The query complexity of a permutation-based variant of Mastermind

Peyman Afshani; Manindra Agrawal; Benjamin Doerr; Carola Doerr; Kasper Green Larsen; Kurt Mehlhorn

doi:10.1016/j.dam.2019.01.007

The query complexity of a permutation-based variant of Mastermind

Peyman Afshani
, Manindra Agrawal
, Benjamin Doerr
, Carola Doerr
, Kasper Green Larsen
, Kurt Mehlhorn

Aarhus University
Indian Institute of Technology Kanpur
Sorbonne Université
Max-Planck-Institut fur Informatik

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

We study the query complexity of a permutation-based variant of the guessing game Mastermind. In this variant, the secret is a pair (z,π) which consists of a binary string z∈{0,1} ⁿ and a permutation π of [n]. The secret must be unveiled by asking queries of the form x∈{0,1} ⁿ . For each such query, we are returned the score f _z,π (x)≔max{i∈[0.n]∣∀j≤i:z _π(j) =x _π(j) };i.e., the score of x is the length of the longest common prefix of x and z with respect to the order imposed by π. The goal is to minimize the number of queries needed to identify (z,π). This problem originates from the study of black-box optimization heuristics, where it is known as the LEADINGONES problem. In this work, we prove matching upper and lower bounds for the deterministic and randomized query complexity of this game, which are Θ(nlogn) and Θ(nloglogn), respectively.

langue originale	Anglais
Pages (de - à)	28-50
Nombre de pages	23
journal	Discrete Applied Mathematics
Volume	260
Les DOIs	https://doi.org/10.1016/j.dam.2019.01.007
état	Publié - 15 mai 2019

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@article{a909883c32474cbd80ce1a3a000d91ab,

title = "The query complexity of a permutation-based variant of Mastermind",

abstract = " We study the query complexity of a permutation-based variant of the guessing game Mastermind. In this variant, the secret is a pair (z,π) which consists of a binary string z∈\{0,1\} n and a permutation π of [n]. The secret must be unveiled by asking queries of the form x∈\{0,1\} n . For each such query, we are returned the score f z,π (x)≔max\{i∈[0.n]∣∀j≤i:z π(j) =x π(j) \};i.e., the score of x is the length of the longest common prefix of x and z with respect to the order imposed by π. The goal is to minimize the number of queries needed to identify (z,π). This problem originates from the study of black-box optimization heuristics, where it is known as the LEADINGONES problem. In this work, we prove matching upper and lower bounds for the deterministic and randomized query complexity of this game, which are Θ(nlogn) and Θ(nloglogn), respectively.",

keywords = "Black-box complexity, Hidden permutation, LEADINGONES, Query complexity",

author = "Peyman Afshani and Manindra Agrawal and Benjamin Doerr and Carola Doerr and Larsen, \{Kasper Green\} and Kurt Mehlhorn",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier B.V.",

year = "2019",

month = may,

day = "15",

doi = "10.1016/j.dam.2019.01.007",

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AU - Afshani, Peyman

AU - Agrawal, Manindra

AU - Doerr, Benjamin

AU - Doerr, Carola

AU - Larsen, Kasper Green

AU - Mehlhorn, Kurt

PY - 2019/5/15

Y1 - 2019/5/15

N2 - We study the query complexity of a permutation-based variant of the guessing game Mastermind. In this variant, the secret is a pair (z,π) which consists of a binary string z∈{0,1} n and a permutation π of [n]. The secret must be unveiled by asking queries of the form x∈{0,1} n . For each such query, we are returned the score f z,π (x)≔max{i∈[0.n]∣∀j≤i:z π(j) =x π(j) };i.e., the score of x is the length of the longest common prefix of x and z with respect to the order imposed by π. The goal is to minimize the number of queries needed to identify (z,π). This problem originates from the study of black-box optimization heuristics, where it is known as the LEADINGONES problem. In this work, we prove matching upper and lower bounds for the deterministic and randomized query complexity of this game, which are Θ(nlogn) and Θ(nloglogn), respectively.

AB - We study the query complexity of a permutation-based variant of the guessing game Mastermind. In this variant, the secret is a pair (z,π) which consists of a binary string z∈{0,1} n and a permutation π of [n]. The secret must be unveiled by asking queries of the form x∈{0,1} n . For each such query, we are returned the score f z,π (x)≔max{i∈[0.n]∣∀j≤i:z π(j) =x π(j) };i.e., the score of x is the length of the longest common prefix of x and z with respect to the order imposed by π. The goal is to minimize the number of queries needed to identify (z,π). This problem originates from the study of black-box optimization heuristics, where it is known as the LEADINGONES problem. In this work, we prove matching upper and lower bounds for the deterministic and randomized query complexity of this game, which are Θ(nlogn) and Θ(nloglogn), respectively.

KW - Black-box complexity

KW - Hidden permutation

KW - LEADINGONES

KW - Query complexity

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SP - 28

EP - 50

JO - Discrete Applied Mathematics

JF - Discrete Applied Mathematics

ER -

The query complexity of a permutation-based variant of Mastermind

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