Category Lessons of History

Trevor Dupuy’s Definition of Military Combat

Ernst Zimmer: “Das Lauenburgische Jäger-Bataillon Nr. 9 bei Gravelotte” [Wikipedia]
The first element in Trevor Dupuy’s theory of combat is his definition of military combat:

I define military combat as a violent, planned form of physical interaction (fighting) between two hostile opponents, where at least one party is an organized force, recognized by governmental or de facto authority, and one or both opposing parties hold one or more of the follow-on objectives: to seize control of territory or people; to prevent the opponent from seizing or controlling territory or people; to protect one’s own territory or people; to dominate, destroy, or incapacitate the opponent.

The impact of weapons creates an environment of lethality, danger, and fear in which achievement of the objectives by one party may require the opponent to choose among: continued resistance and resultant destruction; retreat and loss of territory, facilities, and people; surrender. Military combat begins in any interaction, or at any level of combat from duel to full-scale war, when weapons are first employed with hostile intent by one or both opponents.  Military combat ends for any interaction or level of combat when both sides have stopped fighting.

There are two key points in this definition that I wish to emphasize. Though there may be much in common between military combat and a brawl in a barroom, there are important differences. The opponents in military combat are to some degree organized, and both represent a government or quasi-governmental authority. There is one other essential difference: the all-pervasive influence of fear in a lethal environment. People have been killed in barroom brawls, but this is exceptional. In military combat there is the constant danger of death from lethal weapons employed by opponents with deadly intent. Fear is without question the most important characteristic of combat. [Dupuy, Understanding War, 63-64]

The Elements of Trevor Dupuy’s Theory of Combat

Trevor Dupuy’s combat models (the Quantified Judgement Model (QJM) and the Tactical Numerical Deterministic Model (TNDM)) are formal expressions of his theory of combat. Dupuy provided an extensive discussion of the basis for his theory in his books, particularly Understanding War: History and Theory of Combat (NOVA Publications, 1987). While many are familiar with his models, fewer are aware of the concepts that he based it upon. This will be the first in a series of posts looking at those elements.

As Dupuy explained,

As a starting point for an explanation of a scientific theory, it is useful to define fundamental terms, to state and explain critical assumptions, and to establish—or limit—the scope of the discussion that follows. The definitions and explanations that follow are generally consistent with usage in the military and analytical communities, and with definitions that have been formulated for its work by The Military Conflict Institute. However, I have in some instances modified or restated these to conform to my own ideas and usage. [Dupuy, Understanding Combat, 63]

The basic elements of his theory of combat are:

Definition of Military Combat
The Hierarchy of Combat
The Conceptual Components of Combat
The Scope of Theory
Definition of a Theory of Combat

These will each be discussed in future posts.

Lessons Learned from the Russo-Ukrainian War

I noticed that our blog was being pinged by a site I was not familiar with, so I took a look at it….and I don’t read Chinese Korean  (see: https://m.blog.naver.com/alsrb19/221127427656).

But the site had a link to a paper written by Dr. Phillip A. Karber of the Potomac Foundation. This is worth looking at:

https://drive.google.com/file/d/0BwsSGlkg0LM2aVhrNXExQ2FVTngxbzhWYVFCSFpvNWNCdVFB/view

This was done as part of the “Historical Lessons Learned Workshop.” I gather Dr. Phillip Karber and retired Gen. Wesley Clark wandered around Ukraine a lot during 2014 and 2015. Mr. Karber was wounded in June 2015 in a MLRS strike at Bebedynsky during the process. While I have never met him, Phil Karber has been around for a while, having worked for Andy Marshall (OSD Net Assessment). A few highlights:

  1. “…the struggle in Ukraine has involved the largest scale battles in Europe since the end of the Second World War.” (page 2)
  2. “The Russo-Ukrainian War has been full of surprises. First, it was totally unexpected.” (page 2)
  3. “A third surprise is the relative lack of Western attention given to the military aspects of the Russo-Ukrainian War; particularly given the unexpected scale and duration of the conflict….” (page 3)
  4. Artillery: “In the Ukraine conflict the author has witnessed units firing 300-400 rounds per tube per day. This increased intensity of fire is both outgoing and incoming.” (page 16)
  5. “Data from the Ukraine conflict show that artillery is producing approximately 85% of all casualties on both sides.” (page 17)
  6. “In July 2014….In the space of six weeks, the Russians launched 53 fire strikes at 40 different locations, which decimated Ukrainian forces. For example, at Zelenopillya, in a combined MLRS fire strike that lasted no more than three minutes, two Ukrainian mechanized battalions were virtually wiped out with the combined effects of top-attack munitions and thermobaric warheads.” (page 18)
  7. “Since the end of the Cold War, armies around the world have given increased emphasis to light Infantry Fighting Vehicles (IFV), which prioritizes mobility and fire-power over survivability. The evidence coming in from the Ukrainian conflict seriously questions the validity of that emphasis.” (page 26)

There are probably a few other significant points that I passed on.

Dupuy’s Verities: The Complexities of Combat

“The Battle of Leipzig, 16-19 October 1813” by A.I. Zauerweid (1783-1844) [Wikimedia]
The thirteenth and last of Trevor Dupuy’s Timeless Verities of Combat is:

Combat is too complex to be described in a single, simple aphorism.

From Understanding War (1987):

This is amply demonstrated by the preceding [verities]. All writers on military affairs (including this one) need periodically to remind themselves of this. In military analysis it is often necessary to focus on some particular aspect of combat. However, the results of such closely focused analyses must the be evaluated in the context of the brutal, multifarious, overlapping realities of war.

Trevor Dupuy was sometimes accused of attempting to reduce war to a mathematical equation. A casual reading of his writings might give that impression, but anyone who honestly engages with his ideas quickly finds this to be an erroneous conclusion. Yet, Dupuy believed the temptation to simplify and abstract combat and warfare to be common enough that he he embedded a warning against doing so into his basic theory on the subject. He firmly believed that human behavior comprises the most important aspect of combat, yet it is all too easy to miss the human experience of war figuring who lost or won and why, and counts of weapons, people, and casualties. As a military historian, he was keenly aware that the human stories behind the numbers—however imperfectly recorded and told—tell us more about the reality of war than mere numbers on their own ever will.

The Probable Characteristics of the Next War

Lt. Col. George S. Patton, Jr.: I Tank Battalion, Renault tank, summer 1918

Noted the following paper “The Probable Characteristics of the Next War and the Organizations, Tactics, and Equipment Necessary to Meet Them.” It was dated February 29, 1932 and done at the U.S. Army War College. The author was Major G. S. Patton, Jr. Cavalry: Patton Paper, 1932

A relevant article from The Strategy Bridge: Reviewing 21st Century Patton: Strategic Insights for the Modern Era

Dupuy’s Verities: The Inefficiency of Combat

The “Mud March” of the Union Army of the Potomac, January 1863.

The twelfth of Trevor Dupuy’s Timeless Verities of Combat is:

Combat activities are always slower, less productive, and less efficient than anticipated.

From Understanding War (1987):

This is the phenomenon that Clausewitz called “friction in war.” Friction is largely due to the disruptive, suppressive, and dispersal effects of firepower upon an aggregation of people. This pace of actual combat operations will be much slower than the progress of field tests and training exercises, even highly realistic ones. Tests and exercises are not truly realistic portrayals of combat, because they lack the element of fear in a lethal environment, present only in real combat. Allowances must be made in planning and execution for the effects of friction, including mistakes, breakdowns, and confusion.

While Clausewitz asserted that the effects of friction on the battlefield could not be measured because they were largely due to chance, Dupuy believed that its influence could, in fact, be gauged and quantified. He identified at least two distinct combat phenomena he thought reflected measurable effects of friction: the differences in casualty rates between large and small sized forces, and diminishing returns from adding extra combat power beyond a certain point in battle. He also believed much more research would be necessary to fully understand and account for this.

Dupuy was skeptical of the accuracy of combat models that failed to account for this interaction between operational and human factors on the battlefield. He was particularly doubtful about approaches that started by calculating the outcomes of combat between individual small-sized units or weapons platforms based on the Lanchester equations or “physics-based” estimates, then used these as inputs for brigade and division-level-battles, the results of which in turn were used as the basis for determining the consequences of theater-level campaigns. He thought that such models, known as “bottom up,” hierarchical, or aggregated concepts (and the prevailing approach to campaign combat modeling in the U.S.), would be incapable of accurately capturing and simulating the effects of friction.

Dupuy’s Verities: The Effects of Firepower in Combat

A German artillery barrage falling on Allied trenches, probably during the Second Battle of Ypres in 1915, during the First World War. [Wikimedia]

The eleventh of Trevor Dupuy’s Timeless Verities of Combat is:

Firepower kills, disrupts, suppresses, and causes dispersion.

From Understanding War (1987):

It is doubtful if any of the people who are today writing on the effect of technology on warfare would consciously disagree with this statement. Yet, many of them tend to ignore the impact of firepower on dispersion, and as a consequence they have come to believe that the more lethal the firepower, the more deaths, disruption, and suppression it will cause. In fact, as weapons have become more lethal intrinsically, their casualty-causing capability has either declined or remained about the same because of greater dispersion of targets. Personnel and tank loss rates of the 1973 Arab-Israeli War, for example, were quite similar to those of intensive battles of World War II and the casualty rates in both of these wars were less than in World War I. (p. 7)

Research and analysis of real-world historical combat data by Dupuy and TDI has identified at least four distinct combat effects of firepower: infliction of casualties (lethality), disruption, suppression, and dispersion. All of them were found to be heavily influenced—if not determined—by moral (human) factors.

Again, I have written extensively on this blog about Dupuy’s theory about the historical relationship between weapon lethality, dispersion on the battlefield, and historical decline in average daily combat casualty rates. TDI President Chris Lawrence has done further work on the subject as well.

TDI Friday Read: Lethality, Dispersion, And Mass On Future Battlefields

Human Factors In Warfare: Dispersion

Human Factors In Warfare: Suppression

There appears to be a fundamental difference in interpretation of the combat effects of firepower between Dupuy’s emphasis on the primacy of human factors and Defense Department models that account only for the “physics-based” casualty-inflicting capabilities of weapons systems. While U.S. Army combat doctrine accounts for the interaction of firepower and human behavior on the battlefield, it has no clear method for assessing or even fully identifying the effects of such factors on combat outcomes.

A Comment On The Importance Of Reserves In Combat

An German Army A7V near the Somme on March 26, 1918 [forces.net] Operation Michael was the first of a series of German Army offensives on the Western Front in the spring of 1918. In late March, 74 German divisions employing infiltration tactics created a breach in a sector of the line held by the British Army. The Germans advanced up to 40 miles and captured over 75,000 British soldiers, but the ability of the British and French to redeploy reserves via rail halted the offensive in early April short of strategic success.

In response to my previous post on Trevor Dupuy’s verity regarding the importance of depth and reserves for successful defense, a commenter posed the following question: “Is the importance of reserves mainly in its own right, or to mitigate the advantages of attacker surprise?”

The importance of reserves to both attacker and defender is as a hedge against the circumstantial uncertainties of combat. Reserves allow attacking and defending commanders the chance to maintain or regain initiative in response to the outcomes of battle. The side that commits its last reserves before its opponent does concedes the initiative to the enemy, probably irrevocably.

In Trevor Dupuy’s theory of combat, the intrinsic superiority of the defensive posture (as per Clausewitz) is the corollary to the attacker’s inherent advantage in initiative. When combined with the combat multipliers of favorable terrain and prepared positions or fortifications, the combat power of a defending force is greatly enhanced. This permits a defending commander to reap the benefit of economy of force to create reserves. When arrayed in sufficient depth to prevent an attacker from engaging them, reserves grant flexibility of response to the defender. A linear defense or improperly placed reserves concede this benefit to the attacker at the outset, permitting the attacking commander to exploit initiative to mass superior combat power at a decisive point without reserves to interfere.

A defender’s reserves are certainly useful in mitigating attacker surprise, but in Dupuy’s theories and models, surprise is a combat multiplier available to both attacker and defender. As perhaps the most powerful combat multiplier available on the battlefield, surprise in the form of a well-timed counterattack by a defender can devastate an attacking force. Even an unexpected tactical wrinkle by a defender can yield effective surprise.

TDI Friday Read: Tank Combat at Kursk

Today’s edition of TDI Friday Read is a roundup of posts by TDI President Christopher Lawrence exploring the details of tank combat between German and Soviet forces at the Battle of Kursk in 1943. The prevailing historical interpretation of Kursk is of the Soviets using their material and manpower superiority to blunt and then overwhelm the German offensive. This view is often buttressed by looking at the  ratio of the numbers of tanks destroyed in combat. Chris takes a deeper look at the data, the differences in the ways “destroyed” tanks were counted and reported, and the differing philosophies between the German and Soviet armies regarding damaged tank recovery and repair. This yields a much more nuanced perspective on the character of tank combat at Kursk that does not necessarily align with the prevailing historical interpretations. Historians often discount detailed observational data on combat as irrelevant or too difficult to collect and interpret. We at TDI believe that with history, the devil is always in the details.

Armor Exchange Ratios at Kursk

Armor Exchange Ratios at Kursk, 5 and 6 July 1943

Soviet Tank Repairs at Kursk (part 1 of 2)

Soviet Tank Repairs at Kursk (part 2 of 2)

German Damaged versus Destroyed Tanks at Kursk

Soviet Damaged versus Destroyed Tanks at Kursk

Comparative Tank Exchange Ratios at Kursk

TDI Friday Read: Engaging The Phalanx

The December 2018 issue of Phalanx, a periodical journal published by The Military Operations Research Society (MORS), contains an article by Jonathan K. Alt, Christopher Morey, and Larry Larimer, entitled “Perspectives on Combat Modeling.” (the article is paywalled, but limited public access is available via JSTOR).

Their article was written partly as a critical rebuttal to a TDI blog post originally published in April 2017, which discussed an issue of which the combat modeling and simulation community has long been aware but slow to address, known as the “Base of Sand” problem.

Wargaming Multi-Domain Battle: The Base Of Sand Problem

In short, because so little is empirically known about the real-world structures of combat processes and the interactions of these processes, modelers have been forced to rely on the judgement of subject matter experts (SMEs) to fill in the blanks. No one really knows if the blend of empirical data and SME judgement accurately represents combat because the modeling community has been reluctant to test its models against data on real world experience, a process known as validation.

TDI President Chris Lawrence subsequently published a series of blog posts responding to the specific comments and criticisms leveled by Alt, Morey, and Larimer.

How are combat models and simulations tested to see if they portray real-world combat accurately? Are they actually tested?

Engaging the Phalanx

How can we know if combat simulations adhere to strict standards established by the DoD regarding validation? Perhaps the validation reports can be released for peer review.

Validation

Some claim that models of complex combat behavior cannot really be tested against real-world operational experience, but this has already been done. Several times.

Validating Attrition

If only the “physics-based aspects” of combat models are empirically tested, do those models reliably represent real-world combat with humans or only the interactions of weapons systems?

Physics-based Aspects of Combat

Is real-world historical operational combat experience useful only for demonstrating the capabilities of combat models, or is it something the models should be able to reliably replicate?

Historical Demonstrations?

If a Subject Matter Expert (SME) can be substituted for a proper combat model validation effort, then could not a SME simply be substituted for the model? Should not all models be considered expert judgement quantified?

SMEs

What should be done about the “Base of Sand” problem? Here are some suggestions.

Engaging the Phalanx (part 7 of 7)

Persuading the military operations research community of the importance of research on real-world combat experience in modeling has been an uphill battle with a long history.

Diddlysquat

And the debate continues…