I managed to plot using arrow
functionality of matplotlib. The tricky part was that my wind direction is in meteorological convention (0˚ = N, 90˚ = E, 180˚ = S, 270˚ = W), so I needed to compute the u
and v
components accordingly.
obs_times
, wind_speed
and wind_direction
are my arrays containing the observation times and wind data, plot code is as follows:
fig, ax = plt.subplots(1, 1,figsize=(18, 4))
ax.plot(obs_times, wind_speed, linewidth=2, color='blue')
arrow_scaler = 3
for i in xrange(0,len(obs_times),4):
u = arrow_scaler*-1*np.sin((np.pi/180)*(wind_direction[i]))
v = arrow_scaler*-1*np.cos((np.pi/180)*(wind_direction[i]))
ax.arrow(obs_times[i], (wind_speed.max()+2)/2, u, v, fc='k', ec='k', head_width=0.4, head_length=0.6)
This gives the output (yes, my data is noisy, that's fine):