Random Thoughts

Blueprint · Jun 25, 09:53 AM 2018

Quote from: falkor2k15 on Jun 25, 04:29 AM 2018
Win-Loss tally...?

Would that help you win?

falkor2k15 · Jun 25, 05:33 PM 2018

Quote from: Blueprint on Jun 25, 09:53 AM 2018
Would that help you win?

Well, Priyanka was playing Six Dozen Options mechanically based on the first available repeat, i.e.:
Option 1... bet option 1
Option 12... bet option 1+2
Option 123... bet option 1+2+3
Option 1231... win!

That's very similar to VdW, i.e. betting for the first available AP regardless of any stats, and was the basis for her "Journey" series of videos.

As with VdW focus on the green spreadsheet/six dozen options seems to be based on the Win-Loss registry:

Priyanka seems to mostly change her bet following a series of losses.

I can certainly make a tally and see if there's any patterns, but I doubt it.

praline · Jun 25, 05:51 PM 2018

Quote from: falkor2k15 on Jun 25, 05:33 PM 2018Well, Priyanka was playing Six Dozen Options mechanically based on the first available repeat, i.e.:
Option 1... bet option 1
Option 12... bet option 1+2
Option 123... bet option 1+2+3
Option 1231... win!

Amazing!
How did you understood that?

falkor2k15 · Jun 25, 06:02 PM 2018

Quote from: praline on Jun 25, 05:51 PM 2018
Amazing!
How did you understood that?

It was in part thanks to you - but is no different to the VDW method, and doesn't result in edge, so nothing particularly amazing... an amazing bedtime story, perhaps?

falkor2k15 · Jun 25, 06:27 PM 2018

Here's the win-loss registry for Six Dozen Options as per mechanical rules:
L L L L W
L L L L W
L L L L W
L W
L W
L W L L W W
W W
L L L W
L L W
L L L W L W
L L L L L L L
L W
L W
W
L L L L W L L W L L W L
L W L L W
W
L W
W
W
L L L W
W
L L L L W
L L W
L L W
L W
W
L L L L L
L W L L W
L W
L W L L L
L L W
L W
W
W
W
L L W L W
L L W
L W L W L L W
L L W
L W
L L L L L L L
L L W
W
L W
L L W
W
L L L
L L W L L L W
L W
W
L L L L W
L W
L W
W
L L L L L W
L W L L L L W W
L L L W
L L L W
L W
L W
L L L L W W
L W L L W W
L W
L L W
L L L L W W
L W
L L L L L L
L W
L W W
L W L L L L W L L L L L L
W L L L L L L W
W
L W
L W
W
L W
L L L L W
L W
W
L L L L L W
L W
L L L W
L L W
L W
L W
L L L L L W
L L L L W
L W W
L W L W W
L W
L L W
L L L L
W
L L L L W
W
L L L L L
W
L L W
W
L L W
W
W
L L L W
W
L L W
W
W
L L W
L W
W
L L L L L W
L L L L W L L W L L W
L W
L L L W
L W
W
L L L L W
L L L W
W
L W
L L L L W
L L W
W
L L L L L W
L W L L W W
L L L L L L
W
L W
L L L W
L L L W W
L W L L L W
L W
L L W
L W
L L W
L L W
L L L W
L L W
L W
L W
L L W
W
L W
L L W
W
L L L L L L L
L L W W
L W
L W
W
L L L W
W
W
L W
L W
W
L L L L L W
W
L W
L L L L L L L
L L W
W
L L L W L W
W
L L L L W
L L W
L L L W
W
L W
L L W
W
L L W
L L L L L
L L L W
L L L L L L L
L L L
W
L W
L W
L L W
L W
L L L L L L
W
W
W
L L W
L L L L W W
L W W
W
L W
L W
L L L L W L L W W
L L W L W
L L L W
L L L L W
L W
L W
L L L W
W

Any pattern?

falkor2k15 · Jun 25, 06:44 PM 2018

There could be a slight bias...?

baldguy99 · Jul 31, 10:47 AM 2018

Hello, I am new to join this forum. I am a Mathematics/Computer Science student that has been studying Combinatorial Theory, and especially Ramsey Theory. One day, I got the interesting idea to play casino games with some important theorems in Ramsey Theory, especially Van der Waerden's Theorem and Shur's Theorem. I started coding up a roulette simulator last night to test my algorithms.
This thread is cool. The first posts took a step in the right direction, but I think that there is lots and lots of room for further development, as well as the potential to lay other casino games in this type of strategy.

I think about the game of roulette as being a set S of 38 elements. We can partition this set into different partitions in different ways. Namely:

%%   =Partitions=
%%   __________________________________________
%% | elements | partitions | number of ways |
%% |----------|------------|----------------|
%% |   12     |      3   |      2       |
%% |   18     |   2      |   3          |
%% |   1     |   36      |   1          |
%% |   4     |   9      |   1          |
%% |   2     |   18      |   1          |
%% |   3     |   12      |   1          |
%% |   6     |   6      |   1          |
%% |----------------------------------------|
%%

Not to mention the fact that {0,00} will always be in their own disjoint partition of the set. We can actually identify multiple arithmetic progression at the same time, based on a single element being a member of multiple partitions at the same time. Thus, we can tremendously increase the odds of winning. Theoretically, I conjecture that it is possible to get almost 100% win rate.

Set partitions are an interesting area of math. The second kind of sterling number is the number of ways to partition a set of n elements in partitions of size k: S(n,k). The Catalan Number is the number of non-intersecting partitions. You can calculate it by subtracting all set partitions that intersect from the second Sterling Number. The Catalan number is also the number of full binary trees on n+1 leaves, and is also the number of paths that can be taken to get from point A to point B without crossing the diagonal straight line between the points.

There are many other applications of combinatorial number theory in Baccarat, for example, which can be thought of as a system of polynomials modulo 10.

Blueprint · Jul 31, 11:12 AM 2018

Yes, first 5 pages of this thread... then it went to s#!t.

And yes, the beginnings are there.

RouletteGhost · Jul 31, 11:20 AM 2018

Quote from: baldguy99 on Jul 31, 10:47 AM 2018
Hello, I am new to join this forum. I am a Mathematics/Computer Science student that has been studying Combinatorial Theory, and especially Ramsey Theory. One day, I got the interesting idea to play casino games with some important theorems in Ramsey Theory, especially Van der Waerden's Theorem and Shur's Theorem. I started coding up a roulette simulator last night to test my algorithms.
This thread is cool. The first posts took a step in the right direction, but I think that there is lots and lots of room for further development, as well as the potential to lay other casino games in this type of strategy.

I think about the game of roulette as being a set S of 38 elements. We can partition this set into different partitions in different ways. Namely:

%%   =Partitions=
%%   __________________________________________
%% | elements | partitions | number of ways |
%% |----------|------------|----------------|
%% |   12     |      3   |      2       |
%% |   18     |   2      |   3          |
%% |   1     |   36      |   1          |
%% |   4     |   9      |   1          |
%% |   2     |   18      |   1          |
%% |   3     |   12      |   1          |
%% |   6     |   6      |   1          |
%% |----------------------------------------|
%%

Not to mention the fact that {0,00} will always be in their own disjoint partition of the set. We can actually identify multiple arithmetic progression at the same time, based on a single element being a member of multiple partitions at the same time. Thus, we can tremendously increase the odds of winning. Theoretically, I conjecture that it is possible to get almost 100% win rate.

Set partitions are an interesting area of math. The second kind of sterling number is the number of ways to partition a set of n elements in partitions of size k: S(n,k). The Catalan Number is the number of non-intersecting partitions. You can calculate it by subtracting all set partitions that intersect from the second Sterling Number. The Catalan number is also the number of full binary trees on n+1 leaves, and is also the number of paths that can be taken to get from point A to point B without crossing the diagonal straight line between the points.

There are many other applications of combinatorial number theory in Baccarat, for example, which can be thought of as a system of polynomials modulo 10.

Why would 0/00 be different than any of the other numbers?

You said theyâ€™d be their own partition.

Curious why

And welcome, interesting contribution there.

Badger · Aug 01, 05:20 AM 2018

Quote from: RouletteGhost on Jul 31, 11:20 AM 2018Why would 0/00 be different than any of the other numbers?

They don't fall under any dozen or EC ie any subset on the table except their own.

baldguy99 · Aug 01, 10:53 AM 2018

Quote from: Badger on Aug 01, 05:20 AM 2018
They don't fall under any dozen or EC ie any subset on the table except their own.

Because {0,00} cannot be in the partitions for red/black, even/odd, 1st 12, 2nd 12, etc. {0,00} is always disjoint from every other partition

Badger · Aug 01, 11:05 AM 2018

That's what I meant. Except you said it more elegantly.

baldguy99 · Aug 01, 11:09 AM 2018

Also, just to let it be known: I am really only interested in the mathematics. I want to use this to go playing once or twice, but I am most interested in the math. I am hoping that the OP and other interested people will post here so we can talk about it more. The thing is, Red/Black is not the only way to partition the set! there are many ways to do it at the same time. The trick is to keep track of multiple A.P.'s at the same time.

Badger · Aug 01, 11:20 AM 2018

Sorry Baldguy.
I am mathematically challenged, so I guess that excludes me.
Perhaps this attachment might help you.

Blueprint · Aug 01, 12:21 PM 2018

Quote from: baldguy99 on Aug 01, 11:09 AM 2018
Also, just to let it be known: I am really only interested in the mathematics. I want to use this to go playing once or twice, but I am most interested in the math. I am hoping that the OP and other interested people will post here so we can talk about it more. The thing is, Red/Black is not the only way to partition the set! there are many ways to do it at the same time. The trick is to keep track of multiple A.P.'s at the same time.

Cool, also to let it be known if you're looking for a "mathematical proof" that could be a while. Just setting expectations here.

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