We derive lower bounds on the maximal rates for multiple packings in high-dimensional Euclidean spaces. Multiple packing is a natural generalization of the sphere packing problem. For any $ N>0 $ and $ L\in\mathbb{Z}_{\ge2} $, a multiple packing is a set $\mathcal{C}$ of points in $ \mathbb{R}^n $ such that any point in $ \mathbb{R}^n $ lies in the intersection of at most $ L-1 $ balls of radius $ \sqrt{nN} $ around points in $ \mathcal{C} $. We study this problem for both bounded point sets whose points have norm at most $\sqrt{nP}$ for some constant $P>0$ and unbounded point sets whose points are allowed to be anywhere in $ \mathbb{R}^n $. Given a well-known connection with coding theory, multiple packings can be viewed as the Euclidean analog of list-decodable codes, which are well-studied for finite fields. We derive the best known lower bounds on the optimal multiple packing density. This is accomplished by establishing a curious inequality which relates the list-decoding error exponent for additive white Gaussian noise channels, a quantity of average-case nature, to the list-decoding radius, a quantity of worst-case nature. We also derive various bounds on the list-decoding error exponent in both bounded and unbounded settings which are of independent interest beyond multiple packing.
翻译:我们从高维的 Euclidea 空格中多个包装最大值的最小值中得出下限。 多包装是球体包装问题的自然概括。 对于任何 N>0 美元和 $L\ mathbb ⁇ ge2$ 美元, 多包装是一套 $mathcal{C}$ 美元 的固定值, 以 $\ mathbb{R ⁇ } 美元计, 任何点以 $\ mathbb{R ⁇ n$ 为单位, 以 $ mathb{R ⁇ n$ 为单位。 多包装在以 $\ mathbb{R} 美元为单位的白色圆球的交叉点。 多包装可以被视为位于 $\ mostcride a clodcion co- decridecride card rocks 的顶值的比值。 对于这两个受约束点的两组, 我们研究这一问题, 都以 $sqrqrrt{n} $$$$$, $$$ $, $$ prodebreal delide destal destrateal delide delide dride drideal 和nal dislated drolated.
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