1.
Locate an area via Google Earth. I’m going to
zoom to an area of an existing road.
2.
Save the Google Earth image to a folder for
future use.
3.
Launch AutoCAD Civil 3D 2012.
4.
I’m using an Autodesk provided template called “_autocad
civil 3d (imperial) ncs.dwt”
5.
Set the coordinate system to the zoomed Google
Earth location. I’m in Virginia, USA so I’ll use a Coordinate System Code of VA83-SF.
6.
Import the Google Earth Image and Surface of the
area zoomed to in step one by:
a.
Clicking the Insert tab on the Ribbon.
b.
Click Google Earth on the Import panel.
c.
Then click Google Earth Image and Surface.
d.
Right click or Enter to use current coordinate
system.
e.
The Google Earth and Surface is now imported
into Civil 3D.
f.
Renamed the surface to Google Earth Surface and
set the style to _No Display.
7.
Create a new surface and call it Google Earth
Surface for Max. (This surface will be used for 3D Studio Max Design and Civil
View.)
8.
Paste the Google Earth Surface into the Google
Earth Surface for Max surface.
9.
Draw a rough alignment with a polyline along the
center of the two lanes.
10.
Create an Alignment by:
a.
Clicking the Home tab on the Ribbon.
b.
Click Alignment then Create Alignment from
Object.
c.
Enter the alignment name.
d.
Use Site for Site.
e.
Use Existing for Alignment Style.
f.
Use Major and Minor for Alignment Label Set.
g.
Click Ok to finish creating the alignment.
11.
Save your work.
12.
Create a profile by:
a.
Clicking the Home tab on the Ribbon.
b.
Click Profile then Create Surface Profile
c.
Add the Google Earth Surface to the profile.
d.
Click Draw Profile in View.
e.
Enter a profile name. Ex. “Existing Road Profile”.
f.
Use the default settings for this profile so
click Create Profile View.
g.
Click a point off to the side of the Google
Earth Surface.
13.
Create a proposed grade by:
a.
Clicking the Home tab on the Ribbon.
b.
Click Profile then Profile Creation Tool.
c.
Click the grid or border of the profile.
d.
Enter the profile name
e.
Use Design Profile for Profile Style
f.
Use Complete Label Set for Profile Label Set.
g.
Click OK to finish.
h.
The Profile Layout Toolbar will appear.
i.
Click Draw Tangents with Curves.
j.
Start the proposed grade at station 0+00.00.
k.
Draw the grade along the existing ground with
cut and fill the entire alignment. The design is not important at this point so
be creative.
l.
This is my finished profile.
14.
If you already have an assembly made, skip this section.
15.
Create an Assembly by:
a.
Clicking the Home tab on the Ribbon.
b.
Click Create Assembly.
c.
Enter the assembly name
d.
Use Basic for Assembly Style.
e.
Use All Code for Code Set Style.
f.
Pick a point in the drawing to place the
assembly.
g.
Click OK.
h.
I’m going to create a divided highway assembly.
i.
Open Tool Palettes if not already open.
j.
Click the Medians tab then click
MedianDepressedShoulderExt.
k.
Pick the Assembly.
l.
Click the Lanes tab.
m.
Click Basic Lane to add a 24’ left and right
lane at 2% slope towards the median.
n.
Pick the top left and right code points of the
median.
o.
Click the Shoulder tab.
p.
Click Shoulder Extend Subbase to add a 4’ left
and right shoulder at 2% towards the median.
q.
Pick the top left and right code points of the
lane.
r.
Click the Daylight tab on the Tool Palette.
s.
Click Daylight General to add a daylight
subassembly to the shoulder code point.
t.
Pick the top left and right code points of the
shoulder.
16.
Create a Corridor by:
a.
Clicking the Home tab on the Ribbon.
b.
Click Corridor then Create Simple Corridor
c.
Enter the corridor
d.
Use Basic for Corridor Style.
e.
Click OK.
f.
Select Existing Road as a Baseline Alignment.
g.
Click OK.
h.
Select Google Earth Surface as a Profile.
i.
Click OK.
j.
Select Proposed Road as an Assembly.
k.
Click OK.
l.
Select a Target Surface for the Daylight
Subassembly.
m.
Click OK.
17.
Create a Corridor Surface by:
a.
Modifying the Corridor Properties.
b.
Click the Surface tab.
c.
Click the Create a Corridor Surface button.
d.
Add the top code by clicking the Add Surface
Item.
e.
Click the Boundary tab.
f.
Right click the Proposed Road Surface
g.
Click Add Automatically
h.
Then click Daylight.
i.
Use Outside Boundary.
j.
Click the Codes tab.
k.
Check the Render Materials for each Link. Adjust
the materials as needed.
l.
Click OK to complete the road corridor.
18.
Extract the new corridor surface boundary to a
closed polyline by:
a.
Clicking the Proposed Road Surface object.
b.
Click Extract Objects on the TIN Surface: Proposed
Road Surface ribbon panel.
c.
Uncheck the Major Contour and Minor Contour
boxes.
d.
Click OK
e.
A 3D Polyline has been created at the daylight
line of the surface.
f.
Add the 3D Polyline to the Google Earth Surface
for Max as a Hide Boundary. This will clip the existing surface for the
proposed road corridor. (Note: If the road designs changes, the hide boundary
will have to be updated for this surface.)
g.
Click OK.
19.
Export the road corridor to Civil View by:
a.
Click the Output tab on the Ribbon.
b.
Click Export to Civil View for 3DS Max Design on
the Export panel.
c.
Check the Proposed Corridor and Google Earth for
Max Surface. The other surfaces are not needed in 3D Studio Max Design and
Civil View.
d.
Save the file to the project folder. I’m going
to name the file Civil View.vsp3d. Depending on length of the corridor, the
export may take a few minutes.
20.
Save the Civil 3D drawing then close.
In Part 2, we’ll import the Civil
View.vsp3d file into 3DS Max Design using the Civil View plug-in.
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