I'd say it does not look like mid-point displacement, simply because every segment should be getting a regular X axis length (you have nearly vertical segments). Have you tried to generate a simple 4-segment array? What does it look like?

Here is a short tutorial I wrote, you can see it in action: Mid-point algorithm in Javascript

The source code:

```
function Terrain(segmentCount) {
this.segmentCount = segmentCount;
this.points = [];
for (i=0; i<=segmentCount; ++i) {
this.points[i] = 0;
}
};
/**
* Generate the terrain using the mid-point displacement algorithm. This is in fact
* a shortcut to the recursive function with the appropriate value to start
* generating the terrain.
*
* @param maxElevation the maximal vertical displacement to apply at this iteration
* @param sharpness how much to attenuate maxElevation at each iteration (lower
* value means a smoother terrain). Keep between 0 and 1.
*/
Terrain.prototype.generateUsingMidPoint = function(maxElevation, sharpness) {
this.midPoint(0, this.segmentCount, maxElevation, sharpness);
}
/**
* This is the recursive function to actually generate the terrain. It computes a new height for the point
* between "start" and "end" (the mid-point): averages start and end heights and adds a random
* displacement.
*
* @param maxElevation the maximal vertical displacement to apply at this iteration
* @param sharpness how much to attenuate maxElevation at each iteration (lower
* value means a smoother terrain). Keep between 0 and 1.
*/
Terrain.prototype.midPoint = function(start, end, maxElevation, sharpness) {
var middle = Math.round((start + end) * 0.5);
if ((end-start<=1) || middle==start || middle==end) {
return;
}
var newAltitude = 0.5 * (this.points[end] + this.points[start]) + maxElevation*(1 - 2*Math.random());
this.points[middle] = newAltitude;
this.midPoint(start, middle, maxElevation*sharpness, sharpness);
this.midPoint(middle, end, maxElevation*sharpness, sharpness);
};
```