I want to compute the aggregated average of a signal over time, in a certain period. I don't know how this is called scientifically.

Example: I have an electricity consumption for a full year in 15 minute values. I want to know my average consumption by hour of the day (24 values). But it is more complex: there are more measurements in between the 15-minute steps, and I cannot foresee where they are. However, they should be taken into account, with a correct 'weight'.

I wrote a function that works, but it is extremely slow. Here is a test setup:

```
import numpy as np
signal = np.arange(6)
time = np.array([0, 2, 3.5, 4, 6, 8])
period = 4
interval = 2
def aggregate(signal, time, period, interval):
pass
aggregated = aggregate(signal, time, period, interval)
# This should be the result: aggregated = array([ 2. , 3.125])
```

`aggregated`

should have `period/interval`

values. This is the manual computation:

```
aggregated[0] = (np.trapz(y=np.array([0, 1]), x=np.array([0, 2]))/interval + \
np.trapz(y=np.array([3, 4]), x=np.array([4, 6]))/interval) / (period/interval)
aggregated[1] = (np.trapz(y=np.array([1, 2, 3]), x=np.array([2, 3.5, 4]))/interval + \
np.trapz(y=np.array([4, 5]), x=np.array([6, 8]))/interval) / (period/interval)
```

I hope this makes sense...

One last detail: it has to be efficient, thats why my own solution is not useful. Maybe I'm overlooking a numpy or scipy method? Or is this something pandas can do? Thanks a lot for your help.

`time`

values when the signal points occur? How do the`period`

and`interval`

values tie in? And I don't get your manual computation, all the`interal`

values cancel out. Please try and clarify a bit :) – fraxel May 23 '12 at 22:56`time`

values are indeed where the signal occurs, let's suppose it is in seconds. The`period`

would be 86400, and the`interval`

would be 3600. I hope this helps – saroele May 23 '12 at 23:00`first`

and`second`

values represent? – fraxel May 23 '12 at 23:04`aggregated`

. It's messy, but I wanted to show how to understand what the desired result actually means. – saroele May 23 '12 at 23:30