GS FL330 Page 7 Worksheet

I'm not a preacher by trade, but a little 'preaching' about the potential benefits of a

Substiture Lottery System might be helpful at this point.

The main, primary, principle benefit of a substitution system is that winning lottery combinations

can be reduced to a distinct structure.

This workout provides a rational, logical, systematic, legitimate means whereby the lottery numbers

can be converted to structures.

Using data on certain tracking forms, a player can decide which structure has the best chance of

'coming up' in the next drawing. He or she can then use several data streams,

main the Alpha Identifier Number stream to choose which numbers have the best chance of

being in the next winning combination.

For example, if a player thinks Alpha Structure ABC is the best choice, he or she

then has to pick 3 different numbers, one from reach of three separate groups, to form a

combination for play.

Yes, the lottery numbers are determined by random methods.

However, a player using this particular strategy has every reason to believe that his or her

choices will match the winning combination.

True, it's guesswork. The matches won't happen every drawing. There will be hot and cold periods.

There will be times when frustration over 'missing by one' will cause heart burn.

But, 'you never know' what will happen next, and it's true, you have to be in to win.

This stragegy will provide the best chances to win - without having to play a large number

of combinations, as is the case with some of the other strategies posted at LP. It has worked

fr me numerous times in the past year. Of course, it has also caused plenty of frustration, when

I lose because, given a choice between two numbers, I chose the wrong one.

A word of caution.

I've noted that some players who decided to use the power of substitution for their lottery

choices have difficulty letting go of old habits. That is, they try to adapt their old ways of doing

things to a new way.

Substitution is totally different way of doing things.

There are no 'roots', no 'sums' no adding, no VTRACs, no substraction, no multiplication,

no division.

While a player can choose to track the lottery numbers by Odds and Evens, High and

Lows, these concepts have absolutely no place in the manner in which this system

helps players decide what numbers to play.

Its all about using the power of substitution according to definte set of instructions.

Time to start processing Gap combinations.

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The first step required by this strategy is the conversion of lottery numbers to Gap numbers.

The way in which the conversion is accomplished has already been described. The required

Distribution and Count Chart has been created and used for lottery numbers beginning

on Nov. 1.

We now have a continuous Gap number stream, which will be entered on Row 7 of the Worksheet.

We will now use those numbers to build several data streams that are used, in turn, to generate

the structures.

//The manner in which the data is used to choose numbers will be presented via a separate page//.

Refer to GS FL330 Page 3, which is copied here.

This post provides, using the Row/Column technique, the skeleton for the main Substitute

Lottery System worksheet.

The data is logged on a graph sheet having 30 rows and 40 columns.

INSTRUCTIONS

R2/C17 - Identify the page as the WORKSHEET

R4/C3-12 - Enter 10 9 8 7 6 5 4 3 2 1

R4/C29-40 - Enter 1.2.3=A, 4.5.6=B, 7.8.9=C, R=0

R5/C3-12 - Enter F1F2F3F4F5L1L2L3L4L5 (These should be aligned so that 10 is in same column

as 'F1')

R7/C2 - Enter RE (Reference number)

R8/C2 - Enter PI (Fixed Position Identifiers)

R9/C2 - Enter G# (Gap numbers)

R9/C3-12 - Enter 1 2 3 4 5 6 7 8 9 0

R10/C2 - Enter AL (Alpha Identifier, Letter components)

R11/C2 - Enter A# (Alpha Identifier, Number components)

R12/C2 - Enter S# (Numerical structure numbers)

R28/C3-12 - Enter F1F2F3F4F5L1L2L3L4L5

Explanations:

All of the streams have names and a purpose.

Basically, this form provides the means whereby a Gap number is converted to what is called a

Position Identifier, which, in turn, is then used to generate another stream called Alpha Identifier which has

two components.

The PID has a Fixed version, which is shown above, and a 'Hot' version, which will vary according to the

specific data being logged. This will be explained by example.

The AID components are 1A2A3A; 4B5B6B; 7C8C9C; and OR. These can be logged as A1A2A3, B4B5B6, C7C8C9 and R0.

The Letter component stream (Row 8) is used to form the Alpha Structures. There are 64 of them

representing 1000 straight lottery combinations.

Ex: AAA, AAB, BAB, CCA, etc. These are logged and tracked separately.

The Number component (Row9) is used to form the Number Structures. There are 20 of them. These are logged and tracked.

Ex: 1200, 2010, etc.

Each number structure is a substitute for a distinct Alpha Structure.

For example, 1200 = 1 A, 2 Bs, Zero Cs and zero R (ABB); 2010 = 2 As, zero Bs, 1 C and zero R (AAC).

Conversely, AAA = 3000; ABC = 1110; BCC = 0120, etc.

The AID numbers are logged in 3 books - A Book, B Book, and C/R Book. These will be explained later.

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Referring to the Distribution and Count Chart, the initial Gap number combination to be processed is:

Lottery Number = 891

Gap Number = 293

Using the Row/Column reference technique:

Enter GAP combination 293 in Worksheet graph cells at Row 7/Col 13,14,15.

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DETERMINING THE PID

Counting from right to left in Row 7, count the number of Active Cells between G#2 and the '#2' already

in the stream.

The count is

'9'. This is a Fixed PID reference number and is entered into the cell at R5/C13.

The ' 2' that was aleady in the stream is Marked Off, making it an INACTIVE CELL.

Counting right to Left in Row 7, count the number of Active Cells between G#9 and the '#9' already in the

stream.

The count is

3. This is a reference number and is entered into the cell at R5/C14.

The '9' that was already in the stream is Marked off.

Counting right to left, count the number of active cells between G#3 and the '#3' already in the stream.

The count is

'9'. This a reference number and is entered into the cell at R5/C15.

The '3' that was already in the stream is marked off.

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Refer to the Fixed PID stream data in Rows 2 and 3.

Note that Reference number

'9' and PID 'F2' are aligned. Therefore, enter 'F2' into the cell at R6/C13.

Note that Reference number

'3'' and PID 'L3' are aligned. Therefore, enter 'L3' into the cell at R6/C14.

Note that Reference number '

9 and PID 'F2' are aligned. Therefore, enter 'F2' into the cell at R6/C15

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DETERMINING THE AID

Enter

'F2' into the cell at Row 25 and Col 13

Counting right to left, count the number of active cells between the added 'F2' and the 'F2' already

in the stream.

The count is

'9', which is placed into the cell at R9/C13.

The 'F2' that was already in the stream is marked off.

Enter

'L3' in the cell at Row 25 and Col 14.

Counting from right to left, count the number of activer cells between the added 'L3' and the 'L3'

already in the stream.

The count is

'4', which is placed into the cell at R9/C14.

The 'L3' that was already in the stream is marked off.

Enter

'F2' into the cell at Row 25, Col 13.

Counting right to left, count the numer of active cells between the added 'F2' and the 'F2' already in the

stream.

The count is

'2', which is placed in the cell at R9/C15.

The 'F2' that was already in the stream is marked off.

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Referring to the sequence given on Row 2 at top of the form.

According to the sequence,

AID#9' is a 'C'.

Enter

'C' into the cell at Row 8 and Col 13.

According to the sequence,

AID#4'is a 'B'.

Enter

'B' into the cell at Row 8 and Col 14.

According to the sequence,

'AID#2' is an 'A'.

Enter 'A' into the cell at Row 8 and Col 15.

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The Alpha structure for lottery number

'891' and Gap number '293' is 'CBA'

Note: This is a dynamic workout. Therefore, Gap number 293 could produce a different Alpha

structure for future drawings.

The Alpha number structure for Alpha structure 'CBA' is 1110 (1 A, 1 B, 1 C)

Enter 1 at R10/13; 1 at R10/C14, and 10 at Row 10/ Cell 15.

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The tracking and trend logs described in other pages should be updated.

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According to the D&C chart, the next Gap number to be processed is

'169'

Enter '169' on Row 7/C16,17,18

Count the number of active cells between the '1' and the '1' already in the stream.

The count is 10

Enter '10' in cell R5/C16.

Mark off the '1' that was already in stream.

Count the number of active cells between the '6' and the '6' already in the stream.

The count is 8

Enter '8' in cell R5/C17

Mark off the '6' that was already in the stream.

Count the number of active cells between the '9'and '9' already in the stream.

The count is '4'

Enter '4' in cell R5/C18

Mark off the '9' that was already in the stream.

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Refer to the Fixed PID cells on Rows 2 and 3

Note that reference number 10 and F1 are aligned. Therefore, into F1 into R6/C16.

Note that reference number 8 and F3 are aligned. Therefore, enter F3 into R6/C17

Note that reference number 4 and L2 are aligned. Therefore, enter L2 into R6/C18.

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Determining the AID

Enter F1 at Row 25/C16

Enter F3 at Row 25/C17

Enter L2 at Row 25/C18

Count the number of active cells between the F1 added to the stream and the F1 already in the stream.

The count is 6

Enter 6 at R9/C16.

Mark off the F1 that was in the stream.

Count the number of active cells between the F3 added to the stream and the F3 already in the stream.

The count is 9.

Enter 9 at R9/C17

Mark off the F3 that was already in the stream.

Count the number of active cells between the L2 added to the stream and F3 already in the stream.

The count is 7.

Enter 7 at R9/C18

Mark off the F3 that was already in the stream.

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Determine the Alpha structure using the AID reference data on Row 2.

According to the data, AID#6 is a 'B'

Enter a 'B' at R8/C16.

According tothe data, AID#9 is a 'C'

Enter a 'C' at R8/C17

According to the data, AID#7 is a 'C'

Enter a 'C' at R8/C18

The Alpha structure for Gap combintion 169 is 'RCC'

The Alpha number structure for RCC is 0021(No As, No Bs, 2Cs, 1R)

Enter 0 at R10/C16, 0 at R10/C17, 21 at R10/C18.

Update the tracking and trend logs.

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The remaining and additional Gap combinations are processed EXACTLY as described.

Yes, the processing is involved, but will eventually become what is known as a 'piece of cake.'

Remember, there can only be 10 active cells in a stream.

A problem some so-called Newbies have with worksheet is that they forget to mark off

cells that change from Active to Inactive.

This concludes Worksheet entries for this post.

If anyone has problems, they need to contact me via Post or IM as soon as possible.

The Gap combinations have to be processed as quickly as possible.

If you delay, put it off, or whatever, you will soon be so far behind that you might not want to

continue using this strategy, and that would be a great loss for you.

Note: There may be some errors, or typos, in this Post but nothing that can't be

corrected without too much difficulty.