structuralproperties

Unless otherwise specified, data names are accessible in level 3 only.

activesuppressed

Returns non-zero if the entity is set inactive, 0 otherwise.

Type: integer

attributesmax

The number of attributes owned by this entity.

Type: unsigned integer

color

The 1-64 color of the entity.

Type: integer

config

The configuration of the entity.

80 - Head

81 - Upper leg

82 - Lower leg

83 - Dummy targets

84 - Instrument Panel Impact Point

100 - Beam

118 - Rivet

300 - Spring

400 - Panel composite

401 - Panel metallic

500 - Generic

Type: unsigned integer

definedentity

True if the entity is defined, false otherwise.

Type: Boolean

id

The ID of the entity.

Type: unsigned integer

include

The ID of the include file the entity is organized in.

Type: entity

includeid

The ID of the include file the entity is organized in.

Type: unsigned integer

internalid

The ID of the entity.

Type: unsigned integer

internalname

The internal name of the entity.

Type: string

length

The length of the panel when config is 100, 400 or 401.

Type: double

material

The material of the panel when config is 400 or 401.

Type: entity

moduleid

The module ID of the entity.

Type: integer

name

The name of the entity.

Type: string

outputsuppressed

Returns non-zero if the entity is set "do not export", 0 otherwise.

Type: integer

poolid

The pool number of the entity.

Type: integer

poolname

The pool name of the entity.

Type: string

property

The assigned property.

Type: entity

radius

The radius of the panel when config is 400 or 401.

Type: double

rivetdia

The diameter of the rivet when config is 118.

Type: double

se_aimingtype

The aiming method for the tangent to trajectory positioning method.

0 - Target method, the calculations are based on the target point.

1 - Contact method, the impactor is translated after positioning using target method to remove intersections from the instrument panel and should have contact at the target point.

Type: unsigned integer

se_armlength

The arm length of the headform impactor.

Type: double

se_contactdist

Shows the resulting contact distance between the contact point and design point location.

Type: double

se_contactpoint

The location of the contact point of the impactor.

Type: triple double

se_hangle

The horizontal angle used for positioning in degrees.

Type: double

se_headcenter

The location of the center of the impactor headform.

Type: triple double

se_ip_activate

True if the design point is active.

Type: Boolean

se_ip_adult

1 if the design point is an adult type, 0 otherwise.

Type: unsigned integer

se_ip_angle

The angle of the impactor for child/adult or leg pedestrian impact points.

Type: double

se_ip_areacheck

When se_ip_positiontype is 3 and this is set true, a check is made to see if the impactor’s COG is out of test area (w.r.t side reference lines). If so, automatically reposition the impactor using the 2D touch point.

Type: Boolean

se_ip_cog

The coordinates of the location of the COG of the design point.

Type: triple double

se_ip_comment

The comments related to the parent design point.

Type: string

se_ip_energy

The impactor energy of the design point.

Type: double

se_ip_gap

The gap distance between impactor and vehicle outer used during positioning.

Type: double

se_ip_groundzcord

The z-height of the ground plane used for marking.

Type: double

se_ip_horizontallyprojected

True of the design point is horizontally projected.

Type: Boolean

se_ip_mass

The mass of the impactor used for the parent design point.

Type: double

se_ip_positiontype

The method used for placing the impactor on the design point:

1 - Aiming point

2 - 2D touch point

3 - 3D touch point

Type: unsigned integer

se_ip_testtype

The test used for the parent design point:

0 - Child headform impactor to headform point

1 - Child headform impactor to headform point

2 - Lower legform impactor to bumper test

3 - Upper legform impactor to bumper test

4 - Upper legform impactor to WAD 775 test

Type: unsigned integer

se_ip_velocity

The velocity of the impactor used to test impact points.

Type: double

se_ip_zheight

The z-height to consider from ground for lower legform positioning.

Type: double

se_moveback

The magnitude of the move back distance (in the normal to target or target angle method) or angle (in degrees) in the case of the tangent to trajectory or pivot angles method.

Type: double

se_normal

The normal unit vector to be used in the normal to target method of positioning.

Type: triple double

se_pivotpoint

The desired location of pivot point used in the pivot angle method of positioning. This field will store the final location of the pivot point also for the tangent to trajectory method of positioning.

Type: triple double

se_positioningtype

The positioning method to be used in the Instrument Panel impact process.

0 - Tangent to trajectory method

1 - Normal to target method

2 - Pivot/Angles method

3 - Target/Angles method.

Type: unsigned integer

se_regulation

The regulation method used in the Instrument Panel impact process.

0 - FMVSS201

1 - ECER-21

Type: unsigned integer

se_srp

The location of the seat reference point of the vehicle.

Type: triple double

se_vangle

The vertical angle used for positioning in degrees.

Type: double

se_zlevel

The z level in the tangent to the trajectory positioning method. Z level is defined as the global z coordinate of the headform impactor after positioning.

Type: double

sebeamsect

The beam section ID when config is 100.

Type: entity

sematerial

The material ID.

Type: entity

se_tp_allowed_deviation_x_neg

The allowed negative deviation for the abscissa of the measurement node. This value will be used for the color coding and the computation of num_failed_coords data name of the design point (with config 81), which references the current structural property. Allowable values are non-positive.

Type: double

se_tp_allowed_deviation_x_posi

The allowed positive deviation for the abscissa of the measurement node. This value will be used for the color coding and the computation of num_failed_coords data name of the design point (with config 81), which references the current structural property. Allowable values are non-negative.

Type: double

se_tp_allowed_deviation_y_neg

The allowed negative deviation for the ordinate of the measurement node. This value will be used for the color coding and the computation of num_failed_coords data name of the design point (with config 81), which references the current structural property. Allowable values are non-positive.

Type: double

se_tp_allowed_deviation_y_posi

The allowed positive deviation for the ordinate of the measurement node. This value will be used for the color coding and the computation of num_failed_coords data name of the design point (with config 81), which references the current structural property. Allowable values are non-negative.

Type: double

se_tp_allowed_deviation_z_neg

The allowed negative deviation for the applicate of the measurement node. This value will be used for the color coding and the computation of num_failed_coords data name of the design point (with config 81), which references the current structural property. Allowable values are non-positive.

Type: double

se_tp_allowed_deviation_z_posi

The allowed positive deviation for the applicate of the measurement node. This value will be used for the color coding and the computation of num_failed_coords data name of the design point (with config 81), which references the current structural property. Allowable values are non-negative.

Type: double

se_tp_measurement_node

The node located on the dummy.

Type: entity

solver_id

The solver ID of the entity.

Type: integer

solverkeyword

The name of the solver keyword.

Type: string

solvername

The solver name of the entity for entities enabled for name pool, otherwise the internal name of the entity.

Type: string

tableid

The user data table ID.

Type: entity

width

The width of the panel when config is 400 or 401.

Type: double

Version History

2019.1

2020 - Added new data names color_rgb, length, material, radius, se_ip_activate, se_ip_adult, se_ip_angle, se_ip_areacheck, se_ip_cog, se_ip_comment, se_ip_energy, se_ip_gap, se_ip_groundzcord, se_ip_horizontallyprojected, se_ip_mass, se_ip_positiontype, se_ip_testtype, se_ip_velocity, se_ip_zheight and width. Added new config values 80, 81, 82, 400 and 401.

2020 - Added new config values 100 and 500. Added new data names sebeamsect, sematerial and tableid. Added length support for config 100.

2020.1 - Added new data name solverkeyword.

2021.1 - Added new data names moduleid, poolid, poolname, and solver_id.

2021.2 - Added new data names internalname and solvername.

2022 - Added new data names se_tp_allowed_deviation_x_neg, se_tp_allowed_deviation_x_posi, se_tp_allowed_deviation_y_neg, se_tp_allowed_deviation_y_posi, se_tp_allowed_deviation_z_neg, se_tp_allowed_deviation_z_posi, and se_tp_measurement_node. Added new config value 83.

2022.1 - Added new config value 84 and new data names se_aimingtype, se_armlength, se_contactdist, se_contactpoint, se_hangle, se_headcenter, se_moveback, se_normal, se_pivotpoint, se_positioningtype, se_regulation, se_srp, se_vangle, and se_zlevel.