Konrad Aguilar, Angelynn Álvarez, René Ardila, Pablo S. Ocal, Cristian Rodriguez Avila, Anthony Várilly-Alvarado
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Locally recoverable algebro-geometric codes with multiple recovery sets from projective bundles
A code is locally recoverable when each symbol in one of its code words can
be reconstructed as a function of $r$ other symbols. We use bundles of
projective spaces over a line to construct locally recoverable codes with
availability; that is, evaluation codes where each code word symbol can be
reconstructed from several disjoint sets of other symbols. The simplest case,
where the code's underlying variety is a plane, exhibits noteworthy properties:
When $r = 1$, $2$, $3$, they are optimal; when $r \geq 4$, they are optimal
with probability approaching $1$ as the alphabet size grows. Additionally,
their information rate is close to the theoretical limit. In higher dimensions,
our codes form a family of asymptotically good codes.
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