1 / 20

Strategies for playing the dice game ‘Toss Up’

Strategies for playing the dice game ‘Toss Up’. Roger Johnson South Dakota School of Mines & Technology April 2012. ‘Toss Up’ Dice. Game produced by Patch Products (~$7) ( http://www.patchproducts.com/letsplay/ tossup.asp ) Ten 6-Sided Dice 3 sides GREEN 2 sides YELLOW 1 side RED

siusan
Download Presentation

Strategies for playing the dice game ‘Toss Up’

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Strategies for playing the dice game ‘Toss Up’ Roger Johnson South Dakota School of Mines & Technology April 2012

  2. ‘Toss Up’ Dice • Game produced by Patch Products (~$7) (http://www.patchproducts.com/letsplay/ tossup.asp) • Ten 6-Sided Dice • 3 sides GREEN • 2 sides YELLOW • 1 side RED • Players take turns • Each turn consists of (potentially) several rolls of the dice • First player to at least 100 wins

  3. A Roll in ‘Toss Up’ • SOME GREEN  add the number of green to your turn score; remaining (non-green) dice may be used on the next roll • ALL YELLOW  no change in turn score, all dice thrown on the next roll • NO GREEN and AT LEAST ONE RED  lose points accumulated in current turn; turn ends

  4. A Turn in ‘Toss Up’ • After each roll: • If the player is not forced to stop - she may either continue or voluntarily stop • With a voluntary stop, the score gained on the turn is added to previously accumulated score • If all the dice have been “used up”, then the player returns to rolling all 10 dice again

  5. One Strategy • Continue only when expected increase in score is positive. • Suppose current turn score is s and d dice are being thrown. The expected increase is:

  6. Positive Expected Increase Strategy

  7. Positive Expected Increase Strategy • Empirical game length with this strategy (100,00 trials): Average = 11.92, Standard Deviation = 1.50

  8. Second Strategy • Minimize the expected number of turns (c.f. Tijms (2007)) • is the expected additional number of turns to reach at least 100 when i = score accumulated prior to the current turn j = score accumulated so far during the current turn

  9. Expected Values Recursions

  10. Expected Values Recursions

  11. Solving the Recursion • Have • Used

  12. Minimal Expected Value • 7.76 turns as opposed to about 11.92 turns for first strategy (~35% reduction) • Simulation with optimal strategy, using 100,000 trials, gives an average of 7.76 turns with a standard deviation of 2.77 turns

  13. Character of Optimal Solution • Complicated • Not always intuitive • Some (weak) dependence on previously accumulated score • Optimal solution at http://www.mcs.sdsmt.edu/rwjohnso/html/ research.html

  14. Rough Approximation of Optimal Solution

  15. Empirical Results

  16. References • Johnson, R. (2012), “‘Toss Up’ Strategies”, The Mathematical Gazette, to appear November. • Johnson, R. (2008), “A simple ‘pig’ game”, Teaching Statistics, 30(1), 14-16. • Neller, T. and Presser (2004), “Optimal play of the dice game Pig”, The UMAP Journal, 25, 25-47 (c.f. http://cs.gettysburg.edu/projects/pig/). • Tijms, H. (2007), “Dice games and stochastic dynamic programming”, Morfismos, 11(1), 1-14 (http://chucha.math.cinvestav.mx/morfismos/v11n1/tij.pdf).

  17. Questions?

  18. Chances of Various Outcomes

More Related