From 6c8e5849392cc2541bbdb84d43ce4be2d7fe4319 Mon Sep 17 00:00:00 2001 From: Yuchen Pei Date: Thu, 1 Jul 2021 12:20:22 +1000 Subject: Removed files no longer in use. Also renamed agpl license file. --- site-from-md/notations.html | 67 --------------------------------------------- 1 file changed, 67 deletions(-) delete mode 100644 site-from-md/notations.html (limited to 'site-from-md/notations.html') diff --git a/site-from-md/notations.html b/site-from-md/notations.html deleted file mode 100644 index 753cff7..0000000 --- a/site-from-md/notations.html +++ /dev/null @@ -1,67 +0,0 @@ - - - - - List of Notations - - - - - -
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Here I list meanings of notations that may have not been explained elsewhere.

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  • \(\text{ty}\): type. Given a word \(w \in [n]^\ell\), \(\text{ty} w = (m_1, m_2, ..., m_n)\) where \(m_i\) is the number of \(i\)'s in \(w\). For example \(\text{ty} (1, 2, 2, 1, 4, 2) = (2, 3, 0, 1)\). The definition of \(\text{ty} T\) for a tableau \(T\) is similar.
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  • \([n]\): for \(n \in \mathbb N_{>0}\), \([n]\) stands for the set \(\{1, 2, ..., n\}\).
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  • \(i : j\): for \(i, j \in \mathbb Z\), \(i : j\) stands for the set \(\{i, i + 1, ..., j\}\), or the sequence \((i, i + 1, ..., j)\), depending on the context.
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  • \(k = i : j\): means \(k\) iterates over \(i\), \(i + 1\),..., \(j\). For example \(\sum_{k = 1 : n} a_k := \sum_{k = 1}^n a_k\).
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  • \(x_{i : j}\): stands for the set \(\{x_k: k = i : j\}\) or the sequence \((x_i, x_{i + 1}, ..., x_j)\), depending on the context. So are notations like \(f(i : j)\), \(y^{i : j}\) etc.
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  • \(\mathbb N\): the set of natural numbers / nonnegative integer numbers \(\{0, 1, 2,...\}\), whereas
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  • \(\mathbb N_{>0}\) or \(\mathbb N^+\): Are the set of positive integer numbers.
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  • \(x^w\): when both \(x\) and \(w\) are tuples of objects, this means \(\prod_i x_{w_i}\). For example say \(w = (1, 2, 2, 1, 4, 2)\), and \(x = x_{1 : 7}\), then \(x^w = x_1^2 x_2^3 x_4\).
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  • \(LHS\), LHS, \(RHS\), RHS: left hand side and right hand side of a formula
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  • \(e_i\): the \(i\)th standard basis in a vector space: \(e_i = (0, 0, ..., 0, 1, 0, 0, ...)\) where the sequence is finite or infinite depending on the dimension of the vector space and the \(1\) is the \(i\)th entry and all other entries are \(0\).
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  • \(1_{A}(x)\) where \(A\) is a set: an indicator function, which evaluates to \(1\) if \(x \in A\), and \(0\) otherwise.
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  • \(1_{p}\): an indicator function, which evaluates to \(1\) if the predicate \(p\) is true and \(0\) otherwise. Example: \(1_{x \in A}\), same as \(1_A(x)\).
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  • \(\xi \sim p\): the random variable \(xi\) is distributed according to the probability density function / probability mass function / probability measure \(p\).
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  • \(\xi \overset{d}{=} \eta\): the random variables \(\xi\) and \(\eta\) have the same distribution.
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  • \(\mathbb E f(\xi)\): expectation of \(f(\xi)\).
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  • \(\mathbb P(A)\): probability of event \(A\).
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