Transcript Slide 1
4th Tuesday – CAD Training
Call-in Info: (865) 673-0142, PIN: 467687
Topic – InRoads XM:
Updates
Getting updated/new styles and preferences into an XIN
Getting new components into an ITL
Workflow - Calculate the Fill Volume Below the Flood Plain
Etiquette:
Presentation will begin at 1:32 pm.
Please feel free to call-in or exit at anytime.
You may mute your own phone lines – dial #01.
You may un-mute your own phone lines – dial #01- for questions or
discussion.
Please raise your hand (click the open hand icon at the top of the iLinc
tool panel) if you have display issues.
Do I need to update my XIN or ITL?
If you use a custom (project-specific) XIN, you may
want to have access to new styles and preferences
after a workspace update. Updating styles will also
update the named symbologies.
Did you know that you can change XINs while you
are running InRoads?
We use a copy of the ODOTseed.ITL for our
projects. If new components were created, you may
want to use them. You can also reuse templates
from other project ITLs or IRDs!
Copy Preference Add-In
Tools>Application Add-Ins
Place a check next to Copy
Preference Add-In
Once that’s done – Copy
Preferences… will
appear on the Tools
menu.
How do I know what has changed?
INROADS XIN CHANGES:
8 Nov 2010 Modified the ODOT preference set:
Toggled “Duplicate Names” to Rename for the Merge Surfaces and Transform
Surfaces dialog boxes defaults.
Toggled on Scale in Plan and/or Profile Line symbology for the following named symbologies that
use custom line styles:
CL_Minor, HY_Stream_OHW_E, HY_Stream_TopWater_Thalweg_E,
HY_Stream_TopWater_Thalweg_E_S, Util_Elec_Ln_Oh_E, and Util_Elec_Ln_Oh_E_S.
Deleted Rdway_Gutter_Line_E named symbology (not used).
Added named symbologies and styles for cross section display of features:
Xsec_EP_Label_E, Xsec_Gas24_Top_E, and Xsec_Pipe18_FL_E.
9 Nov 2010 Added named symbologies and styles for leveling and grinding components Mat-Grinding and
Mat-Leveling
Modified CL_Existing named symbology to match CPDG.
Added CL_Existing preference for Geometry>View Geometry>Stationing to place stationing to
match color, weight, and text height of CL_Existing named symbology.
Modified all CL_ preferences for Stationing to select ODOT Vertical (font 2) as font for major
station text to match CPDG.
16 Nov 2010Added named symbologies and styles for more material types:
Mat-Conc-Wall; Mat-Conc-Curb; Mat-Conc-DrainageCurb; Mat-Conc-Sidewalk; MatMSE-Wall
Update the XIN - Styles
Source = civil.xin in your
F:\ODOT_DATA\ENG_APP
\InRoads folder
Destination = The
currently loaded XIN
(01234.xin)
How do I know what has changed?
INROADS XIN CHANGES:
8 Nov 2010 Modified the ODOT preference set:
Toggled “Duplicate Names” to Rename for the Merge Surfaces and Transform
Surfaces dialog boxes defaults.
Toggled on Scale in Plan and/or Profile Line symbology for the following named symbologies that
use custom line styles:
CL_Minor, HY_Stream_OHW_E, HY_Stream_TopWater_Thalweg_E,
HY_Stream_TopWater_Thalweg_E_S, Util_Elec_Ln_Oh_E, and Util_Elec_Ln_Oh_E_S.
Deleted Rdway_Gutter_Line_E named symbology (not used).
Added named symbologies and styles for cross section display of features:
Xsec_EP_Label_E, Xsec_Gas24_Top_E, and Xsec_Pipe18_FL_E.
9 Nov 2010 Added named symbologies and styles for leveling and grinding components Mat-Grinding and
Mat-Leveling
Modified CL_Existing named symbology to match CPDG.
Added CL_Existing preference for Geometry>View Geometry>Stationing to place stationing to
match color, weight, and text height of CL_Existing named symbology.
Modified all CL_ preferences for Stationing to select ODOT Vertical (font 2) as font for major
station text to match CPDG.
16 Nov 2010Added named symbologies and styles for more material types:
Mat-Conc-Wall; Mat-Conc-Curb; Mat-Conc-DrainageCurb; Mat-Conc-Sidewalk; MatMSE-Wall
Update the XIN - Preferences
Preferences control how
dialog boxes are filled out
Destination = The
currently loaded XIN
(01234.xin)
How do I know what has changed?
ENG_APP CHANGES:
16 Nov 2010Modified ODOTseed.itl:
Edited CurbTF and CurbTB points in Curb, Low Profile, Mountable component to
remove true vertical between EP and CurbTF. CurbTF is offset from EP by -0.001
and CurbTB horizontal position in component is -1.000.
Applied Mat-Conc-Curb to Curb, Low Profile, Mountable; Curb, Mountable; and
Curb, Standard.
Applied Mat-Conc-DrainageCurb to Drainage Curb; and Drainage Curb, Under
Guardrail.
Applied Mat-Conc-sidewalk to Sidewalk.
Added all additional points (15) to Point Name List.
12 Nov 2010 4. Use feature name override for interception points of end conditions:
Reports will show simply SSC_L, SSC_R, SSF_L, and SSF_R.
Toggle on “Feature Name Override” and use either SSC or SSF in Point
Properties for all interception points on all end condition components
(multiple)
5. Modified the constraints on all SGSh points in components to be slope
from EP-SG, slope from EP or Erk, and labeled the slope constraint from
EP or Erk to be RockSlope.
Update the ITL
Template Library Organizer…
Left side
Destination
Right side
Source
01234_new.itl
01234.itl
01234.itl
ODOTseed.itl
Update the ITL from an IRD
Each corridor is shown as
a folder – each template
drop is shown beneath.
Calculating Fill Below the Flood Plain
FG
Flood plain
Fill
OG
5 Steps
1.
2.
3.
4.
5.
Create or receive the existing and proposed surfaces.
Create child vertical alignment of roadway that contains
elevations of floodplain (this is typically not flat) – mine just has
3 PIs.
Create a floodplain surface by running a corridor with a flat
template along the proposed roadway with the floodplain
vertical alignment and targeting the proposed surface. Create
this surface without an exterior boundary.
Copy exterior boundary of proposed surface into floodplain,
trim, and triangulate - this gives you the difference surface
between proposed and floodplain.
Use triangle volume or end-area volume to calculate difference
between existing and the combined floodplain/proposed.
That gives you the volume of fill below the floodplain elevation.
Modeling the Flood Plain
Merging the surfaces
“Merge” the modeled floodplain surface with the proposed surface:
Use Copy Portion of Surface and copy the Exterior Boundary from the
proposed surface into the floodplain surface, then triangulate.
Source Surface = Proposed
Destination Surface = Floodplain
Features: select the exterior boundary and any other feature on the
proposed surface that is outside the floodplain catch.
Calculating Fill Below the Flood Plain
FG
Flood - FG
Flood
Fill
OG
FG Exterior Boundary Points
End-Area Volume between OG
and (Flood – FG)
Calculate Volume
Use Triangle or End-Area Volume to calculate volume of fill below the
floodplain elevation by taking the difference between the original ground
surface and the floodplain combined with the proposed surface.
Questions
When you created the flood surface in the demo, the active surface was
set to the OG – why did the flood surface still catch against the
proposed fill slopes?
Just to confuse you, it seems. I was messing around quite a bit with the data
and had set up Target Aliasing for the Flood corridor. No matter what had
been set as the active surface, the Target Aliasing said to catch against the
proposed surface first and then against the original ground if the proposed
wasn’t present. You should do as I said (not as I did) and set the active
surface to the proposed when creating the flood surface.
When you displayed the perimeter of the Flood surface, it extended out
beyond the perimeter of the proposed fill – why?
Again, this was because I had target aliasing set up. When the corridor
reached the end of the proposed fill (it stopped at the structure), it started
catching against the original ground instead of just failing. It would have
been better if I had limited my corridor stations to stop at the same station
that the proposed fill stopped. Some of you probably noticed some empty
cross sections at the beginning also. You should be very careful with the
start and stop stations of your cross sections when running the volumes;
don’t include stations where you don’t have both surfaces.