2017
DOI: 10.1016/j.jmva.2017.03.002
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High-dimensional asymptotic behavior of the difference between the log-determinants of two Wishart matrices

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Cited by 5 publications
(2 citation statements)
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“…To deal with both of the LS and HD asymptotic frameworks at the same time, we consider the following asymptotic framework: n,0.3em0.3emcn,p=pnc0false[0,1false).$$ n\to \infty, \kern0.60em {c}_{n,p}=\frac{p}{n}\to {c}_0\in \left[0,1\right). $$ This framework has been investigated in many studies, such as Yanagihara et al (2017) and Yanagihara (2019). We write the limit under () as limarraynarraycn,pc0,$$ \underset{\begin{array}{c}n\to \infty \\ {}{c}_{n,p}\to {c}_0\end{array}}{\lim }, $$ and we use the notation pfalse(nfalse)$$ p(n) $$ for p$$ p $$ when we need to emphasize that it may vary with n.$$ n. $$ Following the existing literature, we assume that pfalse(nfalse)$$ p(n) $$ is nondecreasing, and therefore, pfalse(nfalse)$$ p(n) $$ is either bounded or divergent.…”
Section: Introductionmentioning
confidence: 99%
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“…To deal with both of the LS and HD asymptotic frameworks at the same time, we consider the following asymptotic framework: n,0.3em0.3emcn,p=pnc0false[0,1false).$$ n\to \infty, \kern0.60em {c}_{n,p}=\frac{p}{n}\to {c}_0\in \left[0,1\right). $$ This framework has been investigated in many studies, such as Yanagihara et al (2017) and Yanagihara (2019). We write the limit under () as limarraynarraycn,pc0,$$ \underset{\begin{array}{c}n\to \infty \\ {}{c}_{n,p}\to {c}_0\end{array}}{\lim }, $$ and we use the notation pfalse(nfalse)$$ p(n) $$ for p$$ p $$ when we need to emphasize that it may vary with n.$$ n. $$ Following the existing literature, we assume that pfalse(nfalse)$$ p(n) $$ is nondecreasing, and therefore, pfalse(nfalse)$$ p(n) $$ is either bounded or divergent.…”
Section: Introductionmentioning
confidence: 99%
“…This framework has been investigated in many studies, such as Yanagihara et al (2017) and Yanagihara (2019). We write the limit under (2) as…”
Section: Introductionmentioning
confidence: 99%