lsm_c_nlsi: nLSI (class level)

tibble

$$nLSI = \frac{e_{i} - \min e_{i}} {\max e_{i} - \min e_{i}}$$ where \(e_{i}\) is the total edge length in cell surfaces and \(\min e_{i}\) \(\max e_{i}\) are the minimum and maximum total edge length in cell surfaces, respectively.

nLSI is an 'Aggregation metric'. It is closely related to the lsm_c_lsi and describes the ratio of the actual edge length of class i in relation to the hypothetical range of possible edge lengths of class i (min/max).

Currently, nLSI ignores all background cells when calculating the minimum and maximum total edge length. Also, a correct calculation of the minimum and maximum total edge length is currently only possible for rectangular landscapes.

Because the metric is based on distances or areas please make sure your data is valid using check_landscape.