# How to convert Longitude,Latitude, Elevation to Cartesian coordinates?

I downloaded weather data and it has longitude (in decimal), latitude (in decimal), and elevation (in m) values. There is no information about the coordinate system used. How I can convert it to cartesian coordinates ?. My attempts are below. But, my problem is to find the right formulas

``````def cartesian(self,longitude,latitude, elevation):
R = 6378137.0 + elevation  # relative to centre of the earth
X = R * math.cos(longitude) * math.sin(latitude)
Y = R * math.sin(longitude) * math.sin(latitude)
Z = R * math.cos(latitude)

def cartesian3(self,longitude,latitude, elevation):

X = longitude * 60 * 1852 * math.cos(latitude)
Y = latitude * 60 * 1852

Z = elevation

return X,Y,Z
``````

An answer here by Daphna Shezaf uses different formulas. However, it does not use elevations. I would appreciate if someone could clear my confusion, should elevation be used in converting from long/lat or not ?. What are the right formulas ?. I have tried to compare the result of my codes on this website by using specific long, lat, elev. My both methods above have results that are far from the obtained result from the website

## UPDATE

I would like to share the solution to my problem. I have implemented lla2ecef function from Matlab as here in python. It allows to convert radian longitude, latitude, and elevation (height in m) to cartesian. I only need to convert latitude and longitude to radian iff they are in decimal by :

``````latitude = (lat * math.pi) / 180  #latitude in radian, and lat in decimal
``````

To verify my calculations. I compared the conversion result to the website above (website) and this one as well. Both give me almost same result.

Note: If you consider for simplicity earth is sphere, you can use `def cartesian` (I updated it; thanks to Sasha for correction). If you consider earth is ellipsoid (WGS 84 Geodetic System), you can implement the conversion as in `lla2ecef`. `def cartesian` is for cartographic projection (Thanks for rodrigo)

• What do you mean with cartesian coordinates? The first formula gives the 3D coordinates relative to the center of the Earth. The second one is a cartographic projection, that is relative to a map. – rodrigo Jul 12 '15 at 9:20
• I have updated the question and the solution. You are right, the second formula is for map not for earth. – Yasmin Jul 12 '15 at 15:27