I updated this post with tables! Click through to the original post and scroll to the bottom.
Excellence in Historical Research and Analysis
Excellence in Historical Research and Analysis
Tag combat intensity
Human Factors In Warfare: Combat Intensity
Trevor Dupuy considered intensity to be another combat phenomena influenced by human factors. The variation in the intensity of combat is an aspect of battle that is widely acknowledged but little studied.
No one who has paid any attention at all to historical combat statistics can have failed to notice that some battles have been very bloody and hard-fought, while others—often under circumstances superficially similar—have reached a conclusion with relatively light casualties on one or both sides. I don’t believe that it is terribly important to find a quantitative reason for such differences, mainly because I don’t think there is any quantitative reason. The differences are usually due to such things as the general circumstances existing when the battles are fought, the personalities of the commanders, and the natures of the missions or objectives of one or both of the hostile forces, and the interactions of these personalities and missions.
From my standpoint the principal reason for trying to quantify the intensity of a battle is for purposes of comparative analysis. Just because casualties are relatively low on one or both sides does not necessarily mean that the battle was not intensive. And if the casualty rates are misinterpreted, then the analysis of the outcome can be distorted. For instance, a battle fought on a flat plain between two military forces will almost invariably have higher casualty rates for both sides than will a battle between those same two forces in mountainous terrain. A battle between those two forces in a heavy downpour, or in cold, wintry weather, will have lower casualties than when the forces are opposed to each other, under otherwise identical circumstances, in good weather. Casualty rates for small forces in a given set of circumstances are invariably higher than the rates for larger forces under otherwise identical circumstances.
If all of these things are taken into consideration, then it is possible to assess combat intensity fairly consistently. The formula I use is as follows:
CI = CR / (sz’ x rc x hc)
When: CI = Combat Intensity Measure
CR = Casualty rate in percent per day
sz’ = Square root of sz, a factor reflecting the effect of size upon casualty rates, derived from historical experience
rc = The effect of terrain on casualty rates, derived from historical experience
hc = The effect of weather on casualty rates, derived from historical experience
I then (somewhat arbitrarily) identify seven levels of intensity:
0.00 to 0.49 Very low intensity (1)
0.50 to 0.99 Low intensity (56)
1.00 to 1.99 Normal intensity (213)
2.00 to 2.99 High intensity (101)
3.00 to 3.99 Very high intensity (30)
4.00 to 5.00 Extremely high intensity (17)
Over 5.00 Catastrophic outcome (20)
The numbers in parentheses show the distribution of intensity on each side in 219 battles in DMSi’s QJM data base. The catastrophic battles include: the Russians in the Battles of Tannenberg and Gorlice Tarnow on the Eastern Front in World War I; the Russians on the first day of the Battle of Kursk in July 1943; a British defeat in Malaya in December, 1941; and 16 Japanese defeats on Okinawa. Each of these catastrophic instances, quantitatively identified, is consistent with a qualitative assessment of the outcome.
[UPDATE]
As Clinton Reilly pointed out in the comments, this works better when the equation variables are provided. These are from Trevor N. Dupuy, Attrition Forecasting Battle Casualties and Equipment Losses in Modern War (Fall Church, VA: NOVA Publications, 1995), pp. 146, 147, 149.