Microsoft Commerce Server contains a NOD algorithm
and http://msdn.microsoft.com/en-us/library/ee825423%28v=cs.10%29.aspx )
I've used derived versions of this formula in 3 different ad servers, which turned out to work nice for my conditions.
The basic formula regarding your situation uses a variable called NOD, short for "Need of Delivery". At any given time, the "basic" NOD formula of a banner is:
NOD=(Remaining Events / Total Events Requested) * (Total Runtime /
Note that "Events" is a general term, which may represent impressions, clicks, conversions, etc. depending on your system.
The equation states that all banners start with the initial value of 1.0 to their lives, because (e / e) * (t / t) = 1.0
A higher-than-1 NOD value means you are behind your schedule, while a NOD between 0 and 1 generally means that you have displayed the banner "too fast". Values between 0.9 and 1.2 are generally in acceptable range (this is not a technical range, rather a business experience).
As long as the serving ratios match duration ratios, values stay around 1.0.
For a specific ad slot, the algorithm checks the NODs of all available banners targettable on the slot. Suppose you have 3 banners available on a slot, with NOD values 0.6, 1.35 and 1.05, which add up to 3.0. Then relative probabilities of each banner to be displayed become 20%, 45% and 35% in order [ 0.6 / (0.6 + 1.35 + 1.05)] = 20%
The algorithm uses weighted probability distribution, which means that even the banner with the least NOD value has the chance to be displayed. While the basic formula uses this approach, business decisions generally always forced me to implement algorithms favoring the urgent NOD values more than the original formula. So, I took the base NODs and multiplied them with themselves. In the same example, probabilities become 11%, 55,5%
and 33,5% in order.
For your condition, you might consider changing the formula a little bit to serve your needs. First to be able to compare the income you will earn by displaying a banner, you should convert all display types (impression, click, action, etc) to a common eCPM value. Then you might use this eCPM as a multiplier to the original equation.
Calculating eCPM (effective CPM) might be tricky for not-yet-published campaigns, in this case you should use historical data.
Let me explain this part a little bit more: When trying to compare the probable income you will earn by "displaying" a single banner, you don't need to compare impression based budgets. For click based budgets, you should use historical CTR value to guess "how many impressions does my system need to serve to get X clics". A more advanced algorithm might utilize "how many impressions does my system need to serve to get a campaign in X category, in y inventory".
Then your final equation becomes:
NOD = eCPM * (Remaining Events / Total Events Requested) * (Total
Runtime / Remaining Runtime)
You can always consider using powers of eCPM to compare the results. Like my way of changing the original formula to favor more urgent campaigns, you might favor "more paying" campaigns.