update
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eneller
@@ -14,7 +14,7 @@ where
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- $N$ is the number of spacial units indexed by $i$ and $j$
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- $x$ is the variable of interest
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- $\overline{x}$ is the mean of $x$
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$w_{ij} are the elements of a matrix of spatial weights that denote adjacency
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- $w_{ij}$ are the elements of a matrix of spatial weights that denote adjacency
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- $W = \sum_{i=1}^N \sum_{j=1}^N w_{ij}$ is the sum of all $w_{ij}$
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It may be considered time series stationarity-agnostic as the calculation does not make assumptions about temporal behavior of the underlying data.
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2
lec01.md
2
lec01.md
@@ -26,4 +26,4 @@ $$
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$$
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\Phi^j_C = \rho^j + c(\delta t - \delta t^j) + Tr^j + \lambda^j_C + B^j_C + m^j_C +\epsilon^j_C
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$$
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Where $R^j$ is the unsmoothed pseudorange measurment for the $j$th satellite and $\Phi^j$ is the corresponding carrier measurement.
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Where $R^j$ is the unsmoothed pseudorange measurment for the $j$-th satellite and $\Phi^j$ is the corresponding carrier measurement.
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