Types of Data Grids and Raster Display Functions
Mapping Toolbox™ functions and GUIs display both regular and geolocated data grids originating in a variety of formats. Recall that regular data grids require a referencing vector or matrix that describes the sampling and location of the data points, while geolocated data grids require matrices of latitude and longitude coordinates.
The data grid display functions are geographic analogies to the MATLAB® surface drawing functions, but operate specifically on
axesm-based maps. Like the line-plotting functions discussed in
the previous chapter, some Mapping Toolbox grid function names correspond to their MATLAB counterparts with an
Mapping Toolbox functions beginning with
mesh are used for regular
data grids, while those beginning with
surf are reserved for
geolocated data grids. This usage differs from the MATLAB definition;
mesh plots are used for colored
wire-frame views of the surface, while
surf displays colored
Surface map objects can be displayed in a variety of different ways. You can assign colors from the figure colormap to surfaces according to the values of their data. You can also display images where the matrix data consists of indices into a colormap or display the matrix as a three-dimensional surface, with the z-coordinates given by the map matrix. You can use monochrome surfaces that reflect a pseudo-light source, thereby producing a three-dimensional, shaded relief model of the surface. Finally, you can use a combination of color and light shading to create a lighted shaded relief map.
The following table lists the available Mapping Toolbox surface map display functions.
Display map latitude and longitude data in 2-D
Display map data without projection in 2-D
Project regular data grid on
Project geolocated data grid on
Project regular data grid in z = 0 plane
Project and add geolocated data grid to
3-D shaded surface with lighting on
3-D lighted shaded relief of regular data grid on
3-D lighted shaded relief of geolocated data grid on