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Mastering Data analysis with R

You're reading from   Mastering Data analysis with R Gain sharp insights into your data and solve real-world data science problems with R—from data munging to modeling and visualization

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Product type Paperback
Published in Sep 2015
Publisher Packt
ISBN-13 9781783982028
Length 396 pages
Edition 1st Edition
Languages
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Author (1):
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Gergely Daróczi Gergely Daróczi
Author Profile Icon Gergely Daróczi
Gergely Daróczi
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Table of Contents (17) Chapters Close

Preface 1. Hello, Data! 2. Getting Data from the Web FREE CHAPTER 3. Filtering and Summarizing Data 4. Restructuring Data 5. Building Models (authored by Renata Nemeth and Gergely Toth) 6. Beyond the Linear Trend Line (authored by Renata Nemeth and Gergely Toth) 7. Unstructured Data 8. Polishing Data 9. From Big to Small Data 10. Classification and Clustering 11. Social Network Analysis of the R Ecosystem 12. Analyzing Time-series 13. Data Around Us 14. Analyzing the R Community A. References Index

Spatial statistics

Most exploratory data analysis projects dealing with spatial data start by looking for, and potentially filtering, spatial autocorrelation. In simple terms, this means that we are looking for spatial effects in the data—for instance, the similarities of some data points can be (partly) explained by the short distance between them; further points seem to differ a lot more. There is nothing surprising in this statement; probably all of you agree with this. But how can we test this on real data with analytical tools?

Moran's I index is a well-known and generally used measure to test whether spatial autocorrelation is present or not in the variable of interest. This is a quite simple statistical test with the null hypothesis that there is no spatial autocorrelation in the dataset.

With the current data structure we have, probably the easiest way to compute Moran's I is to load the ape package, and pass the similarity matrix along with the variable of interest...

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