作　　者： ; ; ;

机构地区： 中山大学数学与计算科学学院

出　　处： 《数学学报（中文版）》 2005年第5期939-946,共8页

摘　　要： 对于:Hausdorff维数为s>0的满足开集条件的自相似集E(?)Rn(n>1),我们引入等径不等式Hs|E(X)≤|X|s,以及使该不等式等号成立而直径大于0的极限集U(?)Rn.这里,Hs|E(·)是限制到集合E上的s维Hausdorff测度,而|X|指集合X在欧氏度量下的直径.当s=n时,n维球是唯一的极限集;当s∈(1,n)时,除去一些反面例子以外,我们对上述等径不等式的极限集的基本性质所知甚少.可以看出,这些不等式与Hs(E)的准确值的计算有密切联系.作为特例,我们将考虑Sierpinski垫片,指出计算这一典型自相似集的In2/In3维Hausdorff测度准确值的困难何在.由此可以大致推想,为什么除去平凡情形以外,至今还没有一个具体的满足开集条件而维数大于1的自相似集的:Hausdorff测度准确值被计算出来. For self-similar sets E belong to R^n with the Open Set Condition and of Hausdorff dimension s 〉 0, we introduce the isodiametric inequality H^s│E（X）≤│X│^s and the corresponding extremal sets U belong to R^n with positive diameter such that H^s│E（U）=│U│^s. Here H^s│E（·） is the s dimensional Hausdorff measure restricted to E, and │X│ is the diameter of the set X in the standard Euclidean metric. If s = n, disks/balls are the unique extremal sets; if s ∈ （1, n）, we have few ideas on properties of the extremal domains, but a few negative candidates. We can see that these isodiametric inequalities are related to the searching for exact value of H^s（E）. Particularly, we take the Sierpinski gasket as an example, showing what the difficulty is or where it lies to find the the exact value of its In3/In2 dimensional Hausdorff measure. In some sense, this explains why, except for trivial examples, there are up to now no concrete self-similar sets with the Open Set Condition and of Hausdorff dimension larger than 1 such that the exact value of its Hausdorff measure has been calculated.

关 键 词： 测度 等径不等式 部分估计原理

领　　域： [理学] [理学]