Creating a keyhole with the Keyhole (Two Points - Azimuth) function

The Keyhole (Two Points - Azimuth) function uses the distance from the second coordinate, the azimuth vector starting point, and the Azimuth Distance parameter to determine how much the rectangular part of the keyhole will extend.

The first coordinate is the centerpoint for the geodesic circle, typically an airport reference point, and is used to create the circular part of the keyhole. The second coordinate is the azimuth vector starting point, typically a Navaid, and is used to create the rectangular part of the keyhole.

Example of coordinates and Azimuth Distance
Example of coordinates and Azimuth Distance
Example of input coordinates and parameters
Example of input coordinates and parameters
Resulting geometry
Resulting geometry
Schritte:
  1. Start ArcMap.
    TippTipp:

    If the ArcMap - Getting Started dialog box appears, you can open a new or existing map document. You can also check the Do not show this dialog box in the future check box and click Open.

  2. On the menu bar, click Customize > Toolbars > Production Feature Builder.
  3. Click the Launch Feature Builder button Launch Feature Builder on the Production Feature Builder toolbar.

    The Feature Builder window appears in ArcMap.

    The Feature Builder window
    The Feature Builder window

    TippTipp:

    The Feature Builder window can be placed anywhere in ArcMap, or in the TOC, with the aid of the arrows showing the possible placement positions.

  4. Choose Keyhole (Two Points - Azimuth) in the list on the Functions tab.

    Feature Builder window with the Keyhole (Two Point - Azimuth) function selected

  5. Define a coordinate for the start point of the polyline by doing one of the following:
    • Clicking the Pinprick button Pinprick on the Production Feature Builder toolbar, then clicking on the map
    • Typing the coordinates in the cells on the Input tab in the Coordinates area
    TippTipp:

    To view the input coordinates on the map, double-click the row headers for each coordinate.

  6. Repeat step 5 to define a coordinate for the azimuth vector starting point.
  7. Click the cell next to Radius and type a value for the radius.

    This is the radius from the first coordinate that creates the circular part of the keyhole. The default unit is Nautical Miles.

    TippTipp:

    You can right-click the parameter name and change the unit of measurement. If you change the unit of measurement after defining a value, the value is converted to the new unit of measurement, and you may need to redefine the value.

  8. Click the cell next to Azimuth and type the azimuth value.

    The azimuth is the angle from the second coordinate at which the keyhole is going to be created. The default unit is degrees.

    TippTipp:

    You can right-click the parameter name and change the unit of measurement. If you change the unit of measurement after defining a value, the value is converted to the new unit of measurement, and you may need to redefine the value.

  9. Click the cell next to Azimuth Distance and type a value that represents the distance the angle should extend for the rectangular part of the keyhole.

    This is the distance from the second coordinate to the end of the rectangular part of the keyhole for the angle at which the keyhole is going to be created. The default unit is Nautical Miles.

    TippTipp:

    You can right-click the parameter name and change the unit of measurement. If you change the unit of measurement after defining a value, the value is converted to the new unit of measurement, and you may need to redefine the value.

  10. Click the cell next to Left Buffer and type the value for the left buffer.

    This is the amount of space that should exist on the left side of the keyhole. The default unit is Nautical Miles.

    TippTipp:

    You can right-click the parameter name and change the unit of measurement. If you change the unit of measurement after defining a value, the value is converted to the new unit of measurement, and you may need to redefine the value.

  11. Click the cell next to Right Buffer and type the value for the right buffer.

    This is the amount of space that is going to exist on the right side of the keyhole. The default unit is Nautical Miles.

    TippTipp:

    You can right-click the parameter name and change the unit of measurement. If you change the unit of measurement after defining a value, the value is converted to the new unit of measurement, and you may need to redefine the value.

  12. If necessary, click the cell next to MagVar Value and type a value for the magnetic variation.

    This can be a specified value or from a field defined in the MagVar Source parameter. The default unit is degrees.

    Learn more about the magnetic variation value

  13. TippTipp:

    You can right-click the parameter name and change the unit of measurement. If you change the unit of measurement after defining a value, the value is converted to the new unit of measurement, and you may need to redefine the value.

  14. If necessary, click the drop-down arrow next to MagVar Year and choose a different year for the World Magnetic Model.

    This is the year associated with the magnetic variation value.

    Learn more about the magnetic variation year

  15. If necessary, click the drop-down arrow next to MagVar Source and choose a source for the magnetic variation.

    This is the source of the magnetic variation value.

    Learn more about the magnetic variation source

  16. Click the Execute button Execute.

The keyhole geometry appears in the Scratch Data layer.

TippTipp:

If the keyhole geometry does not appear, click the Add Scratch Data Layers button Add scratch data layers at the top of the Feature Builder window.


9/30/2010