};

γ_{2^{'}} = \{\begin{matrix} M_{3}, e_{12}, B_{2}, e_{2}, M_{2}, e_{9}, F_{2}, e_{18}, B_{3}, e_{28}, T_{2}, e_{16}, F_{3}, e_{22}, T_{3} \end{matrix}\};

γ_{3^{'}} = \{\begin{matrix} M_{2}, e_{2}, B_{2}, e_{12}, M_{3}, e_{27}, F_{2}, e_{18}, B_{3}, e_{24}, T_{3}, e_{22}, F_{3}, e_{16}, T_{2} \end{matrix}\};

γ_{4^{'}} = \{\begin{matrix} M_{3}, e_{12}, B_{2}, e_{2}, M_{2}, e_{9}, F_{2}, e_{18}, B_{3}, e_{21}, T_{3}, e_{22}, F_{3}, e_{16}, T_{2} \end{matrix}\};

γ_{5^{'}} = \{\begin{matrix} M_{2}, e_{2}, B_{2}, e_{12}, M_{3}, e_{23}, F_{3}, e_{21}, B_{3}, e_{28}, T_{2}, e_{4}, F_{2}, e_{17}, T_{3} \end{matrix}\};

γ_{6^{'}} = \{\begin{matrix} M_{3}, e_{12}, B_{2}, e_{2}, M_{2}, e_{25}, F_{3}, e_{21}, B_{3}, e_{28}, T_{2}, e_{4}, F_{2}, e_{17}, T_{3} \end{matrix}\};

γ_{7^{'}} = \{\begin{matrix} M_{2}, e_{2}, B_{2}, e_{12}, M_{3}, e_{23}, F_{3}, e_{21}, B_{3}, e_{24}, T_{3}, e_{17}, F_{2}, e_{4}, T_{2} \end{matrix}\};

γ_{8^{'}} = \{\begin{matrix} M_{3}, e_{12}, B_{2}, e_{2}, M_{2}, e_{25}, F_{3}, e_{21}, B_{3}, e_{21}, T_{3}, e_{17}, F_{2}, e_{4}, T_{2} \end{matrix}\};

γ_{9^{'}} = \{\begin{matrix} M_{2}, e_{11}, B_{3}, e_{20}, M_{3}, e_{27}, F_{2}, e_{2}, B_{2}, e_{13}, T_{2}, e_{16}, F_{3}, e_{22}, T_{3} \end{matrix}\};

γ_{10^{'}} = \{\begin{matrix} M_{3}, e_{20}, B_{3}, e_{11}, M_{2}, e_{9}, F_{2}, e_{3}, B_{2}, e_{13}, T_{2}, e_{16}, F_{3}, e_{22}, T_{3} \end{matrix}\};

γ_{11^{'}} = \{\begin{matrix} M_{2}, e_{11}, B_{3}, e_{20}, M_{3}, e_{27}, F_{2}, e_{2}, B_{2}, e_{26}, T_{3}, e_{22}, F_{3}, e_{16}, T_{2} \end{matrix}\};

γ_{12^{'}} = \{\begin{matrix} M_{3}, e_{20}, B_{3}, e_{11}, M_{2}, e_{9}, F_{2}, e_{3}, B_{2}, e_{26}, T_{3}, e_{22}, F_{3}, e_{16}, T_{2} \end{matrix}\};

γ_{13^{'}} = \{\begin{matrix} M_{2}, e_{11}, B_{3}, e_{20}, M_{3}, e_{23}, F_{3}, e_{14}, B_{2}, e_{13}, T_{2}, e_{4}, F_{2}, e_{17}, T_{3} \end{matrix}\};

γ_{14^{'}} = \{\begin{matrix} M_{3}, e_{20}, B_{3}, e_{11}, M_{2}, e_{25}, F_{3}, e_{14}, B_{2}, e_{13}, T_{2}, e_{4}, F_{2}, e_{17}, T_{3} \end{matrix}\};

γ_{15^{'}} = \{\begin{matrix} M_{2}, e_{11}, B_{3}, e_{20}, M_{3}, e_{23}, F_{3}, e_{14}, B_{2}, e_{26}, T_{3}, e_{16}, F_{2}, e_{4}, T_{2} \end{matrix}\};

γ_{16^{'}} = \{\begin{matrix} M_{3}, e_{20}, B_{3}, e_{11}, M_{2}, e_{25}, F_{3}, e_{14}, B_{2}, e_{26}, T_{3}, e_{17}, F_{2}, e_{4}, T_{2} \end{matrix}\};

γ_{17^{'}} = \{\begin{matrix} M_{2}, e_{2}, B_{2}, e_{12}, M_{3}, e_{15}, T_{2}, e_{28}, B_{3}, e_{18}, F_{2}, e_{17}, T_{3}, e_{22}, F_{3} \end{matrix}\};

γ_{18^{'}} = \{\begin{matrix} M_{3}, e_{12}, B_{2}, e_{2}, M_{2}, e_{1}, T_{2}, e_{28}, B_{3}, e_{18}, F_{2}, e_{17}, T_{3}, e_{22}, F_{3} \end{matrix}\};

γ_{19^{'}} = \{\begin{matrix} M_{2}, e_{2}, B_{2}, e_{12}, M_{3}, e_{15}, T_{2}, e_{28}, B_{3}, e_{21}, F_{3}, e_{22}, T_{3}, e_{17}, F_{2} \end{matrix}\};

γ_{20^{'}} = \{\begin{matrix} M_{3}, e_{12}, B_{2}, e_{2}, M_{2}, e_{1}, T_{2}, e_{28}, B_{3}, e_{21}, F_{3}, e_{22}, T_{3}, e_{17}, F_{2} \end{matrix}\};

γ_{21^{'}} = \{\begin{matrix} M_{2}, e_{2}, B_{2}, e_{12}, M_{3}, e_{19}, T_{3}, e_{24}, B_{3}, e_{18}, F_{2}, e_{2}, T_{2}, e_{16}, F_{3} \end{matrix}\};

γ_{22^{'}} = \{\begin{matrix} M_{3}, e_{12}, B_{2}, e_{2}, M_{2}, e_{10}, T_{3}, e_{24}, B_{3}, e_{18}, F_{2}, e_{2}, T_{2}, e_{16}, F_{3} \end{matrix}\};

γ_{23^{'}} = \{\begin{matrix} M_{2}, e_{2}, B_{2}, e_{12}, M_{3}, e_{19}, T_{3}, e_{24}, B_{3}, e_{21}, F_{3}, e_{16}, T_{2}, e_{2}, F_{2} \end{matrix}\};

γ_{24^{'}} = \{\begin{matrix} M_{3}, e_{12}, B_{2}, e_{2}, M_{2}, e_{10}, T_{3}, e_{24}, B_{3}, e_{21}, F_{3}, e_{16}, T_{2}, e_{2}, F_{2} \end{matrix}\};

γ_{25^{'}} = \{\begin{matrix} M_{2}, e_{11}, B_{3}, e_{20}, M_{3}, e_{15}, T_{2}, e_{13}, B_{2}, e_{3}, F_{2}, e_{17}, T_{3}, e_{22}, F_{3} \end{matrix}\};

γ_{26^{'}} = \{\begin{matrix} M_{3}, e_{20}, B_{3}, e_{11}, M_{2}, e_{1}, T_{2}, e_{13}, B_{2}, e_{3}, F_{2}, e_{17}, T_{3}, e_{22}, F_{3} \end{matrix}\};

γ_{27^{'}} = \{\begin{matrix} M_{2}, e_{11}, B_{3}, e_{20}, M_{3}, e_{15}, T_{2}, e_{13}, B_{2}, e_{14}, F_{3}, e_{22}, T_{3}, e_{17}, F_{2} \end{matrix}\};

γ_{28^{'}} = \{\begin{matrix} M_{3}, e_{20}, B_{3}, e_{11}, M_{2}, e_{1}, T_{2}, e_{13}, B_{2}, e_{14}, F_{3}, e_{22}, T_{3}, e_{17}, F_{2} \end{matrix}\};

γ_{29^{'}} = \{\begin{matrix} M_{2}, e_{11}, B_{3}, e_{20}, M_{3}, e_{19}, T_{3}, e_{26}, B_{2}, e_{3}, F_{2}, e_{2}, T_{2}, e_{16}, F_{3} \end{matrix}\};

γ_{30^{'}} = \{\begin{matrix} M_{3}, e_{20}, B_{3}, e_{11}, M_{2}, e_{10}, T_{3}, e_{26}, B_{2}, e_{3}, F_{2}, e_{2}, T_{2}, e_{16}, F_{3} \end{matrix}\};

γ_{31^{'}} = \{\begin{matrix} M_{2}, e_{11}, B_{3}, e_{20}, M_{3}, e_{19}, T_{3}, e_{26}, B_{2}, e_{14}, F_{3}, e_{16}, T_{2}, e_{2}, F_{2} \end{matrix}\};

γ_{32^{'}} = \{\begin{matrix} M_{3}, e_{20}, B_{3}, e_{11}, M_{2}, e_{10}, T_{3}, e_{26}, B_{2}, e_{14}, F_{3}, e_{16}, T_{2}, e_{2}, F_{2} \end{matrix}\};

γ_{33^{'}} = \{\begin{matrix} M_{2}, e_{9}, F_{2}, e_{27}, M_{3}, e_{12}, B_{2}, e_{14}, F_{3}, e_{16}, T_{2}, e_{28}, B_{3}, e_{24}, T_{3} \end{matrix}\};

γ_{34^{'}} = \{\begin{matrix} M_{3}, e_{27}, F_{2}, e_{9}, M_{2}, e_{2}, B_{2}, e_{14}, F_{3}, e_{16}, T_{2}, e_{28}, B_{3}, e_{24}, T_{3} \end{matrix}\};

γ_{35^{'}} = \{\begin{matrix} M_{2}, e_{9}, F_{2}, e_{27}, M_{3}, e_{12}, B_{2}, e_{14}, F_{3}, e_{22}, T_{3}, e_{24}, B_{3}, e_{28}, T_{2} \end{matrix}\};

γ_{36^{'}} = \{\begin{matrix} M_{3}, e_{27}, F_{2}, e_{9}, M_{2}, e_{2}, B_{2}, e_{14}, F_{3}, e_{22}, T_{3}, e_{24}, B_{3}, e_{28}, T_{2} \end{matrix}\};

γ_{37^{'}} = \{\begin{matrix} M_{2}, e_{9}, F_{2}, e_{27}, M_{3}, e_{20}, B_{3}, e_{21}, F_{3}, e_{16}, T_{2}, e_{12}, B_{2}, e_{26}, T_{3} \end{matrix}\};

γ_{38^{'}} = \{\begin{matrix} M_{3}, e_{27}, F_{2}, e_{9}, M_{2}, e_{12}, B_{3}, e_{21}, F_{3}, e_{16}, T_{2}, e_{12}, B_{2}, e_{26}, T_{3} \end{matrix}\};

γ_{39^{'}} = \{\begin{matrix} M_{2}, e_{9}, F_{2}, e_{27}, M_{3}, e_{20}, B_{3}, e_{21}, F_{3}, e_{22}, T_{3}, e_{26}, B_{2}, e_{12}, T_{2} \end{matrix}\};

γ_{40^{'}} = \{\begin{matrix} M_{3}, e_{27}, F_{2}, e_{9}, M_{2}, e_{12}, B_{3}, e_{21}, F_{3}, e_{22}, T_{3}, e_{26}, B_{2}, e_{12}, T_{2} \end{matrix}\};

γ_{41^{'}} = \{\begin{matrix} M_{2}, e_{27}, F_{3}, e_{23}, M_{3}, e_{12}, B_{2}, e_{3}, F_{2}, e_{4}, T_{2}, e_{28}, B_{3}, e_{24}, T_{3} \end{matrix}\};

γ_{42^{'}} = \{\begin{matrix} M_{3}, e_{23}, F_{3}, e_{27}, M_{2}, e_{2}, B_{2}, e_{3}, F_{2}, e_{4}, T_{2}, e_{28}, B_{3}, e_{24}, T_{3} \end{matrix}\};

γ_{43^{'}} = \{\begin{matrix} M_{2}, e_{27}, F_{3}, e_{23}, M_{3}, e_{12}, B_{2}, e_{3}, F_{2}, e_{17}, T_{3}, e_{26}, B_{2}, e_{13}, T_{2} \end{matrix}\};

γ_{44^{'}} = \{\begin{matrix} M_{3}, e_{23}, F_{3}, e_{27}, M_{2}, e_{2}, B_{2}, e_{3}, F_{2}, e_{17}, T_{3}, e_{24}, B_{3}, e_{28}, T_{2} \end{matrix}\};

γ_{45^{'}} = \{\begin{matrix} M_{2}, e_{27}, F_{3}, e_{23}, M_{3}, e_{20}, B_{3}, e_{18}, F_{2}, e_{4}, T_{2}, e_{28}, B_{3}, e_{24}, T_{3} \end{matrix}\};

γ_{46^{'}} = \{\begin{matrix} M_{3}, e_{23}, F_{3}, e_{27}, M_{2}, e_{12}, B_{3}, e_{18}, F_{2}, e_{4}, T_{2}, e_{12}, B_{2}, e_{26}, T_{3} \end{matrix}\};

γ_{47^{'}} = \{\begin{matrix} M_{2}, e_{27}, F_{3}, e_{23}, M_{3}, e_{20}, B_{3}, e_{18}, F_{2}, e_{17}, T_{3}, e_{26}, B_{2}, e_{13}, T_{2} \end{matrix}\};

γ_{48^{'}} = \{\begin{matrix} M_{3}, e_{23}, F_{3}, e_{27}, M_{2}, e_{12}, B_{3}, e_{18}, F_{2}, e_{17}, T_{3}, e_{26}, B_{2}, e_{12}, T_{2} \end{matrix}\};

γ_{49^{'}} = \{\begin{matrix} M_{2}, e_{9}, F_{2}, e_{27}, M_{3}, e_{15}, T_{2}, e_{16}, F_{3}, e_{14}, B_{2}, e_{26}, T_{3}, e_{24}, B_{3} \end{matrix}\};

γ_{50^{'}} = \{\begin{matrix} M_{3}, e_{27}, F_{2}, e_{9}, M_{2}, e_{1}, T_{2}, e_{16}, F_{3}, e_{14}, B_{2}, e_{26}, T_{3}, e_{24}, B_{3} \end{matrix}\};

γ_{51^{'}} = \{\begin{matrix} M_{2}, e_{9}, F_{2}, e_{27}, M_{3}, e_{15}, T_{2}, e_{16}, F_{3}, e_{21}, B_{3}, e_{24}, T_{3}, e_{26}, B_{2} \end{matrix}\};

γ_{52^{'}} = \{\begin{matrix} M_{3}, e_{27}, F_{2}, e_{9}, M_{2}, e_{1}, T_{2}, e_{16}, F_{3}, e_{21}, B_{3}, e_{24}, T_{3}, e_{26}, B_{2} \end{matrix}\};

γ_{53^{'}} = \{\begin{matrix} M_{2}, e_{9}, F_{2}, e_{27}, M_{3}, e_{19}, T_{3}, e_{22}, F_{3}, e_{14}, B_{2}, e_{13}, T_{2}, e_{28}, B_{3} \end{matrix}\};

γ_{54^{'}} = \{\begin{matrix} M_{3}, e_{27}, F_{2}, e_{9}, M_{2}, e_{10}, T_{3}, e_{22}, F_{3}, e_{14}, B_{2}, e_{13}, T_{2}, e_{28}, B_{3} \end{matrix}\};

γ_{55^{'}} = \{\begin{matrix} M_{2}, e_{9}, F_{2}, e_{27}, M_{3}, e_{19}, T_{3}, e_{22}, F_{3}, e_{21}, B_{3}, e_{28}, T_{2}, e_{13}, B_{2} \end{matrix}\};

γ_{56^{'}} = \{\begin{matrix} M_{3}, e_{27}, F_{2}, e_{9}, M_{2}, e_{10}, T_{3}, e_{22}, F_{3}, e_{21}, B_{3}, e_{28}, T_{2}, e_{13}, B_{2} \end{matrix}\};

γ_{57^{'}} = \{\begin{matrix} M_{2}, e_{25}, F_{3}, e_{23}, M_{3}, e_{15}, T_{2}, e_{4}, F_{2}, e_{3}, B_{2}, e_{26}, T_{3}, e_{24}, B_{3} \end{matrix}\};

γ_{58^{'}} = \{\begin{matrix} M_{3}, e_{23}, F_{3}, e_{25}, M_{2}, e_{1}, T_{2}, e_{4}, F_{2}, e_{3}, B_{2}, e_{26}, T_{3}, e_{24}, B_{3} \end{matrix}\};

γ_{59^{'}} = \{\begin{matrix} M_{2}, e_{25}, F_{3}, e_{23}, M_{3}, e_{15}, T_{2}, e_{4}, F_{2}, e_{3}, B_{3}, e_{24}, T_{3}, e_{26}, B_{2} \end{matrix}\};

γ_{60^{'}} = \{\begin{matrix} M_{3}, e_{23}, F_{3}, e_{25}, M_{2}, e_{1}, T_{2}, e_{4}, F_{2}, e_{18}, B_{3}, e_{24}, T_{3}, e_{26}, B_{2} \end{matrix}\};

γ_{61^{'}} = \{\begin{matrix} M_{2}, e_{25}, F_{3}, e_{23}, M_{3}, e_{19}, T_{3}, e_{17}, F_{2}, e_{3}, B_{2}, e_{13}, T_{2}, e_{28}, B_{3} \end{matrix}\};

γ_{62^{'}} = \{\begin{matrix} M_{3}, e_{23}, F_{3}, e_{25}, M_{2}, e_{10}, T_{3}, e_{17}, F_{2}, e_{3}, B_{2}, e_{13}, T_{2}, e_{28}, B_{3} \end{matrix}\};

γ_{63^{'}} = \{\begin{matrix} M_{2}, e_{25}, F_{3}, e_{23}, M_{3}, e_{19}, T_{3}, e_{17}, F_{2}, e_{18}, B_{3}, e_{28}, T_{2}, e_{13}, B_{2} \end{matrix}\};

γ_{64^{'}} = \{\begin{matrix} M_{3}, e_{23}, F_{3}, e_{25}, M_{2}, e_{10}, T_{3}, e_{17}, F_{2}, e_{18}, B_{3}, e_{28}, T_{2}, e_{13}, B_{2} \end{matrix}\};

γ_{65^{'}} = \{\begin{matrix} M_{2}, e_{1}, T_{2}, e_{15}, M_{3}, e_{12}, B_{2}, e_{26}, T_{3}, e_{27}, F_{2}, e_{18}, B_{3}, e_{21}, F_{3} \end{matrix}\};

γ_{66^{'}} = \{\begin{matrix} M_{3}, e_{15}, T_{2}, e_{1}, M_{2}, e_{2}, B_{2}, e_{26}, T_{3}, e_{27}, F_{2}, e_{18}, B_{3}, e_{21}, F_{3} \end{matrix}\};

γ_{67^{'}} = \{\begin{matrix} M_{2}, e_{1}, T_{2}, e_{15}, M_{3}, e_{12}, B_{2}, e_{26}, T_{3}, e_{22}, F_{3}, e_{21}, B_{3}, e_{18}, F_{2} \end{matrix}\};

γ_{68^{'}} = \{\begin{matrix} M_{3}, e_{15}, T_{2}, e_{1}, M_{2}, e_{2}, B_{2}, e_{26}, T_{3}, e_{22}, F_{3}, e_{21}, B_{3}, e_{18}, F_{2} \end{matrix}\};

γ_{69^{'}} = \{\begin{matrix} M_{2}, e_{1}, T_{2}, e_{15}, M_{3}, e_{20}, B_{3}, e_{24}, T_{3}, e_{27}, F_{2}, e_{3}, B_{2}, e_{14}, F_{3} \end{matrix}\};

γ_{70^{'}} = \{\begin{matrix} M_{3}, e_{15}, T_{2}, e_{1}, M_{2}, e_{11}, B_{3}, e_{24}, T_{3}, e_{27}, F_{2}, e_{3}, B_{2}, e_{14}, F_{3} \end{matrix}\};

γ_{71^{'}} = \{\begin{matrix} M_{2}, e_{1}, T_{2}, e_{15}, M_{3}, e_{20}, B_{3}, e_{24}, T_{3}, e_{22}, F_{3}, e_{14}, B_{2}, e_{3}, F_{2} \end{matrix}\};

γ_{72^{'}} = \{\begin{matrix} M_{3}, e_{15}, T_{2}, e_{1}, M_{2}, e_{11}, B_{3}, e_{24}, T_{3}, e_{22}, F_{3}, e_{14}, B_{2}, e_{3}, F_{2} \end{matrix}\};

γ_{73^{'}} = \{\begin{matrix} M_{2}, e_{10}, T_{3}, e_{19}, M_{3}, e_{12}, B_{2}, e_{13}, T_{2}, e_{4}, F_{2}, e_{18}, B_{3}, e_{21}, F_{3} \end{matrix}\};

γ_{74^{'}} = \{\begin{matrix} M_{3}, e_{19}, T_{3}, e_{10}, M_{2}, e_{2}, B_{2}, e_{13}, T_{2}, e_{4}, F_{2}, e_{18}, B_{3}, e_{21}, F_{3} \end{matrix}\};

γ_{75^{'}} = \{\begin{matrix} M_{2}, e_{10}, T_{3}, e_{19}, M_{3}, e_{12}, B_{2}, e_{13}, T_{2}, e_{16}, F_{3}, e_{21}, B_{3}, e_{18}, F_{2} \end{matrix}\};

γ_{76^{'}} = \{\begin{matrix} M_{3}, e_{19}, T_{3}, e_{10}, M_{2}, e_{2}, B_{2}, e_{13}, T_{2}, e_{16}, F_{3}, e_{21}, B_{3}, e_{18}, F_{2} \end{matrix}\};

γ_{77^{'}} = \{\begin{matrix} M_{2}, e_{10}, T_{3}, e_{19}, M_{3}, e_{20}, B_{3}, e_{28}, T_{2}, e_{4}, F_{2}, e_{3}, B_{2}, e_{14}, F_{3} \end{matrix}\};

γ_{78^{'}} = \{\begin{matrix} M_{3}, e_{19}, T_{3}, e_{10}, M_{2}, e_{11}, B_{3}, e_{28}, T_{2}, e_{4}, F_{2}, e_{3}, B_{2}, e_{14}, F_{3} \end{matrix}\};

γ_{79^{'}} = \{\begin{matrix} M_{2}, e_{10}, T_{3}, e_{19}, M_{3}, e_{20}, B_{3}, e_{28}, T_{2}, e_{16}, F_{3}, e_{14}, B_{2}, e_{3}, F_{2} \end{matrix}\};

γ_{80^{'}} = \{\begin{matrix} M_{3}, e_{19}, T_{3}, e_{10}, M_{2}, e_{11}, B_{3}, e_{28}, T_{2}, e_{16}, F_{3}, e_{14}, B_{2}, e_{3}, F_{2} \end{matrix}\};

γ_{81^{'}} = \{\begin{matrix} M_{2}, e_{1}, T_{2}, e_{15}, M_{3}, e_{27}, F_{2}, e_{17}, T_{3}, e_{26}, B_{2}, e_{14}, F_{3}, e_{21}, B_{3} \end{matrix}\};

γ_{82^{'}} = \{\begin{matrix} M_{3}, e_{15}, T_{2}, e_{1}, M_{2}, e_{9}, F_{2}, e_{17}, T_{3}, e_{26}, B_{2}, e_{14}, F_{3}, e_{21}, B_{3} \end{matrix}\};

γ_{83^{'}} = \{\begin{matrix} M_{2}, e_{1}, T_{2}, e_{15}, M_{3}, e_{27}, F_{2}, e_{17}, T_{3}, e_{24}, B_{3}, e_{21}, F_{3}, e_{14}, B_{2} \end{matrix}\};

γ_{84^{'}} = \{\begin{matrix} M_{3}, e_{15}, T_{2}, e_{1}, M_{2}, e_{9}, F_{2}, e_{17}, T_{3}, e_{24}, B_{3}, e_{21}, F_{3}, e_{14}, B_{2} \end{matrix}\};

γ_{85^{'}} = \{\begin{matrix} M_{2}, e_{1}, T_{2}, e_{15}, M_{3}, e_{23}, F_{3}, e_{22}, T_{3}, e_{26}, B_{2}, e_{3}, F_{2}, e_{18}, B_{3} \end{matrix}\};

γ_{86^{'}} = \{\begin{matrix} M_{3}, e_{15}, T_{2}, e_{1}, M_{2}, e_{25}, F_{3}, e_{22}, T_{3}, e_{26}, B_{2}, e_{3}, F_{2}, e_{18}, B_{3} \end{matrix}\};

γ_{87^{'}} = \{\begin{matrix} M_{2}, e_{1}, T_{2}, e_{15}, M_{3}, e_{23}, F_{3}, e_{22}, T_{3}, e_{24}, B_{3}, e_{18}, F_{2}, e_{3}, B_{2} \end{matrix}\};

γ_{88^{'}} = \{\begin{matrix} M_{3}, e_{15}, T_{2}, e_{1}, M_{2}, e_{25}, F_{3}, e_{22}, T_{3}, e_{24}, B_{3}, e_{18}, F_{2}, e_{3}, B_{2} \end{matrix}\};

γ_{89^{'}} = \{\begin{matrix} M_{2}, e_{10}, T_{3}, e_{19}, M_{3}, e_{27}, F_{2}, e_{4}, T_{2}, e_{13}, B_{2}, e_{14}, F_{3}, e_{21}, B_{3} \end{matrix}\};

γ_{90^{'}} = \{\begin{matrix} M_{3}, e_{19}, T_{3}, e_{10}, M_{2}, e_{9}, F_{2}, e_{4}, T_{2}, e_{13}, B_{2}, e_{14}, F_{3}, e_{21}, B_{3} \end{matrix}\};

γ_{91^{'}} = \{\begin{matrix} M_{2}, e_{10}, T_{3}, e_{19}, M_{3}, e_{27}, F_{2}, e_{4}, T_{2}, e_{28}, B_{3}, e_{21}, F_{3}, e_{14}, B_{2} \end{matrix}\};

γ_{92^{'}} = \{\begin{matrix} M_{3}, e_{19}, T_{3}, e_{10}, M_{2}, e_{9}, F_{2}, e_{4}, T_{2}, e_{28}, B_{3}, e_{21}, F_{3}, e_{14}, B_{2} \end{matrix}\};

γ_{93^{'}} = \{\begin{matrix} M_{2}, e_{10}, T_{3}, e_{19}, M_{3}, e_{23}, F_{3}, e_{16}, T_{2}, e_{13}, B_{2}, e_{3}, F_{2}, e_{18}, B_{3} \end{matrix}\};

γ_{94^{'}} = \{\begin{matrix} M_{3}, e_{19}, T_{3}, e_{10}, M_{2}, e_{25}, F_{3}, e_{16}, T_{2}, e_{13}, B_{2}, e_{3}, F_{2}, e_{18}, B_{3} \end{matrix}\};

γ_{95^{'}} = \{\begin{matrix} M_{2}, e_{10}, T_{3}, e_{19}, M_{3}, e_{23}, F_{3}, e_{16}, T_{2}, e_{28}, B_{3}, e_{18}, F_{2}, e_{3}, B_{2} \end{matrix}\};

γ_{96^{'}} = \{\begin{matrix} M_{3}, e_{19}, T_{3}, e_{10}, M_{2}, e_{25}, F_{3}, e_{16}, T_{2}, e_{28}, B_{3}, e_{18}, F_{2}, e_{3}, B_{2} \end{matrix}\};

γ_{97^{'}} = \{\begin{matrix} B_{2}, e_{2}, M_{2}, e_{11}, B_{3}, e_{18}, F_{2}, e_{27}, M_{3}, e_{15}, T_{2}, e_{16}, F_{3}, e_{22}, T_{3} \end{matrix}\};

γ_{98^{'}} = \{\begin{matrix} B_{3}, e_{11}, M_{2}, e_{2}, B_{2}, e_{3}, F_{2}, e_{27}, M_{3}, e_{15}, T_{2}, e_{16}, F_{3}, e_{22}, T_{3} \end{matrix}\};

γ_{99^{'}} = \{\begin{matrix} B_{2}, e_{2}, M_{2}, e_{11}, B_{3}, e_{18}, F_{2}, e_{27}, M_{3}, e_{19}, T_{3}, e_{22}, F_{3}, e_{16}, T_{2} \end{matrix}\};

γ_{100^{'}} = \{\begin{matrix} B_{3}, e_{11}, M_{2}, e_{2}, B_{2}, e_{3}, F_{2}, e_{27}, M_{3}, e_{19}, T_{3}, e_{22}, F_{3}, e_{16}, T_{2} \end{matrix}\};

γ_{101^{'}} = \{\begin{matrix} B_{2}, e_{2}, M_{2}, e_{11}, B_{3}, e_{12}, F_{3}, e_{23}, M_{3}, e_{15}, T_{2}, e_{4}, F_{2}, e_{17}, T_{3} \end{matrix}\};

γ_{102^{'}} = \{\begin{matrix} B_{3}, e_{11}, M_{2}, e_{2}, B_{2}, e_{14}, F_{3}, e_{23}, M_{3}, e_{15}, T_{2}, e_{4}, F_{2}, e_{17}, T_{3} \end{matrix}\};

γ_{103^{'}} = \{\begin{matrix} B_{2}, e_{2}, M_{2}, e_{11}, B_{3}, e_{12}, F_{3}, e_{23}, M_{3}, e_{19}, T_{3}, e_{17}, F_{2}, e_{4}, T_{2} \end{matrix}\};

γ_{104^{'}} = \{\begin{matrix} B_{3}, e_{11}, M_{2}, e_{2}, B_{2}, e_{14}, F_{3}, e_{23}, M_{3}, e_{19}, T_{3}, e_{17}, F_{2}, e_{4}, T_{2} \end{matrix}\};

γ_{105^{'}} = \{\begin{matrix} B_{2}, e_{12}, M_{3}, e_{20}, B_{3}, e_{18}, F_{2}, e_{9}, M_{2}, e_{1}, T_{2}, e_{16}, F_{3}, e_{22}, T_{3} \end{matrix}\};

γ_{106^{'}} = \{\begin{matrix} B_{3}, e_{20}, M_{3}, e_{12}, B_{2}, e_{3}, F_{2}, e_{9}, M_{2}, e_{1}, T_{2}, e_{16}, F_{3}, e_{22}, T_{3} \end{matrix}\};

γ_{107^{'}} = \{\begin{matrix} B_{2}, e_{12}, M_{3}, e_{20}, B_{3}, e_{18}, F_{2}, e_{9}, M_{2}, e_{10}, T_{3}, e_{22}, F_{3}, e_{16}, T_{2} \end{matrix}\};

γ_{108^{'}} = \{\begin{matrix} B_{3}, e_{20}, M_{3}, e_{12}, B_{2}, e_{3}, F_{2}, e_{9}, M_{2}, e_{10}, T_{3}, e_{22}, F_{3}, e_{16}, T_{2} \end{matrix}\};

γ_{109^{'}} = \{\begin{matrix} B_{2}, e_{12}, M_{3}, e_{20}, B_{3}, e_{21}, F_{3}, e_{25}, M_{2}, e_{1}, T_{2}, e_{4}, F_{2}, e_{17}, T_{3} \end{matrix}\};

γ_{110^{'}} = \{\begin{matrix} B_{3}, e_{20}, M_{3}, e_{12}, B_{2}, e_{14}, F_{3}, e_{25}, M_{2}, e_{1}, T_{2}, e_{4}, F_{2}, e_{17}, T_{3} \end{matrix}\};

γ_{111^{'}} = \{\begin{matrix} B_{2}, e_{12}, M_{3}, e_{20}, B_{3}, e_{21}, F_{3}, e_{25}, M_{2}, e_{10}, T_{3}, e_{17}, F_{2}, e_{4}, T_{2} \end{matrix}\};

γ_{112^{'}} = \{\begin{matrix} B_{3}, e_{20}, M_{3}, e_{12}, B_{2}, e_{14}, F_{3}, e_{25}, M_{2}, e_{10}, T_{3}, e_{17}, F_{2}, e_{4}, T_{2} \end{matrix}\};

γ_{113^{'}} = \{\begin{matrix} B_{2}, e_{2}, M_{2}, e_{11}, B_{3}, e_{28}, T_{2}, e_{15}, M_{3}, e_{27}, F_{2}, e_{17}, T_{3}, e_{22}, F_{3} \end{matrix}\};

γ_{114^{'}} = \{\begin{matrix} B_{3}, e_{11}, M_{2}, e_{2}, B_{2}, e_{13}, T_{2}, e_{15}, M_{3}, e_{27}, F_{2}, e_{17}, T_{3}, e_{22}, F_{3} \end{matrix}\};

γ_{115^{'}} = \{\begin{matrix} B_{2}, e_{2}, M_{2}, e_{11}, B_{3}, e_{28}, T_{2}, e_{15}, M_{3}, e_{23}, F_{3}, e_{22}, T_{3}, e_{17}, F_{2} \end{matrix}\};

γ_{116 o^{'}} = \{\begin{matrix} B_{3}, e_{11}, M_{2}, e_{2}, B_{2}, e_{13}, T_{2}, e_{15}, M_{3}, e_{23}, F_{3}, e_{22}, T_{3}, e_{17}, F_{2} \end{matrix}\};

γ_{117^{'}} = \{\begin{matrix} B_{2}, e_{2}, M_{2}, e_{11}, B_{3}, e_{24}, T_{3}, e_{19}, M_{3}, e_{27}, F_{2}, e_{4}, T_{2}, e_{16}, F_{3} \end{matrix}\};

γ_{118^{'}} = \{\begin{matrix} B_{3}, e_{11}, M_{2}, e_{2}, B_{2}, e_{26}, T_{3}, e_{19}, M_{3}, e_{27}, F_{2}, e_{4}, T_{2}, e_{16}, F_{3} \end{matrix}\};

γ_{119^{'}} = \{\begin{matrix} B_{2}, e_{2}, M_{2}, e_{11}, B_{3}, e_{24}, T_{3}, e_{19}, M_{3}, e_{23}, F_{3}, e_{16}, T_{2}, e_{4}, F_{2} \end{matrix}\};

γ_{120^{'}} = \{\begin{matrix} B_{3}, e_{11}, M_{2}, e_{2}, B_{2}, e_{26}, T_{3}, e_{19}, M_{3}, e_{23}, F_{3}, e_{16}, T_{2}, e_{4}, F_{2} \end{matrix}\};

γ_{121^{'}} = \{\begin{matrix} B_{2}, e_{12}, M_{3}, e_{20}, B_{3}, e_{28}, T_{2}, e_{1}, M_{2}, e_{9}, F_{2}, e_{17}, T_{3}, e_{22}, F_{3} \end{matrix}\};

γ_{122^{'}} = \{\begin{matrix} B_{3}, e_{20}, M_{3}, e_{12}, B_{2}, e_{13}, T_{2}, e_{1}, M_{2}, e_{9}, F_{2}, e_{17}, T_{3}, e_{22}, F_{3} \end{matrix}\};

γ_{123^{'}} = \{\begin{matrix} B_{2}, e_{12}, M_{3}, e_{20}, B_{3}, e_{28}, T_{2}, e_{1}, M_{2}, e_{25}, F_{3}, e_{22}, T_{3}, e_{17}, F_{2} \end{matrix}\};

γ_{124^{'}} = \{\begin{matrix} B_{3}, e_{20}, M_{3}, e_{12}, B_{2}, e_{13}, T_{2}, e_{1}, M_{2}, e_{25}, F_{3}, e_{22}, T_{3}, e_{17}, F_{2} \end{matrix}\};

γ_{125^{'}} = \{\begin{matrix} B_{2}, e_{12}, M_{3}, e_{20}, B_{3}, e_{24}, T_{3}, e_{10}, M_{2}, e_{9}, F_{2}, e_{4}, T_{2}, e_{16}, F_{3} \end{matrix}\};

γ_{126^{'}} = \{\begin{matrix} B_{3}, e_{20}, M_{3}, e_{12}, B_{2}, e_{26}, T_{3}, e_{10}, M_{2}, e_{9}, F_{2}, e_{4}, T_{2}, e_{16}, F_{3} \end{matrix}\};

γ_{127^{'}} = \{\begin{matrix} B_{2}, e_{12}, M_{3}, e_{20}, B_{3}, e_{24}, T_{3}, e_{10}, M_{2}, e_{25}, F_{3}, e_{16}, T_{2}, e_{4}, F_{2} \end{matrix}\};

γ_{128^{'}} = \{\begin{matrix} B_{3}, e_{20}, M_{3}, e_{12}, B_{2}, e_{26}, T_{3}, e_{10}, M_{2}, e_{25}, F_{3}, e_{16}, T_{2}, e_{4}, F_{2} \end{matrix}\};

γ_{129^{'}} = \{\begin{matrix} B_{2}, e_{3}, F_{2}, e_{18}, B_{3}, e_{11}, M_{2}, e_{25}, F_{3}, e_{16}, T_{2}, e_{15}, M_{3}, e_{19}, T_{3} \end{matrix}\};

γ_{130^{'}} = \{\begin{matrix} B_{3}, e_{18}, F_{2}, e_{3}, B_{2}, e_{2}, M_{2}, e_{25}, F_{3}, e_{16}, T_{2}, e_{15}, M_{3}, e_{19}, T_{3} \end{matrix}\};

γ_{131^{'}} = \{\begin{matrix} B_{2}, e_{3}, F_{2}, e_{18}, B_{3}, e_{11}, M_{2}, e_{25}, F_{3}, e_{22}, T_{3}, e_{19}, M_{3}, e_{15}, T_{2} \end{matrix}\};

γ_{132^{'}} = \{\begin{matrix} B_{3}, e_{18}, F_{2}, e_{3}, B_{2}, e_{2}, M_{2}, e_{25}, F_{3}, e_{22}, T_{3}, e_{19}, M_{3}, e_{15}, T_{2} \end{matrix}\};

γ_{133^{'}} = \{\begin{matrix} B_{2}, e_{3}, F_{2}, e_{18}, B_{3}, e_{20}, M_{3}, e_{23}, F_{3}, e_{16}, T_{2}, e_{1}, M_{2}, e_{10}, T_{3} \end{matrix}\};

γ_{134^{'}} = \{\begin{matrix} B_{3}, e_{18}, F_{2}, e_{3}, B_{2}, e_{12}, M_{3}, e_{23}, F_{3}, e_{16}, T_{2}, e_{1}, M_{2}, e_{10}, T_{3} \end{matrix}\};

γ_{135^{'}} = \{\begin{matrix} B_{2}, e_{3}, F_{2}, e_{18}, B_{3}, e_{20}, M_{3}, e_{23}, F_{3}, e_{22}, T_{3}, e_{10}, M_{2}, e_{1}, T_{2} \end{matrix}\};

γ_{136^{'}} = \{\begin{matrix} B_{3}, e_{18}, F_{2}, e_{3}, B_{2}, e_{12}, M_{3}, e_{23}, F_{3}, e_{22}, T_{3}, e_{10}, M_{2}, e_{1}, T_{2} \end{matrix}\};

γ_{137^{'}} = \{\begin{matrix} B_{2}, e_{14}, F_{3}, e_{21}, B_{3}, e_{11}, M_{2}, e_{9}, F_{2}, e_{4}, T_{2}, e_{15}, M_{3}, e_{19}, T_{3} \end{matrix}\};

γ_{138^{'}} = \{\begin{matrix} B_{3}, e_{21}, F_{3}, e_{14}, B_{2}, e_{2}, M_{2}, e_{9}, F_{2}, e_{4}, T_{2}, e_{15}, M_{3}, e_{19}, T_{3} \end{matrix}\};

γ_{139^{'}} = \{\begin{matrix} B_{2}, e_{14}, F_{3}, e_{21}, B_{3}, e_{11}, M_{2}, e_{9}, F_{2}, e_{17}, T_{3}, e_{19}, M_{3}, e_{15}, T_{2} \end{matrix}\};

γ_{140^{'}} = \{\begin{matrix} B_{3}, e_{21}, F_{3}, e_{14}, B_{2}, e_{2}, M_{2}, e_{9}, F_{2}, e_{17}, T_{3}, e_{19}, M_{3}, e_{15}, T_{2} \end{matrix}\};

γ_{141^{'}} = \{\begin{matrix} B_{2}, e_{14}, F_{3}, e_{21}, B_{3}, e_{20}, M_{3}, e_{27}, F_{2}, e_{4}, T_{2}, e_{1}, M_{2}, e_{10}, T_{3} \end{matrix}\};

γ_{142^{'}} = \{\begin{matrix} B_{3}, e_{21}, F_{3}, e_{14}, B_{2}, e_{12}, M_{3}, e_{27}, F_{2}, e_{4}, T_{2}, e_{1}, M_{2}, e_{10}, T_{3} \end{matrix}\};

γ_{143^{'}} = \{\begin{matrix} B_{2}, e_{14}, F_{3}, e_{21}, B_{3}, e_{20}, M_{3}, e_{27}, F_{2}, e_{17}, T_{3}, e_{10}, M_{2}, e_{1}, T_{2} \end{matrix}\};

γ_{144^{'}} = \{\begin{matrix} B_{3}, e_{21}, F_{3}, e_{14}, B_{2}, e_{12}, M_{3}, e_{27}, F_{2}, e_{17}, T_{3}, e_{10}, M_{2}, e_{1}, T_{2} \end{matrix}\};

γ_{145^{'}} = \{\begin{matrix} B_{2}, e_{3}, F_{2}, e_{18}, B_{3}, e_{28}, T_{2}, e_{16}, F_{3}, e_{25}, M_{2}, e_{10}, T_{3}, e_{19}, M_{3} \end{matrix}\};

γ_{146^{'}} = \{\begin{matrix} B_{3}, e_{18}, F_{2}, e_{3}, B_{2}, e_{13}, T_{2}, e_{16}, F_{3}, e_{25}, M_{2}, e_{10}, T_{3}, e_{19}, M_{3} \end{matrix}\};

γ_{147^{'}} = \{\begin{matrix} B_{2}, e_{3}, F_{2}, e_{18}, B_{3}, e_{28}, T_{2}, e_{16}, F_{3}, e_{23}, M_{3}, e_{19}, T_{3}, e_{10}, M_{2} \end{matrix}\};

γ_{148^{'}} = \{\begin{matrix} B_{3}, e_{18}, F_{2}, e_{3}, B_{2}, e_{13}, T_{2}, e_{16}, F_{3}, e_{23}, M_{3}, e_{19}, T_{3}, e_{10}, M_{2} \end{matrix}\};

γ_{149^{'}} = \{\begin{matrix} B_{2}, e_{3}, F_{2}, e_{18}, B_{3}, e_{24}, T_{3}, e_{22}, F_{3}, e_{25}, M_{2}, e_{1}, T_{2}, e_{15}, M_{3} \end{matrix}\};

γ_{150^{'}} = \{\begin{matrix} B_{3}, e_{18}, F_{2}, e_{3}, B_{2}, e_{26}, T_{3}, e_{22}, F_{3}, e_{25}, M_{2}, e_{1}, T_{2}, e_{15}, M_{3} \end{matrix}\};

γ_{151^{'}} = \{\begin{matrix} B_{2}, e_{3}, F_{2}, e_{18}, B_{3}, e_{24}, T_{3}, e_{22}, F_{3}, e_{23}, M_{3}, e_{15}, T_{2}, e_{1}, M_{2} \end{matrix}\};

γ_{152^{'}} = \{\begin{matrix} B_{3}, e_{18}, F_{2}, e_{3}, B_{2}, e_{26}, T_{3}, e_{22}, F_{3}, e_{23}, M_{3}, e_{15}, T_{2}, e_{1}, M_{2} \end{matrix}\};

γ_{153^{'}} = \{\begin{matrix} B_{2}, e_{14}, F_{3}, e_{21}, B_{3}, e_{28}, T_{2}, e_{4}, F_{2}, e_{9}, M_{2}, e_{10}, T_{3}, e_{19}, M_{3} \end{matrix}\};

γ_{154^{'}} = \{\begin{matrix} B_{3}, e_{21}, F_{3}, e_{14}, B_{2}, e_{13}, T_{2}, e_{4}, F_{2}, e_{9}, M_{2}, e_{10}, T_{3}, e_{19}, M_{3} \end{matrix}\};

γ_{155^{'}} = \{\begin{matrix} B_{2}, e_{14}, F_{3}, e_{21}, B_{3}, e_{28}, T_{2}, e_{4}, F_{2}, e_{27}, M_{3}, e_{19}, T_{3}, e_{10}, M_{2} \end{matrix}\};

γ_{156^{'}} = \{\begin{matrix} B_{3}, e_{21}, F_{3}, e_{14}, B_{2}, e_{13}, T_{2}, e_{4}, F_{2}, e_{27}, M_{3}, e_{19}, T_{3}, e_{10}, M_{2} \end{matrix}\};

γ_{157^{'}} = \{\begin{matrix} B_{2}, e_{14}, F_{3}, e_{21}, B_{3}, e_{24}, T_{3}, e_{17}, F_{2}, e_{9}, M_{2}, e_{1}, T_{2}, e_{15}, M_{3} \end{matrix}\};

γ_{158^{'}} = \{\begin{matrix} B_{3}, e_{21}, F_{3}, e_{14}, B_{2}, e_{26}, T_{3}, e_{17}, F_{2}, e_{9}, M_{2}, e_{1}, T_{2}, e_{15}, M_{3} \end{matrix}\};

γ_{159^{'}} = \{\begin{matrix} B_{2}, e_{14}, F_{3}, e_{21}, B_{3}, e_{24}, T_{3}, e_{17}, F_{2}, e_{27}, M_{3}, e_{15}, T_{2}, e_{1}, M_{2} \end{matrix}\};

γ_{160^{'}} = \{\begin{matrix} B_{3}, e_{21}, F_{3}, e_{14}, B_{2}, e_{26}, T_{3}, e_{17}, F_{2}, e_{27}, M_{3}, e_{15}, T_{2}, e_{1}, M_{2} \end{matrix}\};

γ_{161^{'}} = \{\begin{matrix} B_{2}, e_{13}, T_{2}, e_{28}, B_{3}, e_{11}, M_{2}, e_{10}, T_{3}, e_{17}, F_{2}, e_{27}, M_{3}, e_{23}, F_{3} \end{matrix}\};

γ_{162^{'}} = \{\begin{matrix} B_{3}, e_{28}, T_{2}, e_{13}, B_{2}, e_{2}, M_{2}, e_{10}, T_{3}, e_{17}, F_{2}, e_{27}, M_{3}, e_{23}, F_{3} \end{matrix}\};

γ_{163^{'}} = \{\begin{matrix} B_{2}, e_{13}, T_{2}, e_{28}, B_{3}, e_{11}, M_{2}, e_{10}, T_{3}, e_{22}, F_{3}, e_{23}, M_{3}, e_{27}, F_{2} \end{matrix}\};

γ_{164^{'}} = \{\begin{matrix} B_{3}, e_{28}, T_{2}, e_{13}, B_{2}, e_{2}, M_{2}, e_{10}, T_{3}, e_{22}, F_{3}, e_{23}, M_{3}, e_{27}, F_{2} \end{matrix}\};

γ_{165^{'}} = \{\begin{matrix} B_{2}, e_{13}, T_{2}, e_{28}, B_{3}, e_{20}, M_{3}, e_{19}, T_{3}, e_{17}, F_{2}, e_{9}, M_{2}, e_{25}, F_{3} \end{matrix}\};

γ_{166^{'}} = \{\begin{matrix} B_{3}, e_{28}, T_{2}, e_{13}, B_{2}, e_{12}, M_{3}, e_{19}, T_{3}, e_{17}, F_{2}, e_{9}, M_{2}, e_{25}, F_{3} \end{matrix}\};

γ_{167^{'}} = \{\begin{matrix} B_{2}, e_{13}, T_{2}, e_{28}, B_{3}, e_{20}, M_{3}, e_{19}, T_{3}, e_{22}, F_{3}, e_{25}, M_{2}, e_{9}, F_{2} \end{matrix}\};

γ_{168^{'}} = \{\begin{matrix} B_{3}, e_{28}, T_{2}, e_{13}, B_{2}, e_{12}, M_{3}, e_{19}, T_{3}, e_{22}, F_{3}, e_{25}, M_{2}, e_{9}, F_{2} \end{matrix}\};

γ_{169^{'}} = \{\begin{matrix} B_{2}, e_{26}, T_{3}, e_{24}, B_{3}, e_{11}, M_{2}, e_{10}, T_{3}, e_{17}, F_{2}, e_{27}, M_{3}, e_{23}, F_{3} \end{matrix}\};

γ_{170^{'}} = \{\begin{matrix} B_{3}, e_{24}, T_{3}, e_{26}, B_{2}, e_{2}, M_{2}, e_{10}, T_{3}, e_{17}, F_{2}, e_{27}, M_{3}, e_{23}, F_{3} \end{matrix}\};

γ_{171^{'}} = \{\begin{matrix} B_{2}, e_{26}, T_{3}, e_{24}, B_{3}, e_{11}, M_{2}, e_{10}, T_{3}, e_{22}, F_{3}, e_{23}, M_{3}, e_{27}, F_{2} \end{matrix}\};

γ_{172^{'}} = \{\begin{matrix} B_{3}, e_{24}, T_{3}, e_{26}, B_{2}, e_{2}, M_{2}, e_{10}, T_{3}, e_{22}, F_{3}, e_{23}, M_{3}, e_{27}, F_{2} \end{matrix}\};

γ_{173^{'}} = \{\begin{matrix} B_{2}, e_{26}, T_{3}, e_{24}, B_{3}, e_{20}, M_{3}, e_{19}, T_{3}, e_{17}, F_{2}, e_{9}, M_{2}, e_{25}, F_{3} \end{matrix}\};

γ_{174^{'}} = \{\begin{matrix} B_{3}, e_{24}, T_{3}, e_{26}, B_{2}, e_{12}, M_{3}, e_{19}, T_{3}, e_{17}, F_{2}, e_{9}, M_{2}, e_{25}, F_{3} \end{matrix}\};

γ_{175^{'}} = \{\begin{matrix} B_{2}, e_{26}, T_{3}, e_{24}, B_{3}, e_{20}, M_{3}, e_{19}, T_{3}, e_{22}, F_{3}, e_{25}, M_{2}, e_{9}, F_{2} \end{matrix}\};

γ_{176^{'}} = \{\begin{matrix} B_{3}, e_{24}, T_{3}, e_{26}, B_{2}, e_{12}, M_{3}, e_{19}, T_{3}, e_{22}, F_{3}, e_{25}, M_{2}, e_{9}, F_{2} \end{matrix}\};

γ_{177^{'}} = \{\begin{matrix} B_{2}, e_{13}, T_{2}, e_{28}, B_{3}, e_{18}, F_{2}, e_{17}, T_{3}, e_{10}, M_{2}, e_{25}, F_{3}, e_{23}, M_{3} \end{matrix}\};

γ_{178^{'}} = \{\begin{matrix} B_{3}, e_{28}, T_{2}, e_{13}, B_{2}, e_{3}, F_{2}, e_{17}, T_{3}, e_{10}, M_{2}, e_{25}, F_{3}, e_{23}, M_{3} \end{matrix}\};

γ_{179^{'}} = \{\begin{matrix} B_{2}, e_{13}, T_{2}, e_{28}, B_{3}, e_{18}, F_{2}, e_{17}, T_{3}, e_{19}, M_{3}, e_{23}, F_{3}, e_{25}, M_{2} \end{matrix}\};

γ_{180^{'}} = \{\begin{matrix} B_{3}, e_{28}, T_{2}, e_{13}, B_{2}, e_{3}, F_{2}, e_{17}, T_{3}, e_{19}, M_{3}, e_{23}, F_{3}, e_{25}, M_{2} \end{matrix}\};

γ_{181^{'}} = \{\begin{matrix} B_{2}, e_{13}, T_{2}, e_{28}, B_{3}, e_{21}, F_{3}, e_{22}, T_{3}, e_{10}, M_{2}, e_{9}, F_{2}, e_{27}, M_{3} \end{matrix}\};

γ_{182^{'}} = \{\begin{matrix} B_{3}, e_{28}, T_{2}, e_{13}, B_{2}, e_{14}, F_{3}, e_{22}, T_{3}, e_{10}, M_{2}, e_{9}, F_{2}, e_{27}, M_{3} \end{matrix}\};

γ_{183^{'}} = \{\begin{matrix} B_{2}, e_{13}, T_{2}, e_{28}, B_{3}, e_{21}, F_{3}, e_{22}, T_{3}, e_{19}, M_{3}, e_{27}, F_{2}, e_{9}, M_{2} \end{matrix}\};

γ_{184^{'}} = \{\begin{matrix} B_{3}, e_{28}, T_{2}, e_{13}, B_{2}, e_{14}, F_{3}, e_{22}, T_{3}, e_{19}, M_{3}, e_{27}, F_{2}, e_{9}, M_{2} \end{matrix}\};

γ_{185^{'}} = \{\begin{matrix} B_{2}, e_{26}, T_{3}, e_{24}, B_{3}, e_{18}, F_{2}, e_{4}, T_{2}, e_{1}, M_{2}, e_{25}, F_{3}, e_{23}, M_{3} \end{matrix}\};

γ_{186^{'}} = \{\begin{matrix} B_{3}, e_{24}, T_{3}, e_{26}, B_{2}, e_{3}, F_{2}, e_{4}, T_{2}, e_{1}, M_{2}, e_{25}, F_{3}, e_{23}, M_{3} \end{matrix}\};

γ_{187^{'}} = \{\begin{matrix} B_{2}, e_{26}, T_{3}, e_{24}, B_{3}, e_{18}, F_{2}, e_{4}, T_{2}, e_{15}, M_{3}, e_{23}, F_{3}, e_{25}, M_{2} \end{matrix}\};

γ_{188^{'}} = \{\begin{matrix} B_{3}, e_{24}, T_{3}, e_{26}, B_{2}, e_{3}, F_{2}, e_{4}, T_{2}, e_{15}, M_{3}, e_{23}, F_{3}, e_{25}, M_{2} \end{matrix}\};

γ_{189^{'}} = \{\begin{matrix} B_{2}, e_{26}, T_{3}, e_{24}, B_{3}, e_{21}, F_{3}, e_{16}, T_{2}, e_{1}, M_{2}, e_{9}, F_{2}, e_{27}, M_{3} \end{matrix}\};

γ_{190^{'}} = \{\begin{matrix} B_{3}, e_{24}, T_{3}, e_{26}, B_{2}, e_{14}, F_{3}, e_{16}, T_{2}, e_{1}, M_{2}, e_{9}, F_{2}, e_{27}, M_{3} \end{matrix}\};

γ_{191^{'}} = \{\begin{matrix} B_{2}, e_{26}, T_{3}, e_{24}, B_{3}, e_{21}, F_{3}, e_{16}, T_{2}, e_{15}, M_{3}, e_{27}, F_{2}, e_{9}, M_{2} \end{matrix}\};

γ_{192^{'}} = \{\begin{matrix} B_{3}, e_{24}, T_{3}, e_{26}, B_{2}, e_{14}, F_{3}, e_{16}, T_{2}, e_{15}, M_{3}, e_{27}, F_{2}, e_{9}, M_{2} \end{matrix}\};

γ_{193^{'}} = \{\begin{matrix} F_{2}, e_{9}, M_{2}, e_{25}, F_{3}, e_{14}, B_{2}, e_{12}, M_{3}, e_{15}, T_{2}, e_{28}, B_{3}, e_{24}, T_{3} \end{matrix}\};

γ_{194^{'}} = \{\begin{matrix} F_{3}, e_{25}, M_{2}, e_{9}, F_{2}, e_{3}, B_{2}, e_{12}, M_{3}, e_{15}, T_{2}, e_{28}, B_{3}, e_{24}, T_{3} \end{matrix}\};

γ_{195^{'}} = \{\begin{matrix} F_{2}, e_{9}, M_{2}, e_{25}, F_{3}, e_{14}, B_{2}, e_{12}, M_{3}, e_{19}, T_{3}, e_{24}, B_{3}, e_{28}, T_{2} \end{matrix}\};

γ_{196^{'}} = \{\begin{matrix} F_{3}, e_{25}, M_{2}, e_{9}, F_{2}, e_{3}, B_{2}, e_{12}, M_{3}, e_{19}, T_{3}, e_{24}, B_{3}, e_{28}, T_{2} \end{matrix}\};

γ_{197^{'}} = \{\begin{matrix} F_{2}, e_{9}, M_{2}, e_{25}, F_{3}, e_{21}, B_{3}, e_{20}, M_{3}, e_{15}, T_{2}, e_{13}, B_{2}, e_{26}, T_{3} \end{matrix}\};

γ_{198^{'}} = \{\begin{matrix} F_{3}, e_{25}, M_{2}, e_{9}, F_{2}, e_{18}, B_{3}, e_{20}, M_{3}, e_{15}, T_{2}, e_{13}, B_{2}, e_{26}, T_{3} \end{matrix}\};

γ_{199^{'}} = \{\begin{matrix} F_{2}, e_{9}, M_{2}, e_{25}, F_{3}, e_{21}, B_{3}, e_{20}, M_{3}, e_{19}, T_{3}, e_{26}, B_{2}, e_{13}, T_{2} \end{matrix}\};

γ_{200^{'}} = \{\begin{matrix} F_{3}, e_{25}, M_{2}, e_{9}, F_{2}, e_{18}, B_{3}, e_{20}, M_{3}, e_{19}, T_{3}, e_{26}, B_{2}, e_{13}, T_{2} \end{matrix}\};

γ_{201^{'}} = \{\begin{matrix} F_{2}, e_{27}, M_{3}, e_{23}, F_{3}, e_{14}, B_{2}, e_{2}, M_{2}, e_{1}, T_{2}, e_{28}, B_{3}, e_{24}, T_{3} \end{matrix}\};

γ_{202^{'}} = \{\begin{matrix} F_{3}, e_{23}, M_{3}, e_{27}, F_{2}, e_{3}, B_{2}, e_{2}, M_{2}, e_{1}, T_{2}, e_{28}, B_{3}, e_{24}, T_{3} \end{matrix}\};

γ_{203^{'}} = \{\begin{matrix} F_{2}, e_{27}, M_{3}, e_{23}, F_{3}, e_{14}, B_{2}, e_{2}, M_{2}, e_{10}, T_{3}, e_{24}, B_{3}, e_{28}, T_{2} \end{matrix}\};

γ_{204^{'}} = \{\begin{matrix} F_{3}, e_{23}, M_{3}, e_{27}, F_{2}, e_{3}, B_{2}, e_{2}, M_{2}, e_{10}, T_{3}, e_{24}, B_{3}, e_{28}, T_{2} \end{matrix}\};

γ_{205^{'}} = \{\begin{matrix} F_{2}, e_{27}, M_{3}, e_{23}, F_{3}, e_{21}, B_{3}, e_{11}, M_{2}, e_{1}, T_{2}, e_{13}, B_{2}, e_{26}, T_{3} \end{matrix}\};

γ_{206^{'}} = \{\begin{matrix} F_{3}, e_{23}, M_{3}, e_{27}, F_{2}, e_{18}, B_{3}, e_{11}, M_{2}, e_{1}, T_{2}, e_{13}, B_{2}, e_{26}, T_{3} \end{matrix}\};

γ_{207^{'}} = \{\begin{matrix} F_{2}, e_{27}, M_{3}, e_{23}, F_{3}, e_{21}, B_{3}, e_{11}, M_{2}, e_{10}, T_{3}, e_{26}, B_{2}, e_{13}, T_{2} \end{matrix}\};

γ_{208^{'}} = \{\begin{matrix} F_{3}, e_{23}, M_{3}, e_{27}, F_{2}, e_{18}, B_{3}, e_{11}, M_{2}, e_{10}, T_{3}, e_{26}, B_{2}, e_{13}, T_{2} \end{matrix}\};

γ_{209^{'}} = \{\begin{matrix} F_{2}, e_{9}, M_{2}, e_{25}, F_{3}, e_{16}, T_{2}, e_{15}, M_{3}, e_{12}, B_{2}, e_{26}, T_{3}, e_{24}, B_{3} \end{matrix}\};

γ_{210^{'}} = \{\begin{matrix} F_{3}, e_{25}, M_{2}, e_{9}, F_{2}, e_{4}, T_{2}, e_{15}, M_{3}, e_{12}, B_{2}, e_{26}, T_{3}, e_{24}, B_{3} \end{matrix}\};

γ_{211^{'}} = \{\begin{matrix} F_{2}, e_{9}, M_{2}, e_{25}, F_{3}, e_{16}, T_{2}, e_{15}, M_{3}, e_{20}, B_{3}, e_{24}, T_{3}, e_{26}, B_{2} \end{matrix}\};

γ_{212^{'}} = \{\begin{matrix} F_{3}, e_{25}, M_{2}, e_{9}, F_{2}, e_{4}, T_{2}, e_{15}, M_{3}, e_{20}, B_{3}, e_{24}, T_{3}, e_{26}, B_{2} \end{matrix}\};

γ_{213^{'}} = \{\begin{matrix} F_{2}, e_{9}, M_{2}, e_{25}, F_{3}, e_{22}, T_{3}, e_{19}, M_{3}, e_{12}, B_{2}, e_{13}, T_{2}, e_{28}, B_{3} \end{matrix}\};

γ_{214^{'}} = \{\begin{matrix} F_{3}, e_{25}, M_{2}, e_{9}, F_{2}, e_{17}, T_{3}, e_{19}, M_{3}, e_{12}, B_{2}, e_{13}, T_{2}, e_{28}, B_{3} \end{matrix}\};

γ_{215^{'}} = \{\begin{matrix} F_{2}, e_{9}, M_{2}, e_{25}, F_{3}, e_{22}, T_{3}, e_{19}, M_{3}, e_{20}, B_{3}, e_{28}, T_{2}, e_{13}, B_{2} \end{matrix}\};

γ_{216^{'}} = \{\begin{matrix} F_{3}, e_{25}, M_{2}, e_{9}, F_{2}, e_{17}, T_{3}, e_{19}, M_{3}, e_{20}, B_{3}, e_{28}, T_{2}, e_{13}, B_{2} \end{matrix}\};

γ_{217^{'}} = \{\begin{matrix} F_{2}, e_{27}, M_{3}, e_{23}, F_{3}, e_{16}, T_{2}, e_{1}, M_{2}, e_{2}, B_{2}, e_{26}, T_{3}, e_{24}, B_{3} \end{matrix}\};

γ_{218^{'}} = \{\begin{matrix} F_{3}, e_{23}, M_{3}, e_{27}, F_{2}, e_{4}, T_{2}, e_{1}, M_{2}, e_{2}, B_{2}, e_{26}, T_{3}, e_{24}, B_{3} \end{matrix}\};

γ_{219^{'}} = \{\begin{matrix} F_{2}, e_{27}, M_{3}, e_{23}, F_{3}, e_{16}, T_{2}, e_{1}, M_{2}, e_{11}, B_{3}, e_{24}, T_{3}, e_{26}, B_{2} \end{matrix}\};

γ_{220^{'}} = \{\begin{matrix} F_{3}, e_{23}, M_{3}, e_{27}, F_{2}, e_{4}, T_{2}, e_{1}, M_{2}, e_{11}, B_{3}, e_{24}, T_{3}, e_{26}, B_{2} \end{matrix}\};

γ_{221^{'}} = \{\begin{matrix} F_{2}, e_{27}, M_{3}, e_{23}, F_{3}, e_{22}, T_{3}, e_{10}, M_{2}, e_{2}, B_{2}, e_{13}, T_{2}, e_{28}, B_{3} \end{matrix}\};

γ_{222^{'}} = \{\begin{matrix} F_{3}, e_{23}, M_{3}, e_{27}, F_{2}, e_{17}, T_{3}, e_{10}, M_{2}, e_{2}, B_{2}, e_{13}, T_{2}, e_{28}, B_{3} \end{matrix}\};

γ_{223^{'}} = \{\begin{matrix} F_{2}, e_{27}, M_{3}, e_{23}, F_{3}, e_{22}, T_{3}, e_{10}, M_{2}, e_{11}, B_{3}, e_{28}, T_{2}, e_{13}, B_{2} \end{matrix}\};

γ_{224^{'}} = \{\begin{matrix} F_{3}, e_{23}, M_{3}, e_{27}, F_{2}, e_{17}, T_{3}, e_{10}, M_{2}, e_{11}, B_{3}, e_{28}, T_{2}, e_{13}, B_{2} \end{matrix}\};

γ_{225^{'}} = \{\begin{matrix} F_{2}, e_{3}, B_{2}, e_{14}, F_{3}, e_{25}, M_{2}, e_{11}, B_{3}, e_{28}, T_{2}, e_{15}, M_{3}, e_{19}, T_{3} \end{matrix}\};

γ_{226^{'}} = \{\begin{matrix} F_{3}, e_{14}, B_{2}, e_{3}, F_{2}, e_{9}, M_{2}, e_{11}, B_{3}, e_{28}, T_{2}, e_{15}, M_{3}, e_{19}, T_{3} \end{matrix}\};

γ_{227^{'}} = \{\begin{matrix} F_{2}, e_{3}, B_{2}, e_{14}, F_{3}, e_{25}, M_{2}, e_{11}, B_{3}, e_{24}, T_{3}, e_{19}, M_{3}, e_{15}, T_{2} \end{matrix}\};

γ_{228^{'}} = \{\begin{matrix} F_{3}, e_{14}, B_{2}, e_{3}, F_{2}, e_{9}, M_{2}, e_{11}, B_{3}, e_{24}, T_{3}, e_{19}, M_{3}, e_{15}, T_{2} \end{matrix}\};

γ_{229^{'}} = \{\begin{matrix} F_{2}, e_{3}, B_{2}, e_{14}, F_{3}, e_{23}, M_{3}, e_{20}, B_{3}, e_{28}, T_{2}, e_{1}, M_{2}, e_{10}, T_{3} \end{matrix}\};

γ_{230^{'}} = \{\begin{matrix} F_{3}, e_{14}, B_{2}, e_{3}, F_{2}, e_{27}, M_{3}, e_{20}, B_{3}, e_{28}, T_{2}, e_{1}, M_{2}, e_{10}, T_{3} \end{matrix}\};

γ_{231^{'}} = \{\begin{matrix} F_{2}, e_{3}, B_{2}, e_{14}, F_{3}, e_{23}, M_{3}, e_{20}, B_{3}, e_{24}, T_{3}, e_{10}, M_{2}, e_{1}, T_{2} \end{matrix}\};

γ_{232^{'}} = \{\begin{matrix} F_{3}, e_{14}, B_{2}, e_{3}, F_{2}, e_{27}, M_{3}, e_{20}, B_{3}, e_{24}, T_{3}, e_{10}, M_{2}, e_{1}, T_{2} \end{matrix}\};

γ_{233^{'}} = \{\begin{matrix} F_{2}, e_{18}, B_{3}, e_{21}, F_{3}, e_{25}, M_{2}, e_{11}, B_{2}, e_{13}, T_{2}, e_{15}, M_{3}, e_{19}, T_{3} \end{matrix}\};

γ_{234^{'}} = \{\begin{matrix} F_{3}, e_{21}, B_{3}, e_{18}, F_{2}, e_{9}, M_{2}, e_{11}, B_{2}, e_{13}, T_{2}, e_{15}, M_{3}, e_{19}, T_{3} \end{matrix}\};

γ_{235^{'}} = \{\begin{matrix} F_{2}, e_{18}, B_{3}, e_{21}, F_{3}, e_{25}, M_{2}, e_{11}, B_{2}, e_{26}, T_{3}, e_{19}, M_{3}, e_{15}, T_{2} \end{matrix}\};

γ_{236^{'}} = \{\begin{matrix} F_{3}, e_{21}, B_{3}, e_{18}, F_{2}, e_{9}, M_{2}, e_{11}, B_{2}, e_{26}, T_{3}, e_{19}, M_{3}, e_{15}, T_{2} \end{matrix}\};

γ_{237^{'}} = \{\begin{matrix} F_{2}, e_{18}, B_{3}, e_{21}, F_{3}, e_{23}, M_{3}, e_{20}, B_{2}, e_{13}, T_{2}, e_{1}, M_{2}, e_{10}, T_{3} \end{matrix}\};

γ_{238^{'}} = \{\begin{matrix} F_{3}, e_{21}, B_{3}, e_{18}, F_{2}, e_{27}, M_{3}, e_{20}, B_{2}, e_{13}, T_{2}, e_{1}, M_{2}, e_{10}, T_{3} \end{matrix}\};

γ_{239^{'}} = \{\begin{matrix} F_{2}, e_{18}, B_{3}, e_{21}, F_{3}, e_{23}, M_{3}, e_{20}, B_{2}, e_{26}, T_{2}, e_{1}, M_{2}, e_{10}, T_{2} \end{matrix}\};

γ_{240^{'}} = \{\begin{matrix} F_{3}, e_{21}, B_{3}, e_{18}, F_{2}, e_{27}, M_{3}, e_{20}, B_{2}, e_{26}, T_{2}, e_{1}, M_{2}, e_{10}, T_{2} \end{matrix}\};

γ_{241^{'}} = \{\begin{matrix} F_{2}, e_{3}, B_{2}, e_{14}, F_{3}, e_{16}, T_{2}, e_{28}, B_{3}, e_{11}, M_{2}, e_{10}, T_{3}, e_{19}, M_{3} \end{matrix}\};

γ_{242^{'}} = \{\begin{matrix} F_{3}, e_{14}, B_{2}, e_{3}, F_{2}, e_{4}, T_{2}, e_{28}, B_{3}, e_{11}, M_{2}, e_{10}, T_{3}, e_{19}, M_{3} \end{matrix}\};

γ_{243^{'}} = \{\begin{matrix} F_{2}, e_{3}, B_{2}, e_{14}, F_{3}, e_{16}, T_{2}, e_{28}, B_{3}, e_{20}, M_{3}, e_{e_{19}}, T_{3}, e_{10}, M_{2} \end{matrix}\};

γ_{244^{'}} = \{\begin{matrix} F_{3}, e_{14}, B_{2}, e_{3}, F_{2}, e_{4}, T_{2}, e_{28}, B_{3}, e_{20}, M_{3}, e_{e_{19}}, T_{3}, e_{10}, M_{2} \end{matrix}\};

γ_{245^{'}} = \{\begin{matrix} F_{2}, e_{3}, B_{2}, e_{14}, F_{3}, e_{22}, T_{3}, e_{24}, B_{3}, e_{11}, M_{2}, e_{1}, T_{2}, e_{15}, M_{3} \end{matrix}\};

γ_{246^{'}} = \{\begin{matrix} F_{3}, e_{14}, B_{2}, e_{3}, F_{2}, e_{17}, T_{3}, e_{24}, B_{3}, e_{11}, M_{2}, e_{1}, T_{2}, e_{15}, M_{3} \end{matrix}\};

γ_{247^{'}} = \{\begin{matrix} F_{2}, e_{3}, B_{2}, e_{14}, F_{3}, e_{22}, T_{3}, e_{24}, B_{3}, e_{20}, M_{3}, e_{15}, T_{2}, e_{1}, M_{2} \end{matrix}\};

γ_{248^{'}} = \{\begin{matrix} F_{3}, e_{14}, B_{2}, e_{3}, F_{2}, e_{17}, T_{3}, e_{24}, B_{3}, e_{20}, M_{3}, e_{15}, T_{2}, e_{1}, M_{2} \end{matrix}\};

γ_{249^{'}} = \{\begin{matrix} F_{2}, e_{18}, B_{3}, e_{21}, F_{3}, e_{16}, T_{2}, e_{13}, B_{2}, e_{2}, M_{2}, e_{10}, T_{3}, e_{e_{19}}, M_{3} \end{matrix}\};

γ_{250^{'}} = \{\begin{matrix} F_{3}, e_{21}, B_{3}, e_{18}, F_{2}, e_{4}, T_{2}, e_{13}, B_{2}, e_{2}, M_{2}, e_{10}, T_{3}, e_{e_{19}}, M_{3} \end{matrix}\};

γ_{251^{'}} = \{\begin{matrix} F_{2}, e_{18}, B_{3}, e_{21}, F_{3}, e_{16}, T_{2}, e_{13}, B_{2}, e_{12}, M_{3}, e_{e_{19}}, T_{3}, e_{10}, M_{2} \end{matrix}\};

γ_{252^{'}} = \{\begin{matrix} F_{3}, e_{21}, B_{3}, e_{18}, F_{2}, e_{4}, T_{2}, e_{13}, B_{2}, e_{12}, M_{3}, e_{e_{19}}, T_{3}, e_{10}, M_{2} \end{matrix}\};

γ_{253^{'}} = \{\begin{matrix} F_{2}, e_{18}, B_{3}, e_{21}, F_{3}, e_{22}, T_{3}, e_{26}, B_{2}, e_{2}, M_{2}, e_{1}, T_{2}, e_{15}, M_{3} \end{matrix}\};

γ_{254^{'}} = \{\begin{matrix} F_{3}, e_{21}, B_{3}, e_{18}, F_{2}, e_{17}, T_{3}, e_{26}, B_{2}, e_{2}, M_{2}, e_{1}, T_{2}, e_{15}, M_{3} \end{matrix}\};

γ_{255^{'}} = \{\begin{matrix} F_{2}, e_{18}, B_{3}, e_{21}, F_{3}, e_{22}, T_{3}, e_{26}, B_{2}, e_{12}, M_{3}, e_{15}, T_{2}, e_{1}, M_{2} \end{matrix}\};

γ_{256^{'}} = \{\begin{matrix} F_{3}, e_{21}, B_{3}, e_{18} F_{2}, e_{17}, T_{3}, e_{26}, B_{2}, e_{12}, M_{3}, e_{15}, T_{2}, e_{1}, M_{2} \end{matrix}\};

γ_{257^{'}} = \{\begin{matrix} F_{2}, e_{4}, T_{2}, e_{16}, F_{3}, e_{25}, M_{2}, e_{10}, T_{3}, e_{26}, B_{2}, e_{12}, M_{3}, e_{20}, B_{3} \end{matrix}\};

γ_{258^{'}} = \{\begin{matrix} F_{3}, e_{16}, T_{2}, e_{4}, F_{2}, e_{9}, M_{2}, e_{10}, T_{3}, e_{26}, B_{2}, e_{12}, M_{3}, e_{20}, B_{3} \end{matrix}\};

γ_{259^{'}} = \{\begin{matrix} F_{2}, e_{4}, T_{2}, e_{16}, F_{3}, e_{25}, M_{2}, e_{10}, T_{3}, e_{24}, B_{3}, e_{20}, M_{3}, e_{12}, B_{2} \end{matrix}\};

γ_{260^{'}} = \{\begin{matrix} F_{3}, e_{16}, T_{2}, e_{4}, F_{2}, e_{9}, M_{2}, e_{10}, T_{3}, e_{24}, B_{3}, e_{20}, M_{3}, e_{12}, B_{2} \end{matrix}\};

γ_{261^{'}} = \{\begin{matrix} F_{2}, e_{4}, T_{2}, e_{16}, F_{3}, e_{23}, M_{3}, e_{19}, T_{3}, e_{26}, B_{2}, e_{2}, M_{2}, e_{11}, B_{3} \end{matrix}\};

γ_{262^{'}} = \{\begin{matrix} F_{3}, e_{16}, T_{2}, e_{4}, F_{2}, e_{27}, M_{3}, e_{19}, T_{3}, e_{26}, B_{2}, e_{2}, M_{2}, e_{11}, B_{3} \end{matrix}\};

γ_{263^{'}} = \{\begin{matrix} F_{2}, e_{4}, T_{2}, e_{16}, F_{3}, e_{23}, M_{3}, e_{19}, T_{3}, e_{24}, B_{3}, e_{11}, M_{2}, e_{2}, B_{2} \end{matrix}\};

γ_{264^{'}} = \{\begin{matrix} F_{3}, e_{16}, T_{2}, e_{4}, F_{2}, e_{27}, M_{3}, e_{19}, T_{3}, e_{24}, B_{3}, e_{11}, M_{2}, e_{2}, B_{2} \end{matrix}\};

γ_{265^{'}} = \{\begin{matrix} F_{2}, e_{17}, T_{3}, e_{22}, F_{3}, e_{25}, M_{2}, e_{1}, T_{2}, e_{13}, B_{2}, e_{12}, M_{3}, e_{20}, B_{3} \end{matrix}\};

γ_{266^{'}} = \{\begin{matrix} F_{3}, e_{22}, T_{3}, e_{17}, F_{2}, e_{9}, M_{2}, e_{1}, T_{2}, e_{13}, B_{2}, e_{12}, M_{3}, e_{20}, B_{3} \end{matrix}\};

γ_{267^{'}} = \{\begin{matrix} F_{2}, e_{17}, T_{3}, e_{22}, F_{3}, e_{25}, M_{2}, e_{1}, T_{2}, e_{28}, B_{3}, e_{20}, M_{3}, e_{12}, B_{2} \end{matrix}\};

γ_{268^{'}} = \{\begin{matrix} F_{3}, e_{22}, T_{3}, e_{17}, F_{2}, e_{9}, M_{2}, e_{1}, T_{2}, e_{28}, B_{3}, e_{20}, M_{3}, e_{12}, B_{2} \end{matrix}\};

γ_{269^{'}} = \{\begin{matrix} F_{2}, e_{17}, T_{3}, e_{22}, F_{3}, e_{23}, M_{3}, e_{15}, T_{2}, e_{13}, B_{2}, e_{2}, M_{2}, e_{11}, B_{3} \end{matrix}\};

γ_{270^{'}} = \{\begin{matrix} F_{3}, e_{22}, T_{3}, e_{17}, F_{2}, e_{27}, M_{3}, e_{15}, T_{2}, e_{13}, B_{2}, e_{2}, M_{2}, e_{11}, B_{3} \end{matrix}\};

γ_{271^{'}} = \{\begin{matrix} F_{2}, e_{17}, T_{3}, e_{22}, F_{3}, e_{23}, M_{3}, e_{15}, T_{2}, e_{28}, B_{3}, e_{11}, M_{2}, e_{2}, B_{2} \end{matrix}\};

γ_{272^{'}} = \{\begin{matrix} F_{3}, e_{22}, T_{3}, e_{17}, F_{2}, e_{27}, M_{3}, e_{15}, T_{2}, e_{28}, B_{3}, e_{11}, M_{2}, e_{2}, B_{2} \end{matrix}\};

γ_{273^{'}} = \{\begin{matrix} F_{2}, e_{4}, T_{2}, e_{16}, F_{3}, e_{14}, B_{2}, e_{14}, T_{3}, e_{10}, M_{2}, e_{11}, B_{3}, e_{20}, M_{3} \end{matrix}\};

γ_{274^{'}} = \{\begin{matrix} F_{3}, e_{16}, T_{2}, e_{4}, F_{2}, e_{3}, B_{2}, e_{14}, T_{3}, e_{10}, M_{2}, e_{11}, B_{3}, e_{20}, M_{3} \end{matrix}\};

γ_{275^{'}} = \{\begin{matrix} F_{2}, e_{4}, T_{2}, e_{16}, F_{3}, e_{14}, B_{2}, e_{14}, T_{3}, e_{19}, M_{3}, e_{20}, B_{3}, e_{11}, M_{2} \end{matrix}\};

γ_{276^{'}} = \{\begin{matrix} F_{3}, e_{16}, T_{2}, e_{4}, F_{2}, e_{3}, B_{2}, e_{14}, T_{3}, e_{19}, M_{3}, e_{20}, B_{3}, e_{11}, M_{2} \end{matrix}\};

γ_{277^{'}} = \{\begin{matrix} F_{2}, e_{4}, T_{2}, e_{16}, F_{3}, e_{21}, B_{3}, e_{24}, T_{3}, e_{10}, M_{2}, e_{2}, B_{2}, e_{12}, M_{3} \end{matrix}\};

γ_{278^{'}} = \{\begin{matrix} F_{3}, e_{16}, T_{2}, e_{4}, F_{2}, e_{18}, B_{3}, e_{24}, T_{3}, e_{10}, M_{2}, e_{2}, B_{2}, e_{12}, M_{3} \end{matrix}\};

γ_{279^{'}} = \{\begin{matrix} F_{2}, e_{4}, T_{2}, e_{16}, F_{3}, e_{21}, B_{3}, e_{24}, T_{3}, e_{19}, M_{3}, e_{12}, B_{2}, e_{2}, M_{2} \end{matrix}\};

γ_{280^{'}} = \{\begin{matrix} F_{3}, e_{16}, T_{2}, e_{4}, F_{2}, e_{18}, B_{3}, e_{24}, T_{3}, e_{19}, M_{3}, e_{12}, B_{2}, e_{2}, M_{2} \end{matrix}\};

γ_{281^{'}} = \{\begin{matrix} F_{2}, e_{17}, T_{3}, e_{22}, F_{3}, e_{14}, B_{2}, e_{13}, T_{2}, e_{1}, M_{2}, e_{11}, B_{3}, e_{20}, M_{3} \end{matrix}\};

γ_{282^{'}} = \{\begin{matrix} F_{3}, e_{22}, T_{3}, e_{17}, F_{2}, e_{3}, B_{2}, e_{13}, T_{2}, e_{1}, M_{2}, e_{11}, B_{3}, e_{20}, M_{3} \end{matrix}\};

γ_{283^{'}} = \{\begin{matrix} F_{2}, e_{17}, T_{3}, e_{22}, F_{3}, e_{14}, B_{2}, e_{13}, T_{2}, e_{15}, M_{3}, e_{20}, B_{3}, e_{11}, M_{2} \end{matrix}\};

γ_{284^{'}} = \{\begin{matrix} F_{3}, e_{22}, T_{3}, e_{17}, F_{2}, e_{3}, B_{2}, e_{13}, T_{2}, e_{15}, M_{3}, e_{20}, B_{3}, e_{11}, M_{2} \end{matrix}\};

γ_{285^{'}} = \{\begin{matrix} F_{2}, e_{17}, T_{3}, e_{22}, F_{3}, e_{21}, B_{3}, e_{15}, T_{2}, e_{1}, M_{2}, e_{2}, B_{2}, e_{12}, M_{3} \end{matrix}\};

γ_{286^{'}} = \{\begin{matrix} F_{3}, e_{22}, T_{3}, e_{17}, F_{2}, e_{18}, B_{3}, e_{15}, T_{2}, e_{1}, M_{2}, e_{2}, B_{2}, e_{12}, M_{3} \end{matrix}\};

γ_{287^{'}} = \{\begin{matrix} F_{2}, e_{17}, T_{3}, e_{22}, F_{3}, e_{21}, B_{3}, e_{15}, T_{2}, e_{15}, M_{3}, e_{12}, B_{2}, e_{2}, M_{2} \end{matrix}\};

γ_{288^{'}} = \{\begin{matrix} F_{3}, e_{22}, T_{3}, e_{17}, F_{2}, e_{18}, B_{3}, e_{15}, T_{2}, e_{15}, M_{3}, e_{12}, B_{2}, e_{2}, M_{2} \end{matrix}\};

γ_{289^{'}} = \{\begin{matrix} T_{2}, e_{1}, M_{2}, e_{10}, T_{3}, e_{26}, B_{2}, e_{12}, M_{3}, e_{27}, F_{2}, e_{18}, B_{3}, e_{21}, F_{3} \end{matrix}\};

γ_{290^{'}} = \{\begin{matrix} T_{3}, e_{10}, M_{2}, e_{1}, T_{2}, e_{13}, B_{2}, e_{12}, M_{3}, e_{27}, F_{2}, e_{18}, B_{3}, e_{21}, F_{3} \end{matrix}\};

γ_{291^{'}} = \{\begin{matrix} T_{2}, e_{1}, M_{2}, e_{10}, T_{3}, e_{26}, B_{2}, e_{12}, M_{3}, e_{23}, F_{3}, e_{21}, B_{3}, e_{18}, F_{2} \end{matrix}\};

γ_{292^{'}} = \{\begin{matrix} T_{3}, e_{10}, M_{2}, e_{1}, T_{2}, e_{13}, B_{2}, e_{12}, M_{3}, e_{23}, F_{3}, e_{21}, B_{3}, e_{18}, F_{2} \end{matrix}\};

γ_{293^{'}} = \{\begin{matrix} T_{2}, e_{1}, M_{2}, e_{10}, T_{3}, e_{24}, B_{3}, e_{20}, M_{3}, e_{27}, F_{2}, e_{3}, B_{2}, e_{6}, F_{3} \end{matrix}\};

γ_{294^{'}} = \{\begin{matrix} T_{3}, e_{10}, M_{2}, e_{1}, T_{2}, e_{28}, B_{3}, e_{20}, M_{3}, e_{27}, F_{2}, e_{3}, B_{2}, e_{6}, F_{3} \end{matrix}\};

γ_{295^{'}} = \{\begin{matrix} T_{2}, e_{1}, M_{2}, e_{10}, T_{3}, e_{24}, B_{3}, e_{20}, M_{3}, e_{23}, F_{3}, e_{6}, B_{2}, e_{3}, F_{2} \end{matrix}\};

γ_{296^{'}} = \{\begin{matrix} T_{3}, e_{10}, M_{2}, e_{1}, T_{2}, e_{28}, B_{3}, e_{20}, M_{3}, e_{23}, F_{3}, e_{6}, B_{2}, e_{3}, F_{2} \end{matrix}\};

γ_{297^{'}} = \{\begin{matrix} T_{2}, e_{15}, M_{3}, e_{19}, T_{3}, e_{26}, B_{2}, e_{2}, M_{2}, e_{9}, F_{2}, e_{18}, B_{3}, e_{21}, F_{3} \end{matrix}\};

γ_{298^{'}} = \{\begin{matrix} T_{3}, e_{19}, M_{3}, e_{15}, T_{2}, e_{13}, B_{2}, e_{2}, M_{2}, e_{9}, F_{2}, e_{18}, B_{3}, e_{21}, F_{3} \end{matrix}\};

γ_{299^{'}} = \{\begin{matrix} T_{2}, e_{15}, M_{3}, e_{19}, T_{3}, e_{26}, B_{2}, e_{2}, M_{2}, e_{25}, F_{3}, e_{21}, B_{3}, e_{18}, F_{2} \end{matrix}\};

γ_{300^{'}} = \{\begin{matrix} T_{3}, e_{19}, M_{3}, e_{15}, T_{2}, e_{13}, B_{2}, e_{2}, M_{2}, e_{25}, F_{3}, e_{21}, B_{3}, e_{18}, F_{2} \end{matrix}\};

γ_{301^{'}} = \{\begin{matrix} T_{2}, e_{15}, M_{3}, e_{19}, T_{3}, e_{24}, B_{3}, e_{11}, M_{2}, e_{9}, F_{2}, e_{3}, B_{2}, e_{6}, F_{3} \end{matrix}\};

γ_{302^{'}} = \{\begin{matrix} T_{3}, e_{19}, M_{3}, e_{15}, T_{2}, e_{28}, B_{3}, e_{11}, M_{2}, e_{9}, F_{2}, e_{3}, B_{2}, e_{6}, F_{3} \end{matrix}\};

γ_{303^{'}} = \{\begin{matrix} T_{2}, e_{15}, M_{3}, e_{19}, T_{3}, e_{24}, B_{3}, e_{11}, M_{2}, e_{25}, F_{3}, e_{6}, B_{2}, e_{3}, F_{2} \end{matrix}\};

γ_{304^{'}} = \{\begin{matrix} T_{3}, e_{19}, M_{3}, e_{15}, T_{2}, e_{28}, B_{3}, e_{11}, M_{2}, e_{25}, F_{3}, e_{6}, B_{2}, e_{3}, F_{2} \end{matrix}\};

γ_{305^{'}} = \{\begin{matrix} T_{2}, e_{1}, M_{2}, e_{10}, T_{3}, e_{17}, F_{2}, e_{27}, M_{3}, e_{12}, B_{2}, e_{14}, F_{3}, e_{21}, B_{3} \end{matrix}\};

γ_{306^{'}} = \{\begin{matrix} T_{3}, e_{10}, M_{2}, e_{1}, T_{2}, e_{4}, F_{2}, e_{27}, M_{3}, e_{12}, B_{2}, e_{14}, F_{3}, e_{21}, B_{3} \end{matrix}\};

γ_{307^{'}} = \{\begin{matrix} T_{2}, e_{1}, M_{2}, e_{10}, T_{3}, e_{17}, F_{2}, e_{27}, M_{3}, e_{20}, B_{3}, e_{21}, F_{3}, e_{14}, B_{2} \end{matrix}\};

γ_{308^{'}} = \{\begin{matrix} T_{3}, e_{10}, M_{2}, e_{1}, T_{2}, e_{4}, F_{2}, e_{27}, M_{3}, e_{20}, B_{3}, e_{21}, F_{3}, e_{14}, B_{2} \end{matrix}\};

γ_{309^{'}} = \{\begin{matrix} T_{2}, e_{1}, M_{2}, e_{10}, T_{3}, e_{22}, F_{3}, e_{23}, M_{3}, e_{12}, B_{2}, e_{3}, F_{2}, e_{18}, B_{3} \end{matrix}\};

γ_{310^{'}} = \{\begin{matrix} T_{3}, e_{10}, M_{2}, e_{1}, T_{2}, e_{16}, F_{3}, e_{23}, M_{3}, e_{12}, B_{2}, e_{3}, F_{2}, e_{18}, B_{3} \end{matrix}\};

γ_{311^{'}} = \{\begin{matrix} T_{2}, e_{1}, M_{2}, e_{10}, T_{3}, e_{22}, F_{3}, e_{23}, M_{3}, e_{20}, B_{3}, e_{18}, F_{2}, e_{3}, B_{2} \end{matrix}\};

γ_{312^{'}} = \{\begin{matrix} T_{3}, e_{10}, M_{2}, e_{1}, T_{2}, e_{16}, F_{3}, e_{23}, M_{3}, e_{20}, B_{3}, e_{18}, F_{2}, e_{3}, B_{2} \end{matrix}\};

γ_{313^{'}} = \{\begin{matrix} T_{2}, e_{15}, M_{3}, e_{19}, T_{3}, e_{17}, F_{2}, e_{9}, M_{2}, e_{2}, B_{2}, e_{14}, F_{3}, e_{21}, B_{3} \end{matrix}\};

γ_{314^{'}} = \{\begin{matrix} T_{3}, e_{19}, M_{3}, e_{15}, T_{2}, e_{4}, F_{2}, e_{9}, M_{2}, e_{2}, B_{2}, e_{14}, F_{3}, e_{21}, B_{3} \end{matrix}\};

γ_{315^{'}} = \{\begin{matrix} T_{2}, e_{15}, M_{3}, e_{19}, T_{3}, e_{17}, F_{2}, e_{9}, M_{2}, e_{11}, B_{3}, e_{21}, F_{3}, e_{14}, B_{2} \end{matrix}\};

γ_{316^{'}} = \{\begin{matrix} T_{3}, e_{19}, M_{3}, e_{15}, T_{2}, e_{4}, F_{2}, e_{9}, M_{2}, e_{11}, B_{3}, e_{21}, F_{3}, e_{14}, B_{2} \end{matrix}\};

γ_{317^{'}} = \{\begin{matrix} T_{2}, e_{15}, M_{3}, e_{19}, T_{3}, e_{22}, F_{3}, e_{25}, M_{2}, e_{2}, B_{2}, e_{3}, F_{2}, e_{18}, B_{3} \end{matrix}\};

γ_{318^{'}} = \{\begin{matrix} T_{3}, e_{19}, M_{3}, e_{15}, T_{2}, e_{16}, F_{3}, e_{25}, M_{2}, e_{2}, B_{2}, e_{3}, F_{2}, e_{18}, B_{3} \end{matrix}\};

γ_{319^{'}} = \{\begin{matrix} T_{2}, e_{15}, M_{3}, e_{19}, T_{3}, e_{22}, F_{3}, e_{25}, M_{2}, e_{11}, B_{3}, e_{18}, F_{2}, e_{3}, B_{2} \end{matrix}\};

γ_{320^{'}} = \{\begin{matrix} T_{3}, e_{19}, M_{3}, e_{15}, T_{2}, e_{16}, F_{3}, e_{25}, M_{2}, e_{11}, B_{3}, e_{18}, F_{2}, e_{3}, B_{2} \end{matrix}\};

γ_{321^{'}} = \{\begin{matrix} T_{2}, e_{13}, B_{2}, e_{26}, T_{3}, e_{10}, M_{2}, e_{11}, B_{3}, e_{18}, F_{2}, e_{27}, M_{3}, e_{23}, F_{3} \end{matrix}\};

γ_{322^{'}} = \{\begin{matrix} T_{3}, e_{26}, B_{2}, e_{13}, T_{2}, e_{1}, M_{2}, e_{11}, B_{3}, e_{18}, F_{2}, e_{27}, M_{3}, e_{23}, F_{3} \end{matrix}\};

γ_{323^{'}} = \{\begin{matrix} T_{2}, e_{13}, B_{2}, e_{26}, T_{3}, e_{10}, M_{2}, e_{11}, B_{3}, e_{21}, F_{3}, e_{23}, M_{3}, e_{27}, F_{2} \end{matrix}\};

γ_{324^{'}} = \{\begin{matrix} T_{3}, e_{26}, B_{2}, e_{13}, T_{2}, e_{1}, M_{2}, e_{11}, B_{3}, e_{21}, F_{3}, e_{23}, M_{3}, e_{27}, F_{2} \end{matrix}\};

γ_{325^{'}} = \{\begin{matrix} T_{2}, e_{13}, B_{2}, e_{26}, T_{3}, e_{19}, M_{3}, e_{20}, B_{3}, e_{18}, F_{2}, e_{9}, M_{2}, e_{25}, F_{3} \end{matrix}\};

γ_{326^{'}} = \{\begin{matrix} T_{3}, e_{26}, B_{2}, e_{13}, T_{2}, e_{15}, M_{3}, e_{20}, B_{3}, e_{18}, F_{2}, e_{9}, M_{2}, e_{25}, F_{3} \end{matrix}\};

γ_{327^{'}} = \{\begin{matrix} T_{2}, e_{13}, B_{2}, e_{26}, T_{3}, e_{19}, M_{3}, e_{20}, B_{3}, e_{21}, F_{3}, e_{25}, M_{2}, e_{9}, F_{2} \end{matrix}\};

γ_{328^{'}} = \{\begin{matrix} T_{3}, e_{26}, B_{2}, e_{13}, T_{2}, e_{15}, M_{3}, e_{20}, B_{3}, e_{21}, F_{3}, e_{25}, M_{2}, e_{9}, F_{2} \end{matrix}\};

γ_{329^{'}} = \{\begin{matrix} T_{2}, e_{28}, B_{3}, e_{24}, T_{3}, e_{10}, M_{2}, e_{2}, B_{2}, e_{3}, F_{2}, e_{27}, M_{3}, e_{23}, F_{3} \end{matrix}\};

γ_{330^{'}} = \{\begin{matrix} T_{3}, e_{24}, B_{3}, e_{28}, T_{2}, e_{1}, M_{2}, e_{2}, B_{2}, e_{3}, F_{2}, e_{27}, M_{3}, e_{23}, F_{3} \end{matrix}\};

γ_{331^{'}} = \{\begin{matrix} T_{2}, e_{28}, B_{3}, e_{24}, T_{3}, e_{10}, M_{2}, e_{2}, B_{2}, e_{14}, F_{3}, e_{23}, M_{3}, e_{27}, F_{2} \end{matrix}\};

γ_{332^{'}} = \{\begin{matrix} T_{3}, e_{24}, B_{3}, e_{28}, T_{2}, e_{1}, M_{2}, e_{2}, B_{2}, e_{14}, F_{3}, e_{23}, M_{3}, e_{27}, F_{2} \end{matrix}\};

γ_{333^{'}} = \{\begin{matrix} T_{2}, e_{28}, B_{3}, e_{24}, T_{3}, e_{19}, M_{3}, e_{12}, B_{2}, e_{3}, F_{2}, e_{9}, M_{2}, e_{25}, F_{3} \end{matrix}\};

γ_{334^{'}} = \{\begin{matrix} T_{3}, e_{24}, B_{3}, e_{28}, T_{2}, e_{15}, M_{3}, e_{12}, B_{2}, e_{3}, F_{2}, e_{9}, M_{2}, e_{25}, F_{3} \end{matrix}\};

γ_{335^{'}} = \{\begin{matrix} T_{2}, e_{28}, B_{3}, e_{24}, T_{3}, e_{19}, M_{3}, e_{12}, B_{2}, e_{14}, F_{3}, e_{25}, M_{2}, e_{9}, F_{2} \end{matrix}\};

γ_{336^{'}} = \{\begin{matrix} T_{3}, e_{24}, B_{3}, e_{28}, T_{2}, e_{15}, M_{3}, e_{12}, B_{2}, e_{14}, F_{3}, e_{25}, M_{2}, e_{9}, F_{2} \end{matrix}\};

γ_{337^{'}} = \{\begin{matrix} T_{2}, e_{13}, B_{2}, e_{26}, T_{3}, e_{17}, F_{2}, e_{18}, B_{3}, e_{11}, M_{2}, e_{25}, F_{3}, e_{23}, M_{3} \end{matrix}\};

γ_{338^{'}} = \{\begin{matrix} T_{3}, e_{26}, B_{2}, e_{13}, T_{2}, e_{4}, F_{2}, e_{18}, B_{3}, e_{11}, M_{2}, e_{25}, F_{3}, e_{23}, M_{3} \end{matrix}\};

γ_{339^{'}} = \{\begin{matrix} T_{2}, e_{13}, B_{2}, e_{26}, T_{3}, e_{17}, F_{2}, e_{18}, B_{3}, e_{20}, M_{3}, e_{23}, F_{3}, e_{25}, M_{2} \end{matrix}\};

γ_{340^{'}} = \{\begin{matrix} T_{3}, e_{26}, B_{2}, e_{13}, T_{2}, e_{4}, F_{2}, e_{18}, B_{3}, e_{20}, M_{3}, e_{23}, F_{3}, e_{25}, M_{2} \end{matrix}\};

γ_{341^{'}} = \{\begin{matrix} T_{2}, e_{13}, B_{2}, e_{26}, T_{3}, e_{22}, F_{3}, e_{21}, B_{3}, e_{11}, M_{2}, e_{9}, F_{2}, e_{27}, M_{3} \end{matrix}\};

γ_{342^{'}} = \{\begin{matrix} T_{3}, e_{26}, B_{2}, e_{13}, T_{2}, e_{16}, F_{3}, e_{21}, B_{3}, e_{11}, M_{2}, e_{9}, F_{2}, e_{27}, M_{3} \end{matrix}\};

γ_{343^{'}} = \{\begin{matrix} T_{2}, e_{13}, B_{2}, e_{26}, T_{3}, e_{22}, F_{3}, e_{21}, B_{3}, e_{20}, M_{3}, e_{27}, F_{2}, e_{9}, M_{2} \end{matrix}\};

γ_{344^{'}} = \{\begin{matrix} T_{3}, e_{26}, B_{2}, e_{13}, T_{2}, e_{16}, F_{3}, e_{21}, B_{3}, e_{20}, M_{3}, e_{27}, F_{2}, e_{9}, M_{2} \end{matrix}\};

γ_{345^{'}} = \{\begin{matrix} T_{2}, e_{28}, B_{3}, e_{24}, T_{3}, e_{17}, F_{2}, e_{3}, B_{2}, e_{2}, M_{2}, e_{25}, F_{3}, e_{23}, M_{3} \end{matrix}\};

γ_{346^{'}} = \{\begin{matrix} T_{3}, e_{24}, B_{3}, e_{28}, T_{2}, e_{4}, F_{2}, e_{3}, B_{2}, e_{2}, M_{2}, e_{25}, F_{3}, e_{23}, M_{3} \end{matrix}\};

γ_{347^{'}} = \{\begin{matrix} T_{2}, e_{28}, B_{3}, e_{24}, T_{3}, e_{17}, F_{2}, e_{3}, B_{2}, e_{12}, M_{3}, e_{23}, F_{3}, e_{25}, M_{2} \end{matrix}\};

γ_{348^{'}} = \{\begin{matrix} T_{3}, e_{24}, B_{3}, e_{28}, T_{2}, e_{4}, F_{2}, e_{3}, B_{2}, e_{12}, M_{3}, e_{23}, F_{3}, e_{25}, M_{2} \end{matrix}\};

γ_{349^{'}} = \{\begin{matrix} T_{2}, e_{28}, B_{3}, e_{24}, T_{3}, e_{22}, F_{3}, e_{14}, B_{2}, e_{2}, M_{2}, e_{9}, F_{2}, e_{27}, M_{3} \end{matrix}\};

γ_{350^{'}} = \{\begin{matrix} T_{3}, e_{24}, B_{3}, e_{28}, T_{2}, e_{16}, F_{3}, e_{14}, B_{2}, e_{2}, M_{2}, e_{9}, F_{2}, e_{27}, M_{3} \end{matrix}\};

γ_{351^{'}} = \{\begin{matrix} T_{2}, e_{28}, B_{3}, e_{24}, T_{3}, e_{22}, F_{3}, e_{14}, B_{2}, e_{12}, M_{3}, e_{27}, F_{2}, e_{9}, M_{2} \end{matrix}\};

γ_{352^{'}} = \{\begin{matrix} T_{3}, e_{24}, B_{3}, e_{28}, T_{2}, e_{16}, F_{3}, e_{14}, B_{2}, e_{12}, M_{3}, e_{27}, F_{2}, e_{9}, M_{2} \end{matrix}\};

γ_{353^{'}} = \{\begin{matrix} T_{2}, e_{4}, F_{2}, e_{17}, T_{3}, e_{10}, M_{2}, e_{25}, F_{3}, e_{14}, B_{2}, e_{12}, M_{3}, e_{20}, B_{3} \end{matrix}\};

γ_{354^{'}} = \{\begin{matrix} T_{3}, e_{17}, F_{2}, e_{4}, T_{2}, e_{1}, M_{2}, e_{25}, F_{3}, e_{14}, B_{2}, e_{12}, M_{3}, e_{20}, B_{3} \end{matrix}\};

γ_{355^{'}} = \{\begin{matrix} T_{2}, e_{4}, F_{2}, e_{17}, T_{3}, e_{10}, M_{2}, e_{25}, F_{3}, e_{21}, B_{3}, e_{20}, M_{3}, e_{12}, B_{2} \end{matrix}\};

γ_{356^{'}} = \{\begin{matrix} T_{3}, e_{17}, F_{2}, e_{4}, T_{2}, e_{1}, M_{2}, e_{25}, F_{3}, e_{21}, B_{3}, e_{20}, M_{3}, e_{12}, B_{2} \end{matrix}\};

γ_{357^{'}} = \{\begin{matrix} T_{2}, e_{4}, F_{2}, e_{17}, T_{3}, e_{19}, M_{3}, e_{23}, F_{3}, e_{14}, B_{2}, e_{2}, M_{2}, e_{11}, B_{3} \end{matrix}\};

γ_{358^{'}} = \{\begin{matrix} T_{3}, e_{17}, F_{2}, e_{4}, T_{2}, e_{15}, M_{3}, e_{23}, F_{3}, e_{14}, B_{2}, e_{2}, M_{2}, e_{11}, B_{3} \end{matrix}\};

γ_{359^{'}} = \{\begin{matrix} T_{2}, e_{4}, F_{2}, e_{17}, T_{3}, e_{19}, M_{3}, e_{23}, F_{3}, e_{21}, B_{3}, e_{11}, M_{2}, e_{2}, B_{2} \end{matrix}\};

γ_{360^{'}} = \{\begin{matrix} T_{3}, e_{17}, F_{2}, e_{4}, T_{2}, e_{15}, M_{3}, e_{23}, F_{3}, e_{21}, B_{3}, e_{11}, M_{2}, e_{2}, B_{2} \end{matrix}\};

γ_{361^{'}} = \{\begin{matrix} T_{2}, e_{16}, F_{3}, e_{22}, T_{3}, e_{10}, M_{2}, e_{9}, F_{2}, e_{3}, B_{2}, e_{12}, M_{3}, e_{20}, B_{3} \end{matrix}\};

γ_{362^{'}} = \{\begin{matrix} T_{3}, e_{22}, F_{3}, e_{16}, T_{2}, e_{1}, M_{2}, e_{9}, F_{2}, e_{3}, B_{2}, e_{12}, M_{3}, e_{20}, B_{3} \end{matrix}\};

γ_{363^{'}} = \{\begin{matrix} T_{2}, e_{16}, F_{3}, e_{22}, T_{3}, e_{10}, M_{2}, e_{9}, F_{2}, e_{12}, B_{3}, e_{20}, M_{3}, e_{12}, B_{2} \end{matrix}\};

γ_{364^{'}} = \{\begin{matrix} T_{3}, e_{22}, F_{3}, e_{16}, T_{2}, e_{1}, M_{2}, e_{9}, F_{2}, e_{12}, B_{3}, e_{20}, M_{3}, e_{12}, B_{2} \end{matrix}\};

γ_{365^{'}} = \{\begin{matrix} T_{2}, e_{16}, F_{3}, e_{22}, T_{3}, e_{19}, M_{3}, e_{27}, F_{2}, e_{3}, B_{2}, e_{2}, M_{2}, e_{11}, B_{3} \end{matrix}\};

γ_{366^{'}} = \{\begin{matrix} T_{3}, e_{22}, F_{3}, e_{16}, T_{2}, e_{15}, M_{3}, e_{27}, F_{2}, e_{3}, B_{2}, e_{2}, M_{2}, e_{11}, B_{3} \end{matrix}\};

γ_{367^{'}} = \{\begin{matrix} T_{2}, e_{16}, F_{3}, e_{22}, T_{3}, e_{19}, M_{3}, e_{27}, F_{2}, e_{12}, B_{3}, e_{11}, M_{2}, e_{2}, B_{2} \end{matrix}\};

γ_{368^{'}} = \{\begin{matrix} T_{3}, e_{22}, F_{3}, e_{16}, T_{2}, e_{15}, M_{3}, e_{27}, F_{2}, e_{12}, B_{3}, e_{11}, M_{2}, e_{2}, B_{2} \end{matrix}\};

γ_{369^{'}} = \{\begin{matrix} T_{2}, e_{4}, F_{2}, e_{17}, T_{3}, e_{26}, B_{2}, e_{14}, F_{3}, e_{25}, M_{2}, e_{11}, B_{3}, e_{20}, M_{3} \end{matrix}\};

γ_{370^{'}} = \{\begin{matrix} T_{3}, e_{17}, F_{2}, e_{4}, T_{2}, e_{13}, B_{2}, e_{14}, F_{3}, e_{25}, M_{2}, e_{11}, B_{3}, e_{20}, M_{3} \end{matrix}\};

γ_{371^{'}} = \{\begin{matrix} T_{2}, e_{4}, F_{2}, e_{17}, T_{3}, e_{26}, B_{2}, e_{14}, F_{3}, e_{23}, M_{3}, e_{20}, B_{3}, e_{11}, M_{2} \end{matrix}\};

γ_{372^{'}} = \{\begin{matrix} T_{3}, e_{17}, F_{2}, e_{4}, T_{2}, e_{13}, B_{2}, e_{14}, F_{3}, e_{23}, M_{3}, e_{20}, B_{3}, e_{11}, M_{2} \end{matrix}\};

γ_{373^{'}} = \{\begin{matrix} T_{2}, e_{4}, F_{2}, e_{17}, T_{3}, e_{24}, B_{3}, e_{21}, F_{3}, e_{25}, M_{2}, e_{2}, B_{2}, e_{12}, M_{3} \end{matrix}\};

γ_{374^{'}} = \{\begin{matrix} T_{3}, e_{17}, F_{2}, e_{4}, T_{2}, e_{28}, B_{3}, e_{21}, F_{3}, e_{25}, M_{2}, e_{2}, B_{2}, e_{12}, M_{3} \end{matrix}\};

γ_{375^{'}} = \{\begin{matrix} T_{2}, e_{4}, F_{2}, e_{17}, T_{3}, e_{24}, B_{3}, e_{21}, F_{3}, e_{23}, M_{3}, e_{12}, B_{2}, e_{2}, M_{2} \end{matrix}\};

γ_{376^{'}} = \{\begin{matrix} T_{3}, e_{17}, F_{2}, e_{4}, T_{2}, e_{28}, B_{3}, e_{21}, F_{3}, e_{23}, M_{3}, e_{12}, B_{2}, e_{2}, M_{2} \end{matrix}\};

γ_{377^{'}} = \{\begin{matrix} T_{2}, e_{16}, F_{3}, e_{22}, T_{3}, e_{26}, B_{2}, e_{14}, F_{2}, e_{9}, M_{2}, e_{11}, B_{3}, e_{20}, M_{3} \end{matrix}\};

γ_{378^{'}} = \{\begin{matrix} T_{3}, e_{22}, F_{3}, e_{16}, T_{2}, e_{13}, B_{2}, e_{14}, F_{2}, e_{9}, M_{2}, e_{11}, B_{3}, e_{20}, M_{3} \end{matrix}\};

γ_{379^{'}} = \{\begin{matrix} T_{2}, e_{16}, F_{3}, e_{22}, T_{3}, e_{26}, B_{2}, e_{14}, F_{2}, e_{27}, M_{3}, e_{20}, B_{3}, e_{11}, M_{2} \end{matrix}\};

γ_{380^{'}} = \{\begin{matrix} T_{3}, e_{22}, F_{3}, e_{16}, T_{2}, e_{13}, B_{2}, e_{14}, F_{2}, e_{27}, M_{3}, e_{20}, B_{3}, e_{11}, M_{2} \end{matrix}\};

γ_{381^{'}} = \{\begin{matrix} T_{2}, e_{16}, F_{3}, e_{22}, T_{3}, e_{24}, B_{3}, e_{21}, F_{2}, e_{9}, M_{2}, e_{2}, B_{2}, e_{12}, M_{3} \end{matrix}\};

γ_{382^{'}} = \{\begin{matrix} T_{3}, e_{22}, F_{3}, e_{16}, T_{2}, e_{28}, B_{3}, e_{21}, F_{2}, e_{9}, M_{2}, e_{2}, B_{2}, e_{12}, M_{3} \end{matrix}\};

γ_{383^{'}} = \{\begin{matrix} T_{2}, e_{16}, F_{3}, e_{22}, T_{3}, e_{24}, B_{3}, e_{21}, F_{2}, e_{27}, M_{3}, e_{12}, B_{2}, e_{2}, M_{2} \end{matrix}\};

γ_{384^{'}} = \{\begin{matrix} T_{3}, e_{22}, F_{3}, e_{16}, T_{2}, e_{28}, B_{3}, e_{21}, F_{2}, e_{27}, M_{3}, e_{12}, B_{2}, e_{2}, M_{2} \end{matrix}\} .

References

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Figure 1. The FTTM [4].

Figure 2. The sequence of

F T T M_{n}

.

Figure 2. The sequence of

F T T M_{n}

.

Figure 3. Examples of Assembly Graphs.

Figure 4. The structure of the tangled cord.

Figure 5. Assembly Graph of

F T T M_{4}

.

Figure 5. Assembly Graph of

F T T M_{4}

.

Figure 6. Sequence of

{F T T M}_{n}

.

Figure 6. Sequence of

{F T T M}_{n}

.

Figure 7. Eulerian paths with consecutive vertices for

Γ_{{F T T M}_{4}}

.

Figure 7. Eulerian paths with consecutive vertices for

Γ_{{F T T M}_{4}}

.

Figure 8. Non-consecutive vertices Hamiltonian polygonal paths.

Figure 9. A graph of

A_{3}^{3} = \{A, B, C\}

.

Figure 9. A graph of

A_{3}^{3} = \{A, B, C\}

.

Figure 10. Hamiltonian paths in

A_{3}^{3}

graph.

Figure 10. Hamiltonian paths in

A_{3}^{3}

graph.

Table 1. Hamiltonian polygonal paths (with consecutive vertices) in the assembly graph of

{F T T M}_{n}

.

Table 1. Hamiltonian polygonal paths (with consecutive vertices) in the assembly graph of

{F T T M}_{n}

.

${FTTM}_{n}$	Vertices	4-Valent Vertices	% Hamiltonian Polygonal Paths
3	12	4	8
4	16	8	144
5	20	12	1168
6	24	16	8032
7	28	20	49,312
8	32	24	281,248
9	36	28	1,523,920
10	40	32	7,953,408

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Shukor, N.A.; Ahmad, T.; Abdullahi, M.; Idris, A.; Awang, S.R. Tangled Cord of FTTM₄. Mathematics 2023, 11, 2613. https://doi.org/10.3390/math11122613

AMA Style

Shukor NA, Ahmad T, Abdullahi M, Idris A, Awang SR. Tangled Cord of FTTM₄. Mathematics. 2023; 11(12):2613. https://doi.org/10.3390/math11122613

Chicago/Turabian Style

Shukor, Noorsufia Abd, Tahir Ahmad, Mujahid Abdullahi, Amidora Idris, and Siti Rahmah Awang. 2023. "Tangled Cord of FTTM₄" Mathematics 11, no. 12: 2613. https://doi.org/10.3390/math11122613

APA Style

Shukor, N. A., Ahmad, T., Abdullahi, M., Idris, A., & Awang, S. R. (2023). Tangled Cord of FTTM₄. Mathematics, 11(12), 2613. https://doi.org/10.3390/math11122613

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Tangled Cord of FTTM₄

Abstract

1. Introduction and Motivation

2. Concepts of Assembly Graph and Tangled Cord

3. Assembly Graph of ${FTTM}_{4}$

4. Transverse Eulerian Paths for Assembly Graph of ${FTTM}_{4}$

5. Tangled Cord of ${FTTM}_{4}$

6. Conclusions

Author Contributions

Funding

Data Availability Statement

Acknowledgments

Conflicts of Interest

Abbreviations

Appendix A. Non-Consecutive Vertices Hamiltonian Polygonal Paths

References

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Tangled Cord of FTTM4

Abstract

1. Introduction and Motivation

2. Concepts of Assembly Graph and Tangled Cord

3. Assembly Graph of FTTM 4

4. Transverse Eulerian Paths for Assembly Graph of FTTM 4

5. Tangled Cord of FTTM 4

6. Conclusions

Author Contributions

Funding

Data Availability Statement

Acknowledgments

Conflicts of Interest

Abbreviations

Appendix A. Non-Consecutive Vertices Hamiltonian Polygonal Paths

References

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Further Information

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Tangled Cord of FTTM₄

3. Assembly Graph of ${FTTM}_{4}$

4. Transverse Eulerian Paths for Assembly Graph of ${FTTM}_{4}$

5. Tangled Cord of ${FTTM}_{4}$