To create the Towers feature class, follow these steps:
1. Click on the telzaviba file geodatabase, right-click on the empty right panel,
point to New, and then click on Feature Class
This will open up the New Feature Class dialog, where you can specify the
basic properties of the feature class. In the Name field, type Towers. This is
the physical name of the feature class in the geodatabase, and it should not
contain special characters, or spaces.
3. Type Cell Towers in the Alias field. This is a description of the feature class
name. It can be anything you want. When you add a new layer, it takes this
alias name by default.
4. In the Type drop-down list, select Point Features to create the feature class
with point geometry. The Geometry Properties section offers advanced
options that can be enabled on the feature class. This includes the M value that
helps in route information for linear features and the Z value that is used for
3D representation and enables the elevation and extrusion of features. The Z
value can be useful, for example, if a restaurant is located on the 11th floor of
the Ritz Carlton Hotel.
Besides X and Y coordinates, the M value can be added to each vertex
on a line to provide more information such as the direction.
Unlike X and Y coordinates, the Z value can be considered as a height
of a feature upward or downward. The value can be assigned to
features so they are represented in a 3D space.
5. Since we won't need store route data or 3D data at this stage, leave the M and
Z values unchecked. Click on Next,
Next, we set the XY Tolerance value for the feature class. As you start
adding features, you might want to add some features close to each other yet
you don't want them to snap into the same position; in that case make this
value smaller to get a higher accuracy for each feature position. However,
sometimes you will need to add features on top of each other, making them
overlap on purpose, especially if you have Z values. Too small a tolerance
value might make it difficult to snap those features into a single location and
might cause problems with shared boundaries.
As you can see, this value needs to be carefully planned, but for now, leave
XY Tolerance to its default value, which is 0.001 meters, and click on Next.
1. Click on the telzaviba file geodatabase, right-click on the empty right panel,
point to New, and then click on Feature Class
This will open up the New Feature Class dialog, where you can specify the
basic properties of the feature class. In the Name field, type Towers. This is
the physical name of the feature class in the geodatabase, and it should not
contain special characters, or spaces.
3. Type Cell Towers in the Alias field. This is a description of the feature class
name. It can be anything you want. When you add a new layer, it takes this
alias name by default.
4. In the Type drop-down list, select Point Features to create the feature class
with point geometry. The Geometry Properties section offers advanced
options that can be enabled on the feature class. This includes the M value that
helps in route information for linear features and the Z value that is used for
3D representation and enables the elevation and extrusion of features. The Z
value can be useful, for example, if a restaurant is located on the 11th floor of
the Ritz Carlton Hotel.
Besides X and Y coordinates, the M value can be added to each vertex
on a line to provide more information such as the direction.
Unlike X and Y coordinates, the Z value can be considered as a height
of a feature upward or downward. The value can be assigned to
features so they are represented in a 3D space.
5. Since we won't need store route data or 3D data at this stage, leave the M and
Z values unchecked. Click on Next,
Next, we set the XY Tolerance value for the feature class. As you start
adding features, you might want to add some features close to each other yet
you don't want them to snap into the same position; in that case make this
value smaller to get a higher accuracy for each feature position. However,
sometimes you will need to add features on top of each other, making them
overlap on purpose, especially if you have Z values. Too small a tolerance
value might make it difficult to snap those features into a single location and
might cause problems with shared boundaries.
As you can see, this value needs to be carefully planned, but for now, leave
XY Tolerance to its default value, which is 0.001 meters, and click on Next.
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