public void ReSurveyPolFit(
	string hole,
	CVV vv_dip,
	CVV vv_az,
	CVV vv_depth,
	double east,
	double north,
	double elev,
	double top,
	double bot,
	double inc,
	int dip_conv,
	int order,
	CVV vv_x,
	CVV vv_y,
	CVV vv_z,
	CVV vv_d
)

public void ReSurveyPolFit(
	string hole,
	CVV vv_dip,
	CVV vv_az,
	CVV vv_depth,
	double east,
	double north,
	double elev,
	double top,
	double bot,
	double inc,
	int dip_conv,
	int order,
	CVV vv_x,
	CVV vv_y,
	CVV vv_z,
	CVV vv_d
)

Public Sub ReSurveyPolFit ( 
	hole As String,
	vv_dip As CVV,
	vv_az As CVV,
	vv_depth As CVV,
	east As Double,
	north As Double,
	elev As Double,
	top As Double,
	bot As Double,
	inc As Double,
	dip_conv As Integer,
	order As Integer,
	vv_x As CVV,
	vv_y As CVV,
	vv_z As CVV,
	vv_d As CVV
)

Public Sub ReSurveyPolFit ( 
	hole As String,
	vv_dip As CVV,
	vv_az As CVV,
	vv_depth As CVV,
	east As Double,
	north As Double,
	elev As Double,
	top As Double,
	bot As Double,
	inc As Double,
	dip_conv As Integer,
	order As Integer,
	vv_x As CVV,
	vv_y As CVV,
	vv_z As CVV,
	vv_d As CVV
)

public:
void ReSurveyPolFit(
	String^ hole, 
	CVV^ vv_dip, 
	CVV^ vv_az, 
	CVV^ vv_depth, 
	double east, 
	double north, 
	double elev, 
	double top, 
	double bot, 
	double inc, 
	int dip_conv, 
	int order, 
	CVV^ vv_x, 
	CVV^ vv_y, 
	CVV^ vv_z, 
	CVV^ vv_d
)

public:
void ReSurveyPolFit(
	String^ hole, 
	CVV^ vv_dip, 
	CVV^ vv_az, 
	CVV^ vv_depth, 
	double east, 
	double north, 
	double elev, 
	double top, 
	double bot, 
	double inc, 
	int dip_conv, 
	int order, 
	CVV^ vv_x, 
	CVV^ vv_y, 
	CVV^ vv_z, 
	CVV^ vv_d
)

member ReSurveyPolFit : 
        hole : string * 
        vv_dip : CVV * 
        vv_az : CVV * 
        vv_depth : CVV * 
        east : float * 
        north : float * 
        elev : float * 
        top : float * 
        bot : float * 
        inc : float * 
        dip_conv : int * 
        order : int * 
        vv_x : CVV * 
        vv_y : CVV * 
        vv_z : CVV * 
        vv_d : CVV -> unit 


member ReSurveyPolFit : 
        hole : string * 
        vv_dip : CVV * 
        vv_az : CVV * 
        vv_depth : CVV * 
        east : float * 
        north : float * 
        elev : float * 
        top : float * 
        bot : float * 
        inc : float * 
        dip_conv : int * 
        order : int * 
        vv_x : CVV * 
        vv_y : CVV * 
        vv_z : CVV * 
        vv_d : CVV -> unit

Parameters

hole: Type: SystemString
Hole ID (used for error messages)
vv_dip: Type: GeoEngine.Core.GXNetXCVV
Dip
vv_az: Type: GeoEngine.Core.GXNetXCVV
Azimuth
vv_depth: Type: GeoEngine.Core.GXNetXCVV
Depth
east: Type: SystemDouble
Collar X (easting) (depth = 0)
north: Type: SystemDouble
Collar Y (northing)(depth = 0)
elev: Type: SystemDouble
Collar Z (elevation) (depth = 0)
top: Type: SystemDouble
Minimum hole depth to start output values
bot: Type: SystemDouble
Maximum hole depth for output values
inc: Type: SystemDouble
Increment for output values
dip_conv: Type: SystemInt32
<define>DIP_CONVENTION</define>
order: Type: SystemInt32
Polynomial order
vv_x: Type: GeoEngine.Core.GXNetXCVV
X (Easting) - Output
vv_y: Type: GeoEngine.Core.GXNetXCVV
Y (Northin) - Output
vv_z: Type: GeoEngine.Core.GXNetXCVV
Z (Elevation) - Output
vv_d: Type: GeoEngine.Core.GXNetXCVV
Depths - Output

Remarks

Uses the polynomial fit method to calculate (X, Y, Z) locations down the hole from azimuth, dip, depth values. The collar is assumed to be at zero depth, and depth is the measure distance down the hole (even if it's horizontal). A negative dip convention means vertical down is -90 degrees. The polynomial order must be in the range 1-20, with 5 being adequate for most smoothly curving holes. The order is reduced to no more than the number of input points.

Reference

CDH Class

Geosoft.Desktop.GXNetX Namespace

CDHAddLanguageSpecificTextSet("LST4927A30A_0?cpp=::|nu=.");ReSurveyPolFit Method

Parameters

Reference

CDHReSurveyPolFit Method