I'm trying to draw a routine using python and folium, but some of the locations are fairly far away from where they should be.

I've used the previous angle and speed to generate the next location, but it still can't get a perfect match.

Here is my code:

- I use
`pandas`

to input the data which is a list collected per second.

```
def data_input(_dir, n):
_data = pd.read_csv(_dir + '\\_dataset\\' + n)
return _data
```

- Calculate the distance with two locations.

```
def distance(location, location2):
# 0 lat 1 lng
radLat1 = math.radians(location[0])
radLat2 = math.radians(location2[0])
a = radLat1 - radLat2
b = math.radians(location[1]) - math.radians(location2[1])
s = 2 * math.asin(math.sqrt(math.pow(math.sin(a / 2), 2) + math.cos(radLat1) * math.cos(radLat2) * math.pow(math.sin(b/2), 2)))
d = s * 6371.004 # km
return d
```

I will call the function below if the

`d`

is bigger than a solid value that I set previously(like 30 or 60).This is how I fix the location with substituting the next latitude and longitude. (That's not the point:-))

```
def location_fix(location_list): # [lat, lng, speed, angle]
lat = location_list[0]
lng = location_list[1]
spd = location_list[2]
ang = location_list[3]
distance = spd / 3.6
radius = 6371004
delta = distance / radius
theta = math.radians(ang)
phi1 = math.radians(lat)
lambda1 = math.radians(lng)
sin_phi1 = math.sin(phi1)
cos_phi1 = math.cos(phi1)
sin_delta = math.sin(delta)
cos_delta = math.cos(delta)
sin_theta = math.sin(theta)
cos_theta = math.cos(theta)
sin_phi2 = sin_phi1 * cos_delta + cos_phi1 * sin_delta * cos_theta
phi2 = math.asin(sin_phi2)
y = sin_theta * sin_delta * cos_phi1
x = cos_delta - sin_phi1 * sin_phi2
lambda2 = lambda1 + math.atan2(y, x)
return math.degrees(phi2), (math.degrees(lambda2) + 540) % 360 - 180
# return the new lat and lng.
```

- Get the list of
`lat`

and`lng`

using`numpy`

.

```
location = np.array(location)[:, [0, 1]].tolist()
```

- Then I use folium to plot the map with the
`location`

.

```
def map_g(_dir, location, n, name, color): # generate the map
m = folium.Map([28, 115], zoom_start=10)
folium.PolyLine(
location,
weight=3,
color=color,
opacity=0.8
).add_to(m)
m.save(os.path.join(_dir + '\\map', n + name + '.html'))
```

And here is the `csv`

file sample:

```
vehicleplatenumber,device_num,direction_angle,lng,lat,acc_state,right_turn_signals,left_turn_signals,hand_brake,foot_brake,location_time,gps_speed,mileage
AA00004,AAA9101004,0,115.92313,28.651311,1,0,0,0,0,2018-08-01 00:06:38,0,5559
AA00004,AAA9101004,0,115.923106,28.651248,1,0,0,0,0,2018-08-01 00:06:39,0,5559
AA00004,AAA9101004,0,115.92310800000001,28.651248,1,0,0,0,0,2018-08-01 00:06:40,0,5559
AA00004,AAA9101004,0,115.92311000000001,28.651243,1,0,0,0,0,2018-08-01 00:06:41,0,5559
AA00004,AAA9101004,0,115.92311299999999,28.651246,1,0,0,0,0,2018-08-01 00:06:42,0,5559
AA00004,AAA9101004,0,115.923121,28.651245,1,0,0,0,0,2018-08-01 00:06:43,0,5559
AA00004,AAA9101004,0,115.92314499999999,28.651281,1,0,0,0,0,2018-08-01 00:06:44,0,5559
AA00004,AAA9101004,0,115.92317800000001,28.651346000000004,1,0,0,0,0,2018-08-01 00:06:45,0,5559
```

You can create a file using notepad and rename it with .csv for necessary test.