Min_number = ( 0 ) ; Max_number = ( 5 )
In original model number_of_states = ( 40 ); number_of_transition = ( 63 ) 

Original Transition
0 --- 1  -> (x)
0 --- 4  -> ((-1)*x+(1))
1 --- 16  -> (p12*p11)
1 --- 17  -> ((-1)*p12*p11+p11)
1 --- 18  -> ((-1)*p12*p11+p12)
1 --- 19  -> (p12*p11-p11-p12+(1))
2 --- 20  -> (p22*p21)
2 --- 21  -> ((-1)*p22*p21+p21)
2 --- 22  -> ((-1)*p22*p21+p22)
2 --- 23  -> (p22*p21-p21-p22+(1))
3 --- 24  -> (p32*p31)
3 --- 25  -> ((-1)*p32*p31+p31)
3 --- 26  -> ((-1)*p32*p31+p32)
3 --- 27  -> (p32*p31-p31-p32+(1))
4 --- 28  -> (p42*p41)
4 --- 29  -> ((-1)*p42*p41+p41)
4 --- 30  -> ((-1)*p42*p41+p42)
4 --- 31  -> (p42*p41-p41-p42+(1))
5 --- 32  -> (p52*p51)
5 --- 33  -> ((-1)*p52*p51+p51)
5 --- 34  -> ((-1)*p52*p51+p52)
5 --- 35  -> (p52*p51-p51-p52+(1))
6 --- 36  -> (p62*p61)
6 --- 37  -> ((-1)*p62*p61+p61)
6 --- 38  -> ((-1)*p62*p61+p62)
6 --- 39  -> (p62*p61-p61-p62+(1))
7 --- 1  -> (y2)
7 --- 3  -> ((-1)*y1-y2+(1))
7 --- 5  -> (y1)
8 --- 0  -> (z2)
8 --- 4  -> ((-1)*z1-z2+(1))
8 --- 5  -> (z1)
9 --- 9  -> (1)
10 --- 10  -> (1)
11 --- 11  -> (1)
12 --- 12  -> (1)
13 --- 13  -> (1)
14 --- 14  -> (1)
15 --- 0  -> (1)
16 --- 2  -> (1)
17 --- 2  -> (1)
18 --- 2  -> (1)
19 --- 14  -> (1)
20 --- 7  -> (1)
21 --- 7  -> (1)
22 --- 7  -> (1)
23 --- 13  -> (1)
24 --- 6  -> (1)
25 --- 6  -> (1)
26 --- 6  -> (1)
27 --- 12  -> (1)
28 --- 8  -> (1)
29 --- 8  -> (1)
30 --- 8  -> (1)
31 --- 11  -> (1)
32 --- 6  -> (1)
33 --- 6  -> (1)
34 --- 6  -> (1)
35 --- 10  -> (1)
36 --- 15  -> (1)
37 --- 15  -> (1)
38 --- 15  -> (1)
39 --- 9  -> (1)


In New Model number of states = ( 45 ); number of transition = ( 68 ) 

New transition
0 --- 1  -> (x)
1 --- 16  -> (p12*p11)
1 --- 17  -> ((-1)*p12*p11+p11)
1 --- 18  -> ((-1)*p12*p11+p12)
1 --- 19  -> (p12*p11-p11-p12+(1))
2 --- 20  -> (p22*p21)
2 --- 21  -> ((-1)*p22*p21+p21)
2 --- 22  -> ((-1)*p22*p21+p22)
44 --- 24  -> (p32*p31)
44 --- 25  -> ((-1)*p32*p31+p31)
44 --- 26  -> ((-1)*p32*p31+p32)
44 --- 27  -> (p32*p31-p31-p32+(1))
4 --- 28  -> (p42*p41)
4 --- 29  -> ((-1)*p42*p41+p41)
4 --- 30  -> ((-1)*p42*p41+p42)
4 --- 31  -> (p42*p41-p41-p42+(1))
5 --- 32  -> (p52*p51)
5 --- 33  -> ((-1)*p52*p51+p51)
5 --- 34  -> ((-1)*p52*p51+p52)
5 --- 35  -> (p52*p51-p51-p52+(1))
6 --- 36  -> (p62*p61)
6 --- 37  -> ((-1)*p62*p61+p61)
6 --- 38  -> ((-1)*p62*p61+p62)
6 --- 39  -> (p62*p61-p61-p62+(1))
7 --- 1  -> (y2)
7 --- 3  -> ((-1)*y1-y2+(1))
8 --- 0  -> (z2)
8 --- 4  -> ((-1)*z1-z2+(1))
8 --- 5  -> (z1)
9 --- 9  -> (1)
10 --- 10  -> (1)
11 --- 11  -> (1)
12 --- 12  -> (1)
13 --- 13  -> (1)
14 --- 14  -> (1)
15 --- 0  -> (1)
16 --- 2  -> (1)
17 --- 2  -> (1)
18 --- 2  -> (1)
19 --- 14  -> (1)
20 --- 7  -> (1)
21 --- 7  -> (1)
22 --- 7  -> (1)
23 --- 13  -> (1)
24 --- 6  -> (1)
25 --- 6  -> (1)
26 --- 6  -> (1)
27 --- 12  -> (1)
28 --- 8  -> (1)
29 --- 8  -> (1)
30 --- 8  -> (1)
31 --- 11  -> (1)
32 --- 6  -> (1)
33 --- 6  -> (1)
34 --- 6  -> (1)
35 --- 10  -> (1)
36 --- 15  -> (1)
37 --- 15  -> (1)
38 --- 15  -> (1)
39 --- 9  -> (1)
40 --- 23  -> 1
0 --- 41  -> ((-1)*x+(1))
41 --- 4  -> 1
7 --- 42  -> (y1)
42 --- 5  -> 1
2 --- 43  -> (p22*p21-p21-p22+(1))
43 --- 40  -> 1
3 --- 44  -> 1


State--Fragment Number--visited--startingPoint--endingPoint
   0          2          true        true          false
   1          2          true        false          false
   2          2          true        false          false
   3          2          true        false          false
   4          19          true        true          true
   5          20          true        true          true
   6          3          true        true          false
   7          2          true        false          false
   8          4          true        true          true
   9          21          true        true          true
   10          22          true        true          true
   11          23          true        true          true
   12          24          true        true          true
   13          25          true        true          true
   14          26          true        true          true
   15          27          true        true          true
   16          2          true        false          false
   17          2          true        false          false
   18          2          true        false          false
   19          2          true        false          true
   20          2          true        false          false
   21          2          true        false          false
   22          2          true        false          false
   23          5          true        true          true
   24          6          true        true          true
   25          7          true        true          true
   26          8          true        true          true
   27          9          true        true          true
   28          10          true        true          true
   29          11          true        true          true
   30          12          true        true          true
   31          13          true        true          true
   32          14          true        true          true
   33          15          true        true          true
   34          16          true        true          true
   35          17          true        true          true
   36          3          true        false          true
   37          3          true        false          true
   38          3          true        false          true
   39          3          true        false          true
   40          18          true        true          true
   41          2          true        false          true
   42          2          true        false          true
   43          2          true        false          true
   44          2          true        false          true

This is transition in Fragment (1) 

This is transition in Fragment (2) 
    [0, 1]  (x)
    [1, 16]  (p12*p11)
    [1, 17]  ((-1)*p12*p11+p11)
    [1, 18]  ((-1)*p12*p11+p12)
    [1, 19]  (p12*p11-p11-p12+(1))
    [2, 20]  (p22*p21)
    [2, 21]  ((-1)*p22*p21+p21)
    [2, 22]  ((-1)*p22*p21+p22)
    [7, 1]  (y2)
    [7, 3]  ((-1)*y1-y2+(1))
    [16, 2]  (1)
    [17, 2]  (1)
    [18, 2]  (1)
    [20, 7]  (1)
    [21, 7]  (1)
    [22, 7]  (1)
    [0, 41]  ((-1)*x+(1))
    [7, 42]  (y1)
    [2, 43]  (p22*p21-p21-p22+(1))
    [3, 44]  1
    [19, 19]  1
    [41, 41]  1
    [42, 42]  1
    [43, 43]  1
    [44, 44]  1

This is transition in Fragment (3) 
    [6, 36]  (p62*p61)
    [6, 37]  ((-1)*p62*p61+p61)
    [6, 38]  ((-1)*p62*p61+p62)
    [6, 39]  (p62*p61-p61-p62+(1))
    [36, 36]  1
    [37, 37]  1
    [38, 38]  1
    [39, 39]  1

This is transition in Fragment (4) 
    [8, 8]  1

This is transition in Fragment (5) 
    [23, 23]  1

This is transition in Fragment (6) 
    [24, 24]  1

This is transition in Fragment (7) 
    [25, 25]  1

This is transition in Fragment (8) 
    [26, 26]  1

This is transition in Fragment (9) 
    [27, 27]  1

This is transition in Fragment (10) 
    [28, 28]  1

This is transition in Fragment (11) 
    [29, 29]  1

This is transition in Fragment (12) 
    [30, 30]  1

This is transition in Fragment (13) 
    [31, 31]  1

This is transition in Fragment (14) 
    [32, 32]  1

This is transition in Fragment (15) 
    [33, 33]  1

This is transition in Fragment (16) 
    [34, 34]  1

This is transition in Fragment (17) 
    [35, 35]  1

This is transition in Fragment (18) 
    [40, 40]  1

This is transition in Fragment (19) 
    [4, 4]  1

This is transition in Fragment (20) 
    [5, 5]  1

This is transition in Fragment (21) 
    [9, 9]  1

This is transition in Fragment (22) 
    [10, 10]  1

This is transition in Fragment (23) 
    [11, 11]  1

This is transition in Fragment (24) 
    [12, 12]  1

This is transition in Fragment (25) 
    [13, 13]  1

This is transition in Fragment (26) 
    [14, 14]  1

This is transition for abstract model 
    [44, 24]  ( (p32*p31) ) * ( prob_f2_s44 )
    [44, 25]  ( ((-1)*p32*p31+p31) ) * ( prob_f2_s44 )
    [44, 26]  ( ((-1)*p32*p31+p32) ) * ( prob_f2_s44 )
    [44, 27]  ( (p32*p31-p31-p32+(1)) ) * ( prob_f2_s44 )
    [4, 28]  (p42*p41)
    [4, 29]  ((-1)*p42*p41+p41)
    [4, 30]  ((-1)*p42*p41+p42)
    [4, 31]  (p42*p41-p41-p42+(1))
    [5, 32]  (p52*p51)
    [5, 33]  ((-1)*p52*p51+p51)
    [5, 34]  ((-1)*p52*p51+p52)
    [5, 35]  (p52*p51-p51-p52+(1))
    [8, 0]  (z2)
    [8, 4]  ((-1)*z1-z2+(1))
    [8, 5]  (z1)
    [9, 9]  (1)
    [10, 10]  (1)
    [11, 11]  (1)
    [12, 12]  (1)
    [13, 13]  (1)
    [14, 14]  (1)
    [15, 0]  (1)
    [19, 14]  ( (1) ) * ( prob_f2_s19 )
    [23, 13]  (1)
    [24, 6]  (1)
    [25, 6]  (1)
    [26, 6]  (1)
    [27, 12]  (1)
    [28, 8]  (1)
    [29, 8]  (1)
    [30, 8]  (1)
    [31, 11]  (1)
    [32, 6]  (1)
    [33, 6]  (1)
    [34, 6]  (1)
    [35, 10]  (1)
    [36, 15]  ( (1) ) * ( prob_f3_s36 )
    [37, 15]  ( (1) ) * ( prob_f3_s37 )
    [38, 15]  ( (1) ) * ( prob_f3_s38 )
    [39, 9]  ( (1) ) * ( prob_f3_s39 )
    [40, 23]  1
    [41, 4]  ( 1 ) * ( prob_f2_s41 )
    [42, 5]  ( 1 ) * ( prob_f2_s42 )
    [43, 40]  ( 1 ) * ( prob_f2_s43 )
****************************The expressions start from here; Copying following expressions to MATLAB; Providing values for the parameters needed; Checking the result of <Output_abstract_model> ******
P2_0_1 = ((x)); 
P2_0_17 = (((-1)*x+(1))); 
P2_1_2 = ((p12*p11)); 
P2_1_3 = (((-1)*p12*p11+p11)); 
P2_1_4 = (((-1)*p12*p11+p12)); 
P2_1_5 = ((p12*p11-p11-p12+(1))); 
P2_2_6 = ((p22*p21)); 
P2_2_7 = (((-1)*p22*p21+p21)); 
P2_2_8 = (((-1)*p22*p21+p22)); 
P2_2_19 = ((p22*p21-p21-p22+(1))); 
P2_3_20 = (1); 
P2_7_9 = ((y2)); 
P2_7_10 = (((-1)*y1-y2+(1))); 
P2_7_18 = ((y1)); 
P2_16_11 = ((1)); 
P2_17_12 = ((1)); 
P2_18_13 = ((1)); 
P2_20_14 = ((1)); 
P2_21_15 = ((1)); 
P2_22_16 = ((1)); 
 
 Ep0 = p11*t11+p12*t12*(1-p11); 
 
 Ep1 = p21*t21+p22*t22*(1-p21); 
 
 Ep2 = p31*t31+p32*t32*(1-p31); 
 
 Ep3 = p41*t41+p42*t42*(1-p41); 
 
 Ep4 = p51*t51+p52*t52*(1-p51); 
 
 Ep5 = p61*t61+p62*t62*(1-p61); 

prob_f2_s19  =( (-1 * ((P2_0_1) * (P2_1_5)))/(P2_1_4*P2_2_8*P2_7_9+P2_1_2*P2_2_8*P2_7_9+P2_1_3*P2_2_8*P2_7_9+P2_1_4*P2_2_7*P2_7_9+P2_1_2*P2_2_7*P2_7_9+P2_1_3*P2_2_7*P2_7_9+P2_1_4*P2_2_6*P2_7_9+P2_1_2*P2_2_6*P2_7_9+P2_1_3*P2_2_6*P2_7_9+(-1))); 
prob_f2_s41  =( (P2_0_17)/(1)); 
prob_f2_s42  =( (-1 * ((P2_0_1) * (P2_1_4*P2_2_8*P2_7_18+P2_1_4*P2_2_7*P2_7_18+P2_1_3*P2_2_8*P2_7_18+P2_1_2*P2_2_6*P2_7_18+P2_1_2*P2_2_7*P2_7_18+P2_1_3*P2_2_6*P2_7_18+P2_1_3*P2_2_7*P2_7_18+P2_1_2*P2_2_8*P2_7_18+P2_1_4*P2_2_6*P2_7_18)))/(P2_1_4*P2_2_8*P2_7_9+P2_1_2*P2_2_8*P2_7_9+P2_1_3*P2_2_8*P2_7_9+P2_1_4*P2_2_7*P2_7_9+P2_1_2*P2_2_7*P2_7_9+P2_1_3*P2_2_7*P2_7_9+P2_1_4*P2_2_6*P2_7_9+P2_1_2*P2_2_6*P2_7_9+P2_1_3*P2_2_6*P2_7_9+(-1))); 
prob_f2_s43  =( (-1 * ((P2_0_1) * (P2_1_4*P2_2_19+P2_1_2*P2_2_19+P2_1_3*P2_2_19)))/(P2_1_4*P2_2_8*P2_7_9+P2_1_2*P2_2_8*P2_7_9+P2_1_3*P2_2_8*P2_7_9+P2_1_4*P2_2_7*P2_7_9+P2_1_2*P2_2_7*P2_7_9+P2_1_3*P2_2_7*P2_7_9+P2_1_4*P2_2_6*P2_7_9+P2_1_2*P2_2_6*P2_7_9+P2_1_3*P2_2_6*P2_7_9+(-1))); 
prob_f2_s44  =( (-1 * ((P2_0_1) * (P2_1_4*P2_2_8*P2_7_10+P2_1_4*P2_2_7*P2_7_10+P2_1_3*P2_2_8*P2_7_10+P2_1_2*P2_2_6*P2_7_10+P2_1_2*P2_2_7*P2_7_10+P2_1_3*P2_2_6*P2_7_10+P2_1_3*P2_2_7*P2_7_10+P2_1_2*P2_2_8*P2_7_10+P2_1_4*P2_2_6*P2_7_10)))/(P2_1_4*P2_2_8*P2_7_9+P2_1_2*P2_2_8*P2_7_9+P2_1_3*P2_2_8*P2_7_9+P2_1_4*P2_2_7*P2_7_9+P2_1_2*P2_2_7*P2_7_9+P2_1_3*P2_2_7*P2_7_9+P2_1_4*P2_2_6*P2_7_9+P2_1_2*P2_2_6*P2_7_9+P2_1_3*P2_2_6*P2_7_9+(-1))); 
P2_0_1 = ((x)); 
P2_0_17 = (((-1)*x+(1))); 
P2_1_2 = ((p12*p11)); 
P2_1_3 = (((-1)*p12*p11+p11)); 
P2_1_4 = (((-1)*p12*p11+p12)); 
P2_1_5 = ((p12*p11-p11-p12+(1))); 
P2_2_6 = ((p22*p21)); 
P2_2_7 = (((-1)*p22*p21+p21)); 
P2_2_8 = (((-1)*p22*p21+p22)); 
P2_2_19 = ((p22*p21-p21-p22+(1))); 
P2_3_20 = (1); 
P2_7_9 = ((y2)); 
P2_7_10 = (((-1)*y1-y2+(1))); 
P2_7_18 = ((y1)); 
P2_16_11 = ((1)); 
P2_17_12 = ((1)); 
P2_18_13 = ((1)); 
P2_20_14 = ((1)); 
P2_21_15 = ((1)); 
P2_22_16 = ((1)); 
 
 Ep0 = p11*t11+p12*t12*(1-p11); 
 
 Ep1 = p21*t21+p22*t22*(1-p21); 
 
 Ep2 = p31*t31+p32*t32*(1-p31); 
 
 Ep3 = p41*t41+p42*t42*(1-p41); 
 
 Ep4 = p51*t51+p52*t52*(1-p51); 
 
 Ep5 = p61*t61+p62*t62*(1-p61); 

ab1 =( (-1 * ((P2_0_1) * (P2_1_4*P2_2_8*P2_7_10*Ep2+P2_1_2*P2_2_7*P2_7_10*Ep2+P2_1_3*P2_2_8*P2_7_10*Ep2+P2_1_4*P2_2_7*P2_7_10*Ep2+P2_1_2*P2_2_6*P2_7_10*Ep2+P2_1_3*P2_2_7*P2_7_10*Ep2+P2_1_4*P2_2_6*P2_7_10*Ep2+P2_1_2*Ep1+P2_1_3*P2_2_6*P2_7_10*Ep2+Ep0+P2_1_3*Ep1+P2_1_2*P2_2_8*P2_7_10*Ep2+P2_1_4*Ep1)))/(P2_1_4*P2_2_8*P2_7_9+P2_1_3*P2_2_8*P2_7_9+P2_1_2*P2_2_8*P2_7_9+P2_1_4*P2_2_7*P2_7_9+P2_1_3*P2_2_7*P2_7_9+P2_1_2*P2_2_7*P2_7_9+P2_1_4*P2_2_6*P2_7_9+P2_1_3*P2_2_6*P2_7_9+P2_1_2*P2_2_6*P2_7_9+(-1))); 
P3_6_1 = ((p62*p61)); 
P3_6_2 = (((-1)*p62*p61+p61)); 
P3_6_3 = (((-1)*p62*p61+p62)); 
P3_6_4 = ((p62*p61-p61-p62+(1))); 
 
 Ep0 = p11*t11+p12*t12*(1-p11); 
 
 Ep1 = p21*t21+p22*t22*(1-p21); 
 
 Ep2 = p31*t31+p32*t32*(1-p31); 
 
 Ep3 = p41*t41+p42*t42*(1-p41); 
 
 Ep4 = p51*t51+p52*t52*(1-p51); 
 
 Ep5 = p61*t61+p62*t62*(1-p61); 

prob_f3_s36  =( (P3_6_1)/(1)); 
prob_f3_s37  =( (P3_6_2)/(1)); 
prob_f3_s38  =( (P3_6_3)/(1)); 
prob_f3_s39  =( (P3_6_4)/(1)); 
P3_6_1 = ((p62*p61)); 
P3_6_2 = (((-1)*p62*p61+p61)); 
P3_6_3 = (((-1)*p62*p61+p62)); 
P3_6_4 = ((p62*p61-p61-p62+(1))); 
 
 Ep0 = p11*t11+p12*t12*(1-p11); 
 
 Ep1 = p21*t21+p22*t22*(1-p21); 
 
 Ep2 = p31*t31+p32*t32*(1-p31); 
 
 Ep3 = p41*t41+p42*t42*(1-p41); 
 
 Ep4 = p51*t51+p52*t52*(1-p51); 
 
 Ep5 = p61*t61+p62*t62*(1-p61); 

ab2 =( (Ep5)/(1)); 
PX_1_1 = (( (p32*p31) ) * ( prob_f2_s44 )); 
PX_1_2 = (( ((-1)*p32*p31+p31) ) * ( prob_f2_s44 ));
PX_1_3 = (( ((-1)*p32*p31+p32) ) * ( prob_f2_s44 ));
PX_1_4 = (( (p32*p31-p31-p32+(1)) ) * ( prob_f2_s44 ));
PX_1_23 = (( (1) ) * ( prob_f2_s19 ));
PX_1_40 = (( 1 ) * ( prob_f2_s41 ));
PX_1_41 = (( 1 ) * ( prob_f2_s42 ));
PX_1_42 = (( 1 ) * ( prob_f2_s43 ));
PX_2_37 = (  ( (1) ) * ( prob_f3_s36 ) + ( (1) ) * ( prob_f3_s37 )  + ( (1) ) * ( prob_f3_s38 ) ); 
PX_2_38 = (( (1) ) * ( prob_f3_s39 ));
PX_3_13 = ((z2)); 
PX_3_14 = (((-1)*z1-z2+(1)));
PX_3_15 = ((z1));
PX_4_24 = ((1)); 
PX_5_25 = ((1)); 
PX_6_26 = ((1)); 
PX_7_27 = ((1)); 
PX_8_28 = ((1)); 
PX_9_29 = ((1)); 
PX_10_30 = ((1)); 
PX_11_31 = ((1)); 
PX_12_32 = ((1)); 
PX_13_33 = ((1)); 
PX_14_34 = ((1)); 
PX_15_35 = ((1)); 
PX_16_36 = ((1)); 
PX_17_39 = (1); 
PX_18_5 = ((p42*p41)); 
PX_18_6 = (((-1)*p42*p41+p41));
PX_18_7 = (((-1)*p42*p41+p42));
PX_18_8 = ((p42*p41-p41-p42+(1)));
PX_19_9 = ((p52*p51)); 
PX_19_10 = (((-1)*p52*p51+p51));
PX_19_11 = (((-1)*p52*p51+p52));
PX_19_12 = ((p52*p51-p51-p52+(1)));
PX_20_16 = ((1)); 
PX_21_17 = ((1)); 
PX_22_18 = ((1)); 
PX_23_19 = ((1)); 
PX_24_20 = ((1)); 
PX_25_21 = ((1)); 
PX_26_22 = ((1)); 

Output_abstract_model =( (PX_1_41*PX_18_7*PX_19_11*ab2*PX_3_14+PX_1_41*PX_18_6*PX_19_10*ab2*PX_3_14+PX_1_41*PX_18_6*Ep4*PX_3_14+PX_1_41*PX_18_6*PX_19_11*ab2*PX_3_14+PX_1_41*PX_18_7*PX_19_9*ab2*PX_3_14+PX_1_2*PX_18_7*ab2*PX_3_14+PX_1_1*PX_18_7*ab2*PX_3_14+ab1*PX_18_7*PX_3_14+PX_1_3*PX_18_7*ab2*PX_3_14+PX_1_41*PX_18_7*PX_19_10*ab2*PX_3_14+PX_1_41*PX_18_7*Ep4*PX_3_14+PX_1_3*PX_18_6*ab2*PX_3_14+ab1*PX_18_6*PX_3_14+PX_1_1*PX_18_6*ab2*PX_3_14+PX_1_2*PX_18_6*ab2*PX_3_14+PX_1_41*PX_18_6*PX_19_9*ab2*PX_3_14+(-1)*PX_1_41*PX_19_11*ab2+(-1)*PX_1_41*Ep4+(-1)*PX_1_41*PX_19_10*ab2+(-1)*PX_1_3*ab2+PX_1_41*PX_18_5*PX_19_9*ab2*PX_3_14+PX_1_2*PX_18_5*ab2*PX_3_14+PX_1_1*PX_18_5*ab2*PX_3_14+ab1*PX_18_5*PX_3_14+PX_1_3*PX_18_5*ab2*PX_3_14+PX_1_41*PX_18_5*PX_19_10*ab2*PX_3_14+PX_1_41*PX_18_5*Ep4*PX_3_14+PX_1_41*PX_18_5*PX_19_11*ab2*PX_3_14+(-1)*ab1+(-1)*PX_1_1*ab2+(-1)*PX_1_2*ab2+(-1)*PX_1_40*PX_18_5*PX_19_10*ab2*PX_3_15+(-1)*PX_1_40*PX_18_5*Ep4*PX_3_15+(-1)*PX_1_40*PX_18_5*PX_19_9*ab2*PX_3_15+(-1)*PX_1_40*PX_18_5*PX_19_11*ab2*PX_3_15+(-1)*PX_1_40*PX_18_7*PX_19_10*ab2*PX_3_15+(-1)*PX_1_40*PX_18_7*Ep4*PX_3_15+(-1)*PX_1_40*PX_18_7*PX_19_9*ab2*PX_3_15+(-1)*PX_1_40*PX_18_7*PX_19_11*ab2*PX_3_15+(-1)*PX_1_40*PX_18_6*PX_19_11*ab2*PX_3_15+(-1)*PX_1_40*PX_18_6*PX_19_9*ab2*PX_3_15+(-1)*PX_1_40*PX_18_6*Ep4*PX_3_15+(-1)*PX_1_40*PX_18_6*PX_19_10*ab2*PX_3_15+(-1)*PX_1_41*PX_19_9*ab2+(-1)*PX_1_40*Ep3)/(PX_1_40*PX_18_7*PX_3_13+PX_1_40*PX_18_6*PX_3_13+PX_18_5*PX_3_14+PX_1_40*PX_18_5*PX_3_13+PX_18_7*PX_3_14+PX_18_6*PX_3_14+(-1))); 
