Vertical Derivative Convolution

Use the Grid and Image > Filters > Vertical Derivative Convolution menu option (GRIDVD GX) to apply a vertical derivative convolution filter to a grid.

Vertical Derivative Convolution dialog options

Input grid file

Name of the input grid.

Script Parameter: GRIDVD.GRD

New resultant grid

Name of the vertical derivative grid.

Script Parameter: GRIDVD.NEW

Application Notes

The vertical derivative convolution filter (VDCF hereafter) method will benefit a very large grid for both memory storage economy and speed improvement.

The VDCF is a 5th order radially symmetrical filter, formulated by Henderson¹ as expressed below:

Where:

a is the filter increment

f(a) is the field value at point a

m is the order of the convolution filter

Herderson further evaluated the VDCF for 10 numeric coefficient. Simplifying the above equation to the form below:

The coefficients D(a_i) are:

Index a Coefficient

0 0 1.87282

1 1 -1.13625

2 √2 -0.05949

3 √5 -0.30210

4 2√2 -0.05857

5 √13 -0.07597

6 5 -0.07072

7 5√2 -0.05758

8 √136 -0.03905

9 √274 -0.02286

10 25 -0.05020

Index	a	Coefficient
0	0	1.87282
1	1	-1.13625
2	√2	-0.05949
3	√5	-0.30210
4	2√2	-0.05857
5	√13	-0.07597
6	5	-0.07072
7	5√2	-0.05758
8	√136	-0.03905
9	√274	-0.02286
10	25	-0.05020

VDCF Radial Graph:

These coefficients are interpolated and normalized on a 51x51 convolution window and applied to the input grid.

Reference

R. G. Henderson, "A Comprehensive System of Automatic Computation in Magnetic and Gravity Interpretation", Geophysics, vol. 25 (1960), pp. 569 - 585.

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