Enumerative combinatorics
Journal of Combinatorial Theory Series A
On the structure of the lattice of noncrossing partitions
Discrete Mathematics
Chains in the lattice of noncrossing partitions
Discrete Mathematics
Non-crossing partitions for classical reflection groups
Discrete Mathematics
Flag-symmetry of the poset of shuffles and a local action of the symmetric group
Discrete Mathematics - Special issue on selected papers in honor of Henry W. Gould
Posets that locally resemble distributive lattices
Journal of Combinatorial Theory Series A
Two generalizations of posets of shuffles
Journal of Combinatorial Theory Series A
Lexicographic Shellability for Balanced Complexes
Journal of Algebraic Combinatorics: An International Journal
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Ehrenborg introduced a quasi-symmetric function encoding, denoted Fp, for the flag f-vector of any finite, graded poset P with 0 and 1. Stanley observed that Fp is a symmetric function whenever P is locally rank-symmetric and asked for conditions under which Fp is Schur-positive. We provide formulas for Fp for three classes of locally rank-symmetric posets: graded monoid posets, generalized posets of shuffles and noncrossing partition lattices for classical reflection groups. Our flag f-vector expressions for generalized shuffle posets and noncrossing partition lattices exhibit Schur-positivity, while graded monoid posets do not always have Schur-positive flag f-vector.Each of our flag f-vector expressions results from a poset chain decomposition. For the noncrossing partition lattices and shuffle posets, these also yield symmetric chain decompositions (by restriction to 1-chains), shellability and supersolvability results and combinatorial formulae including characteristic polynomial and zeta polynomial. Our (more complicated) flag f-vector expression for graded monoid posets involves Gröbner bases and a weighted notion of Möbius function for the poset of partitions of a multiset and related multiset intersection posets.