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Sh:762

Brendle, J., & Shelah, S. (2003). Evasion and prediction. IV. Strong forms of constant prediction. Arch. Math. Logic, 42(4), 349–360. arXiv: math/0103153 DOI: 10.1007/s001530200143 MR: 2018086
Abstract:
Say that a function \pi:n^{<\omega}\to n (henceforth called a predictor) k–constantly predicts a real x\in n^\omega if for almost all intervals I of length k, there is i\in I such that x(i)=\pi(x\restriction i). We study the k–constant prediction number {\mathfrak v}_n^{\rm const}(k), that is, the size of the least family of predictors needed to k–constantly predict all reals, for different values of n and k, and investigate their relationship.
Version 2001-08-06_11 (16p) published version (12p)

Bib entry

@article{Sh:762,
 author = {Brendle, J{\"o}rg and Shelah, Saharon},
 title = {{Evasion and prediction. IV. Strong forms of constant prediction}},
 journal = {Arch. Math. Logic},
 fjournal = {Archive for Mathematical Logic},
 volume = {42},
 number = {4},
 year = {2003},
 pages = {349--360},
 issn = {0933-5846},
 mrnumber = {2018086},
 mrclass = {03E17 (03E35 03E50)},
 doi = {10.1007/s001530200143},
 note = {\href{https://arxiv.org/abs/math/0103153}{arXiv: math/0103153}},
 arxiv_number = {math/0103153}
}