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# Latitude Longitude in wrong format DDDMM.MMMM 2832.3396N

I have a gps module that gives me latitude in longitude in a weird format.

``````DDDMM.MMMM
``````

As written on user manual, Degrees*100 + Minutes.

As far as I know, It is degrees minutes seconds, and seconds is between 0-59, above than this will increment the minute. But this is giving minutes in decimal places. Does this means 1/1000th of a minute?

``````eg. 07717.3644 E
077 --> degrees
17 --> minutes
3644 --> ?
E --> Direction
``````

Also how will I convert it to decimal, I am using the formula

``````decimal = degrees + minutes/60 + seconds/3600.
``````
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.3644 are minutes which are equal to seconds/60 – Gangadhar Aug 26 '13 at 11:22
Hi, I am facing similar problem, the nema received format is ddmm.mmmm. I need to convert the same to ddmm.mmmmmm. 1. what this format explains ? ddmm.mmmmmm? Please explain. 2. To convert ddmm.mmmm to ddmm.mmmmmm, I did ddmm.(mmmm* 60). Is this correct – Aada Feb 5 at 10:11

To convert this to the decimal format, we start by keeping the DD portion and simply divide the MM.MMM by 60 to firm the MMM portion of the decimal format.

``````43. (48.225/60), -79.(59.074/60)

43.(0.80375), -79.(0.98456)

43.80375, -79.98456
``````

``````eg. 07717.3644 E is the DDMM.MMMM format

077 --> degrees
17 --> minutes
.3644 --> minutes equals to sec/60

decimal = degrees + minutes/60

decimal = 77 + (17.3644 / 60)

decimal = 77.28941
``````
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1 minute = 60 seconds, so .3644 minutes = .3644 * 60 = 21.86 seconds.

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The value is not a number but a string of degreed and minutes concatenated. You need to be careful because it is likely that latitude values only have two degree digits (i.e. DDMM.MMMM), so if you use string handling to separate the values, you's have to account for that . However both long and lat can be handled numerically as follows:

``````double GpsEncodingToDegrees( char* gpsencoding )
{
double a = strtod( gpsencoding, 0 ) ;
double d = (int)a / 100 ;
a -= d * 100 ;
return d + (a / 60) ;
}
``````

You might also pass the hemisphere character E/W or N/S to this function and use it to determine an appropriate +/- sign if required.

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Simple implementation in Python:

``````latitude = <ddmm.mmmm>
longitude = <dddmm.mmmmm>

# Ricava i gradi della latitudine e longitudine
lat_degree = int(latitude / 100);
lng_degree = int(longitude / 100);

# Ricava i minuti della latitudine e longitudine
lat_mm_mmmm = latitude % 100
lng_mm_mmmmm = longitude % 100

# Converte il formato di rappresentazione
converted_latitude = lat_degree + (lat_mm_mmmm / 60)
converted_longitude = lng_degree + (lng_mm_mmmmm / 60)

print converted_latitude, converted_longitude
``````

Replace latitude and logitude.

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