Frogs, hats and common subsequences

Write W^(n) to mean the n-letter word obtained by repeating a fixed word W and let R_n denote a uniformly random n-letter word sampled from the same alphabet as W. We are interested in the average length of the longest common subsequence between W^(n) and R_n, which is known to be γ(W)· n+o(n) for some constant γ(W). Bukh and Cox recently developed an interacting particle system, dubbed the frog dynamics, which can be used to compute the constant γ(W) for any fixed word W. They successfully analyzed the simplest case of the frog dynamics to find an explicit formula for the constants γ(12⋯ k). We continue this study by using the frog dynamics to find an explicit formula for the constants γ(12⋯ kk⋯ 21). The frog dynamics in this case is a variation of the PushTASEP on the ring where some clocks are identical. Interestingly, exclusion processes with correlated clocks of this type appear to have not been analyzed before. Our analysis leads to a seemingly new combinatorial object which could be of independent interest: frogs with hats!