This is the second part of my review of The stress of battle: quantifying human performance in combat by David Rowland, which is an essential piece of Operational Research on WW2 and Cold War combat operations.

For this part I thought that I would focus on the lessons on urban battles. Rowland and his team used historical analysis on lots of WW2 urban battles and then compared this to a series of field trials using laser attachments to small arms and tank main armaments in the late 1970s and early 1980s.  The approach was to find battles where single variables could be controlled, and then use them to work out what the effect of that variable was on outcomes.

Here’s an interesting table on how attacker casualties vary by odds and the density of defending machine guns. Interestingly, in successful assaults the defender casualties are constant.

Force Ratio Attack Force(100 man Inf Company in Defence) Attack Casualties        (killed and wounded) Defence Casualties (Killed, POW & Wounded)
1 MG / Section 2 MG / Section

1:1

Infantry Only

16

24

80

3:1

Infantry Only

27

40

80

1:1

Heavy Tank Support (no def AT)

3

12

80

3:1

Heavy Tank Support (no def AT)

5

20

80

1:1

Trained attack – infantry only

8

12

80

1:1

Trained attack – Heavy AFV support

2

6

80

The interesting thing for me is that training/experience counts for a lot, halving casualties. Also attacking with the conventional 3:1 odds for success increases the casualties that you suffer, without having any appreciable difference in those inflicted on the enemy (although it does make it more likely for succesful attacks with untrained/inexperienced troops).

Adding armour support makes a huge difference too. Although tanks in urban areas are more vulnerable if they lose their infantry support. However with infantry they significantly reduce attacker casualties.

  • Defence experience gave no detectable benefit to causing casualties, but attack experience does (in urban combat)
  • typically three times as many defenders will surrender (some wounded) as are killed or withdraw, the only sensitivity on this is being completely surrounded (so 20% dead, 60% captured (incl wounded) and 20% withdraw);
  • attack casualties are less affected by force ratio in urban attacks than in open counrtyside;
  • successful defence of urban areas is best achieved by light defence with counter attacks supported by armour

Rubble & Prepared Defences

This another area covered. There is a general increase in attacker casualties by about 50% when defenders are in rubble or prepared defences. The primary effect of rubble though is to slow down rates of advance.

  • Rubble halved the rate of advance compared to undamaged urban areas
  • maximum unopposed advance rates were about 800 metres per hour in urban areas (400m/hr for rubble)
  • Opposition slowed the advance by a factor of 7

An interesting aside on this was the relative effectiveness of different types of German Infantry. Parachute troops and Panzergrenadiers were reckoned to be tougher opponents than normal infantry. However the analysis showed that the extra stubbornness was a factor of the higher than normal allocation of MGs to those troops. The rate of attacker casualties per defence MG wasn’t significantly different.

Continued in Part 3 – Operational Research on Terrain Effects