454 research outputs found
Optimality of the Johnson-Lindenstrauss Lemma
For any integers and , we show the existence of a set of vectors such that any embedding satisfying
must have This lower bound matches the upper bound given by the Johnson-Lindenstrauss
lemma [JL84]. Furthermore, our lower bound holds for nearly the full range of
of interest, since there is always an isometric embedding into
dimension (either the identity map, or projection onto
).
Previously such a lower bound was only known to hold against linear maps ,
and not for such a wide range of parameters [LN16]. The
best previously known lower bound for general was [Wel74, Lev83, Alo03], which
is suboptimal for any .Comment: v2: simplified proof, also added reference to Lev8
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