How to beat anyone at rock-paper-scissors, according to a Chinese mathematician

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The Scientific Way to Win at Rock-Paper-Scissors

The question of how to win at rock-paper-scissors has, believe it or not, plagued mathematicians and game theorists for some time.

While they previously had devised a theoretical answer to the question, an experiment by Zhijian Wang at Zhejiang University in China that used real players has revealed an interesting wrinkle to the original theory.

In the experiment, Zhijian noticed that winning players tended to stick with their winning strategy, while losers tended to switch to the next strategy in the sequence of rock-paper-scissors, following what he calls "persistent cyclic flows."

Here's how it works in practice: Player A and Player B both start by using random strategies. If Player A uses rock and Player B uses paper, Player A loses. In the next round, Player A can assume that Player B will use paper again and should therefore use scissors to win. In the round after that, because Player B lost, Player A can assume that Player B will use the next strategy in the sequence -- scissors -- and Player A should then use rock, thus winning again.

If you take the game on a theoretical level, the most mathematically sound way to play rock-paper-scissors is by choosing your strategy at random. Because there are three outcomes -- a win, a loss, or a tie -- and each strategy has one other strategy that it can beat and one other strategy that can beat it, and we don't care what strategy we win with, it makes the most sense to pick paper, rock, and scissors each one-third of the time. This is called the game's Nash Equilibrium.

While the Nash Equilibrium should be the best strategy in real life, Zhijian found a decidedly different pattern when he and some other researchers recruited 72 students to play the game. They divided the pupils into 12 groups of six players and had them each play 300 rounds of rock-paper-scissors against each other. Zhijian also added a payout in proportion to the number of victories.

When Zhijian reviewed the results, he found that students chose each strategy close to one-third of the time, suggesting the Nash Equilibrium theory. But when he looked closer, he noticed a more unusual pattern.

The pattern that Zhijian discovered -- winners repeating their strategy and losers moving to the next strategy in the sequence -- is called a "conditional response" in game theory. The researchers have theorized that the response may be hard-wired into the brain, a question they intend to investigate with further experiments.

For now, Zhijian suggests that exploiting the knowledge that most people use the conditional strategy may result in winning a lot more games of rock-paper-scissors.

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