On No-Three-In-Line Problem on m-Dimensional Torus
Let Z be the set of integers and Zl be the set of integers modulo l. A set L⊆T=Zl1×Zl2Zlm is called a line if there exist a, b∈ T such that L={a+tb∈T:t∈Z}. A set X⊆ T is called a no-three-in-line set if | X∩ L| ≤ 2 for all the lines L in T. The maximum size of a no-three-in-line set is denoted by τ(...
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| Main Authors: | , |
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| Format: | Article |
| Published: |
Springer Verlag
2018
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| Subjects: | |
| Online Access: | http://eprints.um.edu.my/21579/ https://doi.org/10.1007/s00373-018-1878-8 |
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| Summary: | Let Z be the set of integers and Zl be the set of integers modulo l. A set L⊆T=Zl1×Zl2Zlm is called a line if there exist a, b∈ T such that L={a+tb∈T:t∈Z}. A set X⊆ T is called a no-three-in-line set if | X∩ L| ≤ 2 for all the lines L in T. The maximum size of a no-three-in-line set is denoted by τ(T). Let m≥ 2 and k1, k2, … , km be positive integers such that gcd (ki, kj) = 1 for all i, j with i≠ j. In this paper, we will show that (Formula presented.).We will give sufficient conditions for which the equality holds. When k1= k2= ⋯ = km= 1 and n= pl where p is a prime and l≥ 1 is an integer, we will show that equality holds if and only if p= 2 and l= 1 , i.e., τ(Zpl×Zpl×⋯×Zpl) = 2pl(m-1) if and only if p= 2 and l= 1. |
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