OverlayMillLevel1Lane1Side

Attachment

The attachment point is the inside edge point of the overlay layer with finished grade cross slope.

Input Parameters

Note: All dimensions are in meters or feet unless otherwise noted. All slopes are in run-over-rise form unless indicated as a percent slope with a "%" sign.

Parameter	Description	Type	Default
Side	Specifies which side of the road centerline to place the rehab subassembly.	User defined	Left
Design Lane Width same as Existing Lane Width	Yes Specifies that the design lane width is the same as existing lane width. No Specifies that the design lane width is not the same as existing lane width. Note: If No is selected, the Inside Edge of Existing Lane and Outside Edge of Existing Lane parameters will not be applied to the subassembly.	User defined	No
Inside Edge of Existing Lane	This is the start point for calculating existing ground slope.	Numeric	0.000m
Outside Edge of Existing lane	This is the start point for calculating existing ground slope.	Numeric	0.000m
Overlay Depth	Depth of the overlay layer.	Numeric, positive	0.300m
Overlay Slope Options	Specifies overlay slope options. Tip: Flapping is a term used to describe how the corrected cross slope for an overlay in a rehab subassembly is calculated. Flapping outcomes are different, relative to the slope tolerance and the slope difference between existing ground cross slope and ideal cross slope. If the slope difference is less than the slope tolerance for the subassembly, then the use case is considered "within tolerance". If the slope difference is greater than the slope tolerance for the subassembly, then the use case is considered "outside of tolerance." Note: Slope tolerance is an absolute value. Therefore, for either a slope difference of 0.4% or -0.4%, both have an absolute value of 0.4%. If the slope tolerance is 0.5%, the 0.4% absolute slope difference would be considered within tolerance. User Defined With Flapping Flapping specifies how the corrected cross slope will be calculated, relative to the slope tolerance for the subassembly. Flapping Within Tolerance: The corrected cross slope will be the existing ground cross slope. Flapping Outside of Tolerance: The corrected cross slope will vary and will be the existing ground cross slope plus or minus the slope tolerance value. Note: Whether the slope tolerance is added or subtracted depends on which one will bring the values of the existing ground cross slope and the ideal cross slope closer together. User Defined Without Flapping Flapping specifies how the corrected cross slope will be calculated, relative to slope tolerance for the subassembly. Flapping Within Tolerance: The corrected cross slope will be set equal to the ideal cross slope. Flapping Outside of Tolerance: The corrected cross slope will be the ideal cross slope plus or minus the slope tolerance value. Note: Whether the slope tolerance is added or subtracted depends on which one will bring the values of the existing ground cross slope and the ideal cross slope closer together. Outside/Inside Lane Superelevation Outside or Inside Lane Superelevation will replace Ideal Cross Slope. The corrected cross slope values for the overlay layer will be defined by the superelevation table for the section instead of the ideal cross slope. Note: If Outside/Inside Lane Superelevation is chosen but the alignment for the rehab corridor does not have a superelevation table defined, Ideal Cross Slope will be used instead. Within Tolerance: If a superelevation table is defined for the alignment: The corrected cross slope will be the lane superelevation value obtained from the superelevation table. If a superelevation table is not specified for the alignment: The corrected cross slope will be the specified ideal slope. Note: This behavior is the same as for the User Defined without Flapping option. Outside of Tolerance: If a superelevation table is defined for the alignment: The corrected cross slope will be the lane superelevation value obtained from the superelevation table plus or minus the slope tolerance value. If a superelevation table is not specified for the alignment: The corrected cross slope will be the specified ideal slope plus or minus the slope tolerance value. Note: This behavior is the same as for the User Defined without Flapping option. Match Slope The corrected cross slope is always set equal to Existing Ground Slope. Use Ideal Cross Slope The corrected cross slope is always set equal to Ideal Cross Slope.	User defined	User Defined without Flapping
Ideal Cross Slope	Specifies user defined ideal cross slope.	Numeric	-2.00%
Lane Width	The lane width, determined by the offset of the outside edge of lane from the inside edge of lane.	Numeric	12.000m
Use Profile Options	Select to tie the inside edge of overlay to a profile, adjust elevation to minimum level depth, or lock to previous subassembly. Minimum Level Depth The cross slope and elevation adjustments will meet Minimum Level and/or Minimum Mill Depth. The base is the existing surface. Use Profile There will be no elevation adjustment. The elevation of the rehab subassembly attachment point will match the assigned profile. The cross slope adjustment will be determined by Overlay Slope Options. Lock to Previous There will be no elevation adjustment. The elevation of the rehab subassembly attachment point will match the attachment point of the previous subassembly (in most cases this will be the previous lane's end point). The cross slope adjustment will be determined by Overlay Slope Options.	User defined	Minimum Level Depth
Minimum Level Depth	The minimum level depth between the bottom of the milling layer to the bottom of the overlay layer.	Numeric	0.600m
Minimum Mill Depth	The minimum mill depth between the bottom of the milling layer to the bottom of the existing ground layer.	Numeric	0.300m
Slope Tolerance	Tolerance for varying the overlay slope.	Numeric	0.50%

Output Parameters

Parameter	Description	Type	Default
Corrected Cross Slope	This is the adjusted cross slope for the road, which has been optimized to match, as closely as possible, the rehab subassembly parameters you specified.	Numeric, negative	-2.00%
Existing Ground Slope	The cross slope (%) of the existing ground profile, calculated from the inside edge of the lane to the outside edge of the lane.	Numeric, negative	n/a

Target Parameters

Parameter	Description	Required?
Target Surface	Name of the surface defining the existing roadway.	Yes
Crown Offset Target	Name of the object defining the offset of the crown point. The following object types can be used as targets for specifying this offset: alignments, polylines, feature lines, or survey figures.	No
Inside Edge of Lane Offset Target	Name of the object defining the offset of the inside edge of lane. The following object types can be used as targets for specifying this offset: alignments, polylines, feature lines, or survey figures.	No
Lane Width Target	Name of the object defining the offset of the outside edge of lane. The following object types can be used as targets for specifying this offset: alignments, polylines, feature lines, or survey figures.	No
Inside Edge of Existing Lane Offset Target	Name of the object defining the inside sample point offset will be used to calculate the existing surface slope. The following object types can be used as targets for specifying this offset: alignments, polylines, feature lines, or survey figures.	No
Outside Edge of Existing Lane Offset Target	Name of the object defining the outside sample point offset will be used to calculate the existing surface slope. The following object types can be used as targets for specifying this offset: alignments, polylines, feature lines, or survey figures.	No

Behavior

Areas must be provided for all layers.
The Leveling area is equal to the areas of Level 1 + Mill layers combined.
The Milling Area layer is represented in the diagram below as Mill.
Minimum Level Depth is equal to the area from the bottom of the milling layer to the bottom of the overlay layer.

Special Case

The following is an example when Use Profile is selected in Profile Options and the overlay is located below the existing ground.

Behaviors:

The Minimum Mill Depth is measured down from the bottom of Overlay to the Datum layer.
The area of Minimum Mill Depth will be filled as Level area.
Total Mill area is from the Datum layer to the Existing Ground layer.

Point, Link and Shape Codes

Point, Link or Shape	Code	Description
P1, P2	EOV	Overlay edges on finished grade (edges of top of overlay)
P3, P4	EOV_Overlay	Overlay edges beneath leveling layer (edges of bottom of overlay)
P7, P8	EOV_Milling	Overlay edges beneath milling layer (edges of bottom of mill)
L1	Top, Pave	Top of overlay
L2, L3, L4	Overlay	Overlay links
L5, L6	Level	For the leveling case
L7, L8	Mill	For the milling case
L9	Level, Mill, Datum	Links for the milling layer
S1	Overlay	Area between the top and bottom of overlay. This area overlaps the leveling area as shown in the coding diagram below
S2	Level	Area above existing surface and below the bottom of overlay (leveling case)
S3	Mill	Area between bottom of existing surface and bottom of mill (milling case)

Note: Multiple Links will occur when the Existing Ground surface is not smooth. This is shown in the image below by L10.