There is no built-in function in .NET (or F# libraries) that would do that automatically.

To give you some initial idea - it is quite easy to solve this in F# if you only had precise data (i.e. ignoring small spikes in your chart) such that no two following values in the array are the same.

In that case, you can find a minimum by looking for three following values such that the middle value is smaller than the previous and also smaller than the next value. This detects shapes like:

```
__ __
\/
```

For example, if you have `values`

containing your data, you can write:

```
let values = [ 1.0; 2.0; 1.5; 1.0; 4.0; 2.0 ]
// Add indices as the first element of a tuple (so that we can identify positions)
let valuesIndexed = values |> Seq.mapi (fun i v -> i, v)
// Use 'windowed' to create sliding window of size 3 and then 'choose'
// indices where previous value and following value are both larger
let mins =
valuesIndexed |> Seq.windowed 3 |> Seq.choose (fun arr ->
match arr.[0], arr.[1], arr.[2] with
| (_, vpre), (i, v), (_, vpost) when vpre > v && vpost > v -> Some i
| _ -> None)
```

This is not going to work for the data in your chart, because it is oversimplified, but it should give you something to start with. In practice, you'll probably need to add some smoothing (to avoid identifying all the spikes as local minima/maxima).

`local min and max`

? – Abe Miessler Nov 7 '11 at 23:47