Abstract
Consider the matrix $\Delta_n = ((\ \mathrm{I}(X_i + X_j > 0)\ ))_{i,j = 1,2,...,n}$ where $\{X_i\}$ are i.i.d. and their distribution is continuous and symmetric around $0$. We show that the rank $r_n$ of this matrix is equal in distribution to $2\sum_{i=1}^{n-1}\mathrm{I}(\xi_i =1,\xi_{i+1}=0)+\mathrm{I}(\xi_n=1)$ where $\xi_i \stackrel{i.i.d.}{\sim} \text{Ber} $ is asymptotically normal with mean zero and variance $1/4$. We also show that $n^{-1}r_n$ converges to $1/2$ almost surely.
Citation
Arup Bose. Arnab Sen. "On asymptotic properties of the rank of a special random adjacency matrix." Electron. Commun. Probab. 12 200 - 205, 2007. https://doi.org/10.1214/ECP.v12-1266
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