This seems a little crude and less graceful than @bobince's answer, but what the hell.

```
//setup
var colours = [], num_colours = 10, skew_to = 255, skew_chance = 20;
//get as many RGB vals as required
for (var i=0; i<num_colours; i++) {
//generate random grey
var this_grey = Math.floor(Math.random() * 256);
//skew it towards the @skew_to endpoint, or leave as-is?
if (Math.floor(Math.random() * 100) >= skew_chance && this_grey != skew_to) {
//skew by random amount (0 - difference between curr val and endpoint)
var skew_amount = Math.floor(Math.random() * Math.abs(this_grey - skew_to));
this_grey += ' (skewed to '+(skew_to < this_grey ? this_grey - skew_amount : this_grey + skew_amount)+')';
}
colours.push(this_grey);
}
console.log(colours);
```

Essentially it generates random greys then decides, based on probably specified (as a percentage) in `skew_chance`

, whether to skew it or not. (In case you wanted to make this occasional, not constant). If it decides to skew, a random number is then added or subtracted from the grey value (depending on whether the skew endpoint is under or above the current value).

This random number is a number between 0 and the absolute difference between the current value and the endpoint, e.g. if current value is 40, and the endpoint is 100, the number added would be between 0 and 60.

Like I say, @bobince's answer is somewhat, er, more graceful!