Category Conventional warfare

War by Numbers is on Amazon

lawrencefinal

My new book, with a release date of 1 August, is now available on Amazon.com for pre-order: War by Numbers (Amazon)

It is still listed at 498 pages, and I am pretty sure I only wrote 342. I will receive the proofs next month for review, so will have a chance to see how they got there. My Kursk book was over 2,500 pages in Microsoft Word, and we got it down to a mere 1,662 pages in print form. Not sure how this one is heading the other way.

Unlike the Kursk book, there will be a kindle version.

It is already available for pre-order from University of Nebraska Press here: War by Numbers (US)

It is available for pre-order in the UK through Casemate: War by Numbers (UK)

The table of contents for the book is here: War by Numbers: Table of Contents

Like the cover? I did not have a lot to do with it.

What Is The Relationship Between Rate of Fire and Military Effectiveness?

marine-firing-m240Over at his Best Defense blog, Tom Ricks recently posed an interesting question: Is rate of fire no longer a key metric in assessing military effectiveness?

Rate of fire doesn’t seem to be important in today’s militaries. I mean, everyone can go “full auto.” Rather, the problem seems to me firing too much and running out of ammunition.

I wonder if this affects how contemporary military historians look at the tactical level of war. Throughout most of history, the problem, it seems to me, was how many rocks, spears, arrows or bullets you could get off. Hence the importance of drill, which was designed to increase the volume of infantry fire (and to reduce people walking off the battlefield when they moved back to reload).

There are several ways to address this question from a historical perspective, but one place to start is to look at how rate of fire relates historically to combat.

Rate of fire is one of several measures of a weapon’s ability to inflict damage, i.e. its lethality. In the early 1960s, Trevor Dupuy and his associates at the Historical Evaluation Research Organization (HERO) assessed whether historical trends in increasing weapon lethality were changing the nature of combat. To measure this, they developed a methodology for scoring the inherent lethality of a given weapon, the Theoretical Lethality Index (TLI). TLI is the product of five factors:

  • rate of fire
  • targets per strike
  • range factor
  • accuracy
  • reliability

In the TLI methodology, rate of fire is defined as the number of effective strikes a weapon can deliver under ideal conditions in increments of one hour, and assumes no logistical limitation.

As measured by TLI, increased rates of fire do indeed increase weapon lethality. The TLI of an early 20th century semi-automatic rifle is nearly five times higher than a mid-19th century muzzle-loaded rifle due to its higher rate of fire. Despite having lower accuracy and reliability, a World War II-era machine gun has 10 times the TLI of a semi-automatic rifle due to its rate of fire. The rate of fire of small arms has not increased since the early-to-mid 20th century, and the assault rifle, adopted by modern armies following World War II, remains that standard infantry weapon in the early 21st century.

attrition-fig-11

Rate of fire is just but one of many factors that can influence a weapon’s lethality, however. Artillery has much higher TLI values than small arms despite lower rates of fire. This is for the obvious reasons that artillery has far greater range than small arms and because each round of ammunition can hit multiple targets per strike.

There are other methods for scoring weapon lethality but the TLI provides a logical and consistent methodology for comparing weapons to each other. Through the TLI, Dupuy substantiated the observation that indeed, weapons have become more lethal over time, particularly in the last century.

But if weapons have become more lethal, has combat become bloodier? No. Dupuy and his colleagues also discovered that, counterintuitively, the average casualty rates in land combat have been declining since the 17th century. Combat casualty rates did climb in the early and mid-19th century, but fell again precipitously from the later 19th century through the end of the 20th.

attrition-fig-13

The reason, Dupuy determined, was because armies have historically adapted to increases in weapon lethality by dispersing in greater depth on the battlefield, decentralizing tactical decision-making and enhancing mobility, and placing a greater emphasis on combined arms tactics. The area occupied by 100,000 soldiers increased 4,000 times between antiquity and the late 20th century. Average ground force dispersion increased by a third between World War II and the 1973 Yom Kippur War, and he estimated it had increased by another quarter by 1990.

attrition-fig-14

Simply put, even as weapons become more deadly, there are fewer targets on the battlefield for them to hit. Through the mid-19th century, the combination of low rates of fire and relatively shorter range required the massing of infantry fires in order to achieve lethal effect. Before 1850, artillery caused more battlefield casualties than infantry small arms. This ratio changed due to the increased rates of fire and range of rifled and breach loading weapons introduced in the 1850s and 1860s. The majority of combat casualties in  conflicts of the mid-to-late 19th century were inflicted by infantry small arms.

attrition-fig-19The lethality of modern small arms combined with machine guns led to further dispersion and the decentralization of tactical decision-making in early 20th century warfare. The increased destructiveness of artillery, due to improved range and more powerful ammunition, coupled with the invention of the field telephone and indirect fire techniques during World War I, restored the long arm to its role as king of the battlefield.

attrition-fig-35

Dupuy represented this historical relationship between lethality and dispersion on the battlefield by applying a dispersion factor to TLI values to obtain what he termed the Operational Lethality Index (OLI). By accounting for these effects, OLI values are a good theoretical approximation of relative weapon effectiveness.

npw-fig-2-5Although little empirical research has been done on this question, it seems logical that the trend toward greater use of precision-guided weapons is at least a partial response to the so-called “empty battlefield.” The developers of the Third Offset Strategy postulated that the emphasis on developing precision weaponry by the U.S. in the 1970s was a calculated response to offset the Soviet emphasis on mass firepower (i.e. the “second offset”). The goal of modern precision weapons is “one shot, one kill,” where a reduced rate of fire is compensated for by greater range and accuracy. Such weapons have become sufficiently lethal that the best way to survive on a modern battlefield is to not be seen.

At least, that was the conventional wisdom until recently. The U.S. Army in particular is watching how the Ukrainian separatist forces and their Russian enablers are making use of new artillery weapons, drone and information technology, and tactics to engage targets with mass fires. Some critics have alleged that the U.S. artillery arm has atrophied during the Global War on Terror and may no longer be capable of overmatching potential adversaries. It is not yet clear whether there will be a real competition between mass and precision fires on the battlefields of the near future, but it is possible that it signals yet another shift in the historical relationship between lethality, mobility, and dispersion in combat.

SOURCES

Trevor N. Dupuy, Attrition: Forecasting Battle Casualties and Equipment Losses in Modern War (Falls Church, VA: NOVA Publications, 1995)

_____., Understanding War: History and Theory of Combat (New York: Paragon House, 1987)

_____. The Evolution of Weapons and Warfare (Indianapolis, IN: The Bobbs-Merrill Company, Inc., 1980)

_____. Numbers, Predictions and War: Using History to Evaluate Combat Factors and Predict the Outcome of Battles (Indianapolis; New York: The Bobbs-Merrill Co., 1979)

A2/D2 and Jam Gee-Cee in the Western Pacific

western-pacific-oceanOne of the primary scenarios the Third Offset Strategy is intended to address is a potential military conflict between the United States and the People’s Republic of China over the sovereignty of the Republic of China (Taiwan) and territorial control of the South and East China Seas. As surveyed by James Holmes in a wonderful Mahanian geopolitical analysis, the South China Sea is a semi-enclosed sea at the intersection between East Asia and the Indian Ocean region, bounded by strategic gaps and choke points between island chains, atolls, and reefs, and riven by competing territorial claims among rising and established regional powers.

China’s current policy appears to be to develop the ability to assert military control over the Western Pacific and deny U.S. armed forces access to the area in case of overt conflict. The strategic dimension is framed by China’s pursuit of anti-access/area denial (A2/D2) capabilities enabled by development of sophisticated long-range strike, sensor, guidance, and other military technologies, and the use of asymmetrical warfare operational concepts such as psychological and information operations, and “lawfare” (the so-called “three warfares.”) China is also advancing its interests in decidedly low-tech ways as well, such as creating artificial islands on disputed reefs through dredging.

The current U.S. approach to thwarting China’s A2/D2 strategy is the Joint Concept for Access and Maneuver in the Global Commons (JAM-GC, aka “Jam Gee Cee”), or the concept formerly known as AirSea Battle. As described by Stephen Biddle and Ivan Oelrich, the current iteration of JAM-GC

…is designed to preserve U.S. access to the Western Pacific by combining passive defenses against Chinese missile attack with an emphasis on offensive action to destroy or disable the forces that China would use to establish A2/AD. This offensive action would use “cross-domain synergy” among U.S. space, cyber, air, and maritime forces (hence the moniker “AirSea”) to blind or suppress Chinese sensors. The heart of the concept, however, lies in physically destroying the Chinese weapons and infrastructure that underpin A2/AD.

The brute, counterforce character of JAM-GC provides the logic behind proposals for new long-range precision strike weapons such as the Air Force’s stealthy Long Range Strike-Bomber (LRS-B) program, recently designated the B-21 Raider.

The JAM-GC concept has not yet been officially set and continues to evolve. Both the A2/D2 construct and the premises behind JAM-GC are being challenged. As Biddle and Oelrich conclude in their detailed analysis of the strategic and military trends in the region, it is not at all clear that China’s A2/D2 approach will actually achieve its goal.

[W]e find that by 2040 China will not achieve military hegemony over the Western Pacific or anything close to it—even without ASB. A2/AD is giving air and maritime defenders increasing advantages, but those advantages are strongest over controlled landmasses and weaken over distance. As both sides deploy A2/AD, these capabilities will increasingly replace today’s U.S. command of the global commons not with Chinese hegemony but with a more differentiated pattern of control, with a U.S. sphere of influence around allied landmasses, a Chinese sphere of influence over the Chinese mainland, and contested battlespace covering much of the South and East China Seas, wherein neither power enjoys wartime freedom of surface or air movement.

They also raise deeper concerns about JAM-GC’s emphasis on an aggressive counterforce posture. In an era of constrained defense spending, developing and acquiring the military capability to execute it could be costly. Also, long-range air and missile strikes against the Chinese mainland runs the distinct risk of escalating a regional conflict into a general war between nuclear armed opponents.

A recent RAND analysis echoed these conclusions. The adoption of counterforce strategies by both the U.S. and China would result in heavy military losses by both sides that would make it difficult to constrain a longer, broader conflict. Although the RAND analysts foresee the U.S. prevailing in such a conflict, it would not be quick and the ramifications to both sides would be severe.

Dissatisfaction with these options and potential outcomes is partly what motivated the development of the Third Offset Strategy in the first place. It is not clear whether leveraging technological innovation can provide new operational capabilities that will enable successful solutions to these strategic dilemmas. What does seem apparent is that fresh thinking is needed.

 

Back To The Future: The Mobile Protected Firepower (MPF) Program

The MPF's historical antecedent: the German Army's 7.5 cm leichtes Infanteriegeschütz.
The MPF’s historical antecedent: the German Army’s 7.5 cm leichtes Infanteriegeschütz.

Historically, one of the challenges of modern combat has been in providing responsive, on-call, direct fire support for infantry. The U.S. armed forces have traditionally excelled in providing fire support for their ground combat maneuver elements, but recent changes have apparently caused concern that this will continue to be the case in the future.

Case in point is the U.S. Army’s Mobile Protected Firepower (MPF) program. The MPF seems to reflect concern by the U.S. Army that future combat environments will inhibit the capabilities of heavy artillery and air support systems tasked with providing fire support for infantry units. As Breaking Defense describes it,

“Our near-peers have sought to catch up with us,” said Fort Benning commander Maj. Gen. Eric Wesley, using Pentagon code for China and Russia. These sophisticated nation-states — and countries buying their hardware, like Iran — are developing so-called Anti-Access/Area Denial (A2/AD): layered defenses of long-range sensors and missiles to keep US airpower and ships at a distance (anti-access), plus anti-tank weapons, mines, and roadside bombs to decimate ground troops who get close (area denial).

The Army’s Maneuver Center of Excellence at Ft. Benning, Georgia is the proponent for development of a new lightly-armored, tracked vehicle mounting a 105mm or 120mm gun. According to the National Interest, the goal of the MPF program is

… to provide a company of vehicles—which the Army adamantly does not want to refer to as light tanks—to brigades from the 82nd Airborne Division or 10th Mountain Division that can provide heavy fire support to those infantry units. The new vehicle, which is scheduled to enter into full-scale engineering and manufacturing development in 2019—with fielding tentatively scheduled for around 2022—would be similar in concept to the M551 Sheridan light tank. The Sheridan used to be operated the Army’s airborne units unit until 1996, but was retired without replacement. (Emphasis added)

As Chris recently pointed out, General Dynamics Land Systems has developed a prototype it calls the Griffin. BAE Systems has also pitched its XM8 Armored Gun System, developed in the 1990s.

The development of a dedicated, direct fire support weapon for line infantry can be seen as something of an anachronism. During World War I, German infantrymen sought alternatives to relying on heavy artillery support that was under the control of higher headquarters and often slow or unresponsive to tactical situations on the battlefield. They developed an expedient called the “infantry gun” (Infanteriegeschütz) by stripping down captured Russian 76.2mm field guns for direct use against enemy infantry, fortifications, and machine guns. Other armies imitated the Germans, but between the wars, the German Army was only one to develop 75mm and 150mm wheeled guns of its own dedicated specifically to infantry combat support.

The Germans were also the first to develop versions mounted on tracked, armored chassis, called “assault guns” (Sturmgeschütz). During World War II, the Germans often pressed their lightly armored assault guns into duty as ersatz tanks to compensate for insufficient numbers of actual tanks. (The apparently irresistible lure to use anything that looks like a tank as a tank also afflicted the World War II U.S. tank destroyer as well, yielding results that dissatisfied all concerned.)

Other armies again copied the Germans during the war, but the assault gun concept was largely abandoned afterward. Both the U.S. and the Soviet Union developed vehicles intended to provide gunfire support for airborne infantry, but these were more aptly described as light tanks. The U.S. Army’s last light tank, the M551 Sheridan, was retired in 1996 and not replaced.

It appears that the development of new technology is leading the U.S. Army back to old ideas. Just don’t call them light tanks.

Are Long-Range Fires Changing The Character of Land Warfare?

Raytheon’s new Long-Range Precision Fires missile is deployed from a mobile launcher in this artist’s rendering. The new missile will allow the Army to fire two munitions from a single weapons pod, making it cost-effective and doubling the existing capacity. (Ratheon)
Raytheon’s new Long-Range Precision Fires missile is deployed from a mobile launcher in this artist’s rendering. The new missile will allow the Army to fire two munitions from a single weapons pod, making it cost-effective and doubling the existing capacity. (Ratheon)

Has U.S. land warfighting capability been compromised by advances by potential adversaries in long-range artillery capabilities? Michael Jacobson and Robert H. Scales argue that this is the case in an article on War on the Rocks.

While the U.S. Army has made major advances by incorporating precision into artillery, the ability and opportunity to employ precision are premised on a world of low-intensity conflict. In high-intensity conflict defined by combined-arms maneuver, the employment of artillery based on a precise point on the ground becomes a much more difficult proposition, especially when the enemy commands large formations of moving, armored vehicles, as Russia does. The U.S. joint force has recognized this dilemma and compensates for it by employing superior air forces and deep-strike fires. But Russia has undertaken a comprehensive upgrade of not just its military technology but its doctrine. We should not be surprised that Russia’s goal in this endeavor is to offset U.S. advantages in air superiority and double-down on its traditional advantages in artillery and rocket mass, range, and destructive power.

Jacobson and Scales provide a list of relatively quick fixes they assert would restore U.S. superiority in long-range fires: change policy on the use of cluster munitions; upgrade the U.S. self-propelled howitzer inventory from short-barreled 39 caliber guns to long-barreled 52 calibers and incorporate improved propellants and rocket assistance to double their existing range; reevaluate restrictions on the forthcoming Long Range Precision Fires rocket system in light of Russian attitudes toward the Intermediate Range Nuclear Forces treaty; and rebuild divisional and field artillery units atrophied by a decade of counterinsurgency warfare.

Their assessment echoes similar comments made earlier this year by Lieutenant General H. R. McMaster, director of the U.S. Army’s Capabilities Integration Center. Another option for countering enemy fire artillery capabilities, McMaster suggested, was the employment of “cross-domain fires.” As he explained, “When an Army fires unit arrives somewhere, it should be able to do surface-to-air, surface-to-surface, and shore-to-ship capabilities.

The notion of land-based fire elements engaging more than just other land or counter-air targets has given rise to a concept being called “multi-domain battle.” It’s proponents, Dr. Albert Palazzo of the Australian Army’s War Research Centre, and Lieutenant Colonel David P. McLain III, Chief, Integration and Operations Branch in the Joint and Army Concepts Division of the Army Capabilities Integration Center, argue (also at War on the Rocks) that

While Western forces have embraced jointness, traditional boundaries between land, sea, and air have still defined which service and which capability is tasked with a given mission. Multi-domain battle breaks down the traditional environmental boundaries between domains that have previously limited who does what where. The theater of operations, in this view, is a unitary whole. The most useful capability needs to get the mission no matter what domain it technically comes from. Newly emerging technologies will enable the land force to operate in ways that, in the past, have been limited by the boundaries of its domain. These technologies will give the land force the ability to dominate not just the land but also project power into and across the other domains.

Palazzo and McClain contend that future land warfare forces

…must be designed, equipped, and trained to gain and maintain advantage across all domains and to understand and respond to the requirements of the future operating environment… Multi-domain battle will create options and opportunities for the joint force, while imposing multiple dilemmas on the adversary. Through land-to-sea, land-to-air, land-to-land, land-to-space, and land-to-cyberspace fires and effects, land forces can deter, deny, and defeat the adversary. This will allow the joint commander to seize, retain, and exploit the initiative.

As an example of their concept, Palazzo and McClain cite a combined, joint operation from the Pacific Theater in World War II:

Just after dawn on September 4, 1943, Australian soldiers of the 9th Division came ashore near Lae, Papua in the Australian Army’s first major amphibious operation since Gallipoli. Supporting them were U.S. naval forces from VII Amphibious Force. The next day, the 503rd U.S. Parachute Regiment seized the airfield at Nadzab to the West of Lae, which allowed the follow-on landing of the 7th Australian Division.  The Japanese defenders offered some resistance on the land, token resistance in the air, and no resistance at sea. Terrain was the main obstacle to Lae’s capture.

From the beginning, the allied plan for Lae was a joint one. The allies were able to get their forces across the approaches to the enemy’s position, establish secure points of entry, build up strength, and defeat the enemy because they dominated the three domains of war relevant at the time — land, sea, and air.

The concept of multi-domain warfare seems like a logical conceptualization for integrating land-based weapons of increased range and effect into the sorts of near-term future conflicts envisioned by U.S. policy-makers and defense analysts. It comports fairly seamlessly with the precepts of the Third Offset Strategy.

However, as has been observed with the Third Offset Strategy, this raises questions about the role of long-range fires in conflicts that do not involve near-peer adversaries, such as counterinsurgencies. Is an emphasis on technological determinism reducing the capabilities of land combat units to just what they shoot? Is the ability to take and hold ground an anachronism in anti-access/area-denial environments? Do long-range fires obviate the relationship between fire and maneuver in modern combat tactics? If even infantry squads are equipped with stand-off weapons, what is the future of close quarters combat?

Yet Another Tank Comparison

The National Interest just posted up another tank comparison article comparing the Russian T-14 to the Japanese Type 10 to the U.S. M-1: Russia’s T-14 Armata tank vs Japan’s Type 10 and America’s M1

I have a few comments:

  1. First, they actually don’t really compare their potential combat performance relative to each other, it is just a discussion of the three tanks in one article. This could have easily have been three separate articles.
  2. Not sure these tanks will face each other in the near future:
    1. The Amata could face an M-1 if we supply them to Ukraine or Georgia and they clash with Russia. Right now, they do not have M-1’s.
      1. Ukraine is using T-64s, T-72s, T-80s and T-84s, all Soviet designs or Ukrainian updates to Soviet designs. Ukraine is exporting T-84s.
      2. Georgia is using T-72s modified with the help of Israel.
    2.  The Amata could face an M-1 if Russia intervenes somewhere else in the world (Russian intervention away from its border areas is fairly rare…..Syria not withstanding).
    3. There is armed conflict between NATO and Russia (not very likely).
    4. I do not think there are any plans to export Moscow’s latest high-tech tank.
    5. Amata could face a Type 10 if Russia conflicts with Japan (again, not very likely).
    6. If Japan sell its tanks to other nations (has never happened before) than then they could later conflict with Russia.
    7. The Type 10 and M-1 facing each other is very unlikely.
  3. The T-14 is going to be around for a while. There are only 100 Amata’s slated for production right now. In light of the economy, we shall see if they get around to manufacturing the other 2,200.
  4. It is interesting that both Russia and Japan went with lighter tanks. This trend is noted but not analyzed.
  5. Otherwise it is a decent article.
  6. Perhaps The National Interest should do an article comparing the T-14 to the T-72 and T-84. This is a more likely scenario (not sure if they follow this blog).

 

 

Japan’s Type 10 Tank

A brief description the Japanese Type 10 Tank: What makes Japan’s Type 10 tank so good

To date, I don’t think any of Japan’s post-WWII tanks have seen service outside of Japan. There is no real comparative analysis to other tanks here, except a general statement towards the end that its “advantages” over the M1 Abram and Leopard 2 are “relatively minimal.” This appears to be a classic case of Japanese understatement.

The Wikipedia description on the tank has an extended section labeled “concerns.” This is kind of unusual. For example, one states that: – Tank is claimed to “successfully downsized” from 50 tonnes to 44 tones from Type 90 with “modular armor” but how such a feat is achieved or whether the armor thickness or effectiveness is impacted or not is not mentioned.

Anyhow, Japan does maintain its independent armor design and manufacture capability, but this tank clearly does not have the armor protection of an M1 or Leopard 2.

Unmanned Ground Vehicles: Drones Are Not Just For Flying Anymore

The Remote Controlled Abrams Tank [Hammacher Schlemmer]
The Remote Controlled Abrams Tank [Hammacher Schlemmer]

Over at Defense One, Patrick Tucker reports that General Dynamics Land Systems has teamed up with Kairos Autonomi to develop kits that “can turn virtually anything with wheels or tracks into a remote-controlled car.” It is part of a business strategy “to meet the U.S. Army’s expanding demand for unmanned ground vehicles”

Kairos kits costing less than $30,000 each have been installed on disposable vehicles to create moving targets for shooting practice. According to a spokesman, General Dynamics has also adapted them to LAV-25 Light Armored Vehicles and M1126 Strykers.

Tucker quotes Lt. Gen. H.R. McMaster (who else?), director of the U.S. Army’s Capabilities Integration Center, as saying that,

[G]etting remotely piloted and unmanned fighting vehicles out into the field is “something we really want to move forward on. What we want to do is get that kind of capability into soldiers’ hands early so we can refine the tactics, techniques and procedures, and then also consider enemy countermeasures and then build into the design of units that are autonomy enabled, build in the counter to those counters.”

According to General Dynamics Land Systems, the capability to turn any vehicle into a drone would give the U.S. an advantage over Russia, which has signaled its intent to automate versions of its T-14 Armata tank.

Light Tanks

1e_253728_0_gicombat1

Well, we are back to looking at light tanks: Griffin light tank general dynamics

And also:  http://www.nextbigfuture.com/2016/10/m1-tank-120-mm-main-gun-placed-on-demo.html

We did do a report over a decade ago on lighter-weight armor at the request of the Deputy Undersecretary of the Army (Operations Research), Walt Hollis.

It is “MWA-2. The Historical Combat Effectiveness of Lighter-Weight Armored Forces, 6 August 2001 (CAA) – Pages: 121″ in our publication list: http://www.dupuyinstitute.org/tdipub3.htm

The pdf download file for it is here: http://www.dupuyinstitute.org/pdf/mwa-2lightarmor.pdf

Note that this report, which pre-dates our involvement in Afghanistan and Iraq, is discussing use of armor in Small Scale Contingency Operations (SSCO) and insurgencies, in addition to conventional wars.

This effort was not discussed in my upcoming book, War by Numbers. It may be picked up in a later book.