# Calculate and remove overlapping areas based on lat/lon with n coordinates

Context: I'm attempting to construct a series of coordinates to use in geo-targeting. I have group A, which is a series of coordinates that I want to target. The minimum targeting radius allowed by my system is 1KM, but I want to actually restrict the targeting to 350 meters. There will be a few thousand coordinates in group A.

My solution: To solve this, my solution was to create a grid/polygon (Group B) around each coordinate in group A which will be an exclusion zone. In this way, I can artificially restrict Group A to a 350 meter area, by creating a polygon of excluded areas (with any radius from the center lat/lon).

Problem: That is easy enough in a scenario where I have only one coordinate in Group A. If I have hundreds, or thousands, I don't want to create an exclusion coordinate in Group B that overlaps with an inclusion area from Group A, as it will unintentionally cut down the 350 meters to an even smaller number, or remove it altogether.

How can I determine mathematically the series of Group B coordinates to use, such that I maximize the chances that the greatest possible number of coordinates from Group A will have a 350 meter radius?

Caveat: My math background doesn't go beyond rudimentary calculus, and I'll be programming the solution in JavaScript or Python

I'm very much out of my element with this type of math. My solution so far has been to create a series of 4 coordinates that are each 1.35KM from the central point, with the central point also have a 1KM radius. My thought is that the resulting area of the central point would be 350 meters. I'm using the code below to calculate that

`````` var pi = Math.PI;
var meters = (1 / ((2 * pi / 360) * earth)) / 1000;
var cos = Math.cos;

var testLat = 40.704112;
var testLon = -74.012133;

var newLat = testLat + (meters*1350);
var newLon = testLon + (meters*1350)/cos(testLat*(pi/180));```

The expected result would be, for a series of input coordinates (Group A), an output group of coordinates (Group B) that maximizes the number of Group A coordinates with a 350M remaining radius
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