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We study the orbits under the natural action of a permutation group $G \subseteq S_n$ on the powerset $\mathscr{P}(\{1, \dots , n\})$. The permutation groups having exactly $n+1$ orbits on… Click to show full abstract
We study the orbits under the natural action of a permutation group $G \subseteq S_n$ on the powerset $\mathscr{P}(\{1, \dots , n\})$. The permutation groups having exactly $n+1$ orbits on the powerset can be characterized as set-transitive groups (see Definition 2.2) and were fully classified in \cite{BP55}. In this paper, we establish a general method that allows one to classify the permutation groups with $n+r$ set-orbits for a given $r$, and apply it to integers $2 \leq r \leq 11$ using the computer algebra system GAP.
Keywords:
orbits action;
finite permutation;
permutation groups;
groups orbits;
permutation
Journal Title: Rocky Mountain Journal of Mathematics
Year Published: 2021
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Journal Title: Rocky Mountain Journal of Mathematics
Year Published: 2021
Link to full text (if available)
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recommendations!