Boolean degree 1 functions on some classical association schemes

Yuval Filmus; Ferdinand Ihringer

doi:10.1016/j.jcta.2018.11.006

Boolean degree 1 functions on some classical association schemes

Yuval Filmus, Ferdinand Ihringer

Research output: Contribution to journal › Article › peer-review

24 Scopus citations

Abstract

We investigate Boolean degree 1 functions for several classical association schemes, including Johnson graphs, Grassmann graphs, graphs from polar spaces, and bilinear forms graphs, as well as some other domains such as multislices (Young subgroups of the symmetric group). In some settings, Boolean degree 1 functions are also known as completely regular strength 0 codes of covering radius 1, Cameron–Liebler line classes, and tight sets. We classify all Boolean degree 1 functions on the multislice. On the Grassmann scheme J_q(n,k) we show that all Boolean degree 1 functions are trivial for n≥5, k,n−k≥2 and q∈{2,3,4,5}, and that, for general q, the problem can be reduced to classifying all Boolean degree 1 functions on J_q(n,2). We also consider polar spaces and the bilinear forms graphs, giving evidence that all Boolean degree 1 functions are trivial for appropriate choices of the parameters.

Original language	English
Pages (from-to)	241-270
Number of pages	30
Journal	Journal of Combinatorial Theory - Series A
Volume	162
DOIs	https://doi.org/10.1016/j.jcta.2018.11.006
State	Published - Feb 2019

Keywords

Boolean analysis
Boolean degree 1 function
Assocation scheme
Grassmann graph
Cameron-Liebler line class
Completely regular code

ASJC Scopus subject areas

Theoretical Computer Science
Discrete Mathematics and Combinatorics
Computational Theory and Mathematics

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10.1016/j.jcta.2018.11.006

Cite this

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title = "Boolean degree 1 functions on some classical association schemes",

abstract = "We investigate Boolean degree 1 functions for several classical association schemes, including Johnson graphs, Grassmann graphs, graphs from polar spaces, and bilinear forms graphs, as well as some other domains such as multislices (Young subgroups of the symmetric group). In some settings, Boolean degree 1 functions are also known as completely regular strength 0 codes of covering radius 1, Cameron–Liebler line classes, and tight sets. We classify all Boolean degree 1 functions on the multislice. On the Grassmann scheme Jq(n,k) we show that all Boolean degree 1 functions are trivial for n≥5, k,n−k≥2 and q∈{2,3,4,5}, and that, for general q, the problem can be reduced to classifying all Boolean degree 1 functions on Jq(n,2). We also consider polar spaces and the bilinear forms graphs, giving evidence that all Boolean degree 1 functions are trivial for appropriate choices of the parameters.",

keywords = "Boolean analysis, Boolean degree 1 function, Assocation scheme, Grassmann graph, Cameron-Liebler line class, Completely regular code",

author = "Yuval Filmus and Ferdinand Ihringer",

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year = "2019",

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AU - Ihringer, Ferdinand

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AB - We investigate Boolean degree 1 functions for several classical association schemes, including Johnson graphs, Grassmann graphs, graphs from polar spaces, and bilinear forms graphs, as well as some other domains such as multislices (Young subgroups of the symmetric group). In some settings, Boolean degree 1 functions are also known as completely regular strength 0 codes of covering radius 1, Cameron–Liebler line classes, and tight sets. We classify all Boolean degree 1 functions on the multislice. On the Grassmann scheme Jq(n,k) we show that all Boolean degree 1 functions are trivial for n≥5, k,n−k≥2 and q∈{2,3,4,5}, and that, for general q, the problem can be reduced to classifying all Boolean degree 1 functions on Jq(n,2). We also consider polar spaces and the bilinear forms graphs, giving evidence that all Boolean degree 1 functions are trivial for appropriate choices of the parameters.

KW - Boolean analysis

KW - Boolean degree 1 function

KW - Assocation scheme

KW - Grassmann graph

KW - Cameron-Liebler line class

KW - Completely regular code

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Boolean degree 1 functions on some classical association schemes

Abstract

Keywords

ASJC Scopus subject areas

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