Russian Military Working To Respond to U.S. “Multi-Domain Operations”

By Dr Charles Bartles

02/28/2024|OE Watch, Product

“The main difficulty in conducting defense in the context of the enemy’s implementation of the “multi-domain battle” concept is that units, occupying strong points, positions and areas, are not able to quickly and effectively respond to enemy actions, especially when changing the direction of action and carrying out flanking maneuvers.”

Russia is working to understand the U.S. Army’s “multi-domain operations” (MDO) concept,[i] Which can roughly be described as the coordinated employment of the domains of war (land, air, sea, space, cyber, etc.) to achieve an operational-level objective. The accompanying excerpted article from the monthly Russian military periodical, Armeisky Sbornik, discusses the Russian Armed Forces’ understanding of the U.S. MDO concept, the potential effects of MDO if employed against the Russian Ground Forces, and what course of action a Russian Battalion Tactical Group (BTG) should execute to best overcome it.[ii] The authors believe that a successful first strike on a Russian BTG by a U.S. Army MDO Brigade could be decisive due to the attrition of the BTG’s command and control and combat capabilities. The authors posit that the best defense for a BTG against an attacking MDO Brigade is the use of positional defense (as opposed to maneuver defense), and a preemptive attack. To achieve this, up to one-third of the combined arms subunits in the BTG should act as flanking or raiding detachments and conduct preemptive actions to hinder the enemy. These actions might include defeating artillery, air defense systems, and command posts, and disrupting command and control and logistics, thereby disrupting the MDO Brigade’s ability to conduct a decisive counter-attack. It is important to note that the authors, and many other Russian commentators, see the so-called “Special Military Operation” in Ukraine as not only a testing ground for new Russian military technologies and tactics, but also as a testing ground for new U.S./NATO technologies and tactics by way of Ukrainian proxies. As such, this article will likely be the first of many analyses discussing the best ways for the Russian Armed Forces to counter U.S. military technology and tactics based on the lessons from the Russian invasion of Ukraine.

Sources:

R. Shaykhutdinov, I. Starodubtsev, “Оборона батальонной тактической группы в условиях «многосферного сражения» (The conduct of a defense by a battalion tactical group under conditions of «multi-domain battle»),” Armeisky Sbornik (monthly Russian military periodical), October 2023. https://army.ric.mil.ru/Stati/item/521356/

Against the background of strengthening the military power of Russia and China, the United States began to develop new approaches that would ensure the superiority of its troops in military conflicts with an enemy of comparable combat capabilities. The basic principles and procedures for conducting combat operations as part of interservice and coalition groupings of troops in various operational environments at the strategic, operational and tactical levels were formulated…

Military experts F.I. Ladygin, S.V. Afanasyev and A.V. Khomutov argue that such a model provides for the creation in the US ground forces of “a new type of formations deployed in advance in forward areas – “ multi-domain brigade tactical groups”, which will be able to operate in all environments, in isolation from the main grouping of troops, in conditions of constant contact with the enemy to identify his vulnerabilities and ensure the involvement of the main forces in them”…

The main difficulty in conducting defense in the context of the enemy’s implementation of the “multi-domain battle” concept is that units, occupying strong points, positions and areas, are not able to quickly and effectively respond to enemy actions, especially when changing the direction of action and carrying out flanking maneuvers. Also significant is the inevitable disunity of battalion defensive strong points during defense — when on a wide front these strong points cannot provide mutual fire support to one another, which can allow the enemy to employ flanking and raid actions to infiltrate the battalion’s combat formation….

The analysis of the views of the US and NATO command on the offensive and the experience of conducting a special military operation in Ukraine raises the need to search for new ways of conducting combat actions at the tactical level. The enemy’s use of modern weapons supplied by the united West, especially during shelling of Donetsk, Lugansk and other liberated areas, requires improved methods of action of combined arms formations when defeating the enemy.

The extreme saturation of modern armies with guided anti-tank weapons, air defense and missile defense systems has sharply increased the importance of the positional defense. The combat formation of a battalion tactical group in positional defense is built primarily in one echelon and includes: the first echelon, combined arms reserve, artillery units, air defense units, anti-tank reserve, as well as regular and attached units and fire assets that remain directly subordinate to the commander of the battalion tactical group…

An analysis of the possible distribution of forces and means of a battalion tactical group shows that with a “typical distribution” of forces and means of a battalion, taking into account the fact that before an attack the enemy will inevitably lay indirect and direct fires, shows that most of the fire will fall on strong points of the first echelon companies (on 50–60% of the battalion’s forces). Losses of the battalion tactical group can reach up to 70%. Consequently, the existing methods of conducting the defense of a battalion tactical group raise questions regarding the capabilities of successfully completing a combat mission. To increase the effectiveness of the defense of a battalion tactical group, it must conduct “preemptive actions”.

The method is based on active use of offensive actions when conducting defense, going beyond the front line. At the same time, up to 1/3 of combined arms subunits, acting as flanking and raiding detachments, carry out preemptive actions against the enemy, such as defeating artillery, air defense systems, command posts, and disrupting command and control and logistics.The essence of preemptive attack is to defeat enemy targets by flanking and raid groups of combat vehicles operating forward of the front line of defense in order to prevent further enemy offensive actions…

Notes:

[i] “The U.S. Army in Multi-Domain Operations 2028 concept proposes a series of solutions to solve the problem of layered standoff. The central idea in solving this problem is the rapid and continuous integration of all domains of warfare to deter and prevail as we compete short of armed conflict. If deterrence fails, Army formations, operating as part of the Joint Force, penetrate and dis-integrate enemy anti-access and area denial systems; exploit the resulting freedom of maneuver to defeat enemy systems, formations and objectives and to achieve our own strategic objectives; and consolidate gains to force a return to competition on terms more favorable to the U.S., our allies and partners.” TRADOC Pamphlet 525-3-1, The U.S. Army in Multi-Domain Operations – 2028 (Fort Eustis, VA: TRADOC, 2018), iii. https://adminpubs.tradoc.army.mil/pamphlets/TP525-3-1.pdf

[ii] For an in-depth analysis of the Russian Battalion Tactical Group (BTG), see: Lester W. Grau and Charles K. Bartles, “Getting to Know the Russian Battalion Tactical Group,” Royal United Service Institute, 14 April 2022. https://www.rusi.org/explore-our-research/publications/commentary/getting-know-russian-battalion-tactical-group

Distribution A: Approved for public release

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Finch 01 President Putin and Chief of General Staff Gerasimov Vostok 2022

Russia Claims Victory in Vostok 2022 Exercise

President Putin and Chief of General Staff Gerasimov, Vostok 2022, 6 September 2022.

One of Russia’s large-scale, annual military exercises, Vostok-2022, took place from 1-7 September. As with such exercises, it was widely covered in the Russian media, and as the brief excerpt from the Ministry of Defense’s TV Zvezda news network indicates, Russian forces again proved victorious. The article also stresses that Russia has not been isolated by its aggression against Ukraine, pointing out that 10 countries participated: Algeria, Armenia, Azerbaijan, Belarus, China, India, Kyrgyzstan, Mongolia, and Tajikistan. The article says that President Putin arrived at the Sergeevsky training ground to watch the final part of the exercises from a specially equipped command post. He watched his soldiers taking lines, liberating settlements, and forcing enemy retreats.

Sources:

Maxim Petrenko, Sergey Lebedev, “Враг уничтожен: как прошли учения Восток-2022»на полигоне Сергеевский (The enemy is destroyed: how did the exercises Vostok-2022 at the Sergeevsky training ground),” TV Zvezda (Ministry of Defense news network), 6 September 2022. https://tvzvezda.ru/news/2022961429-48GVw.html

Vladimir Putin watched the maneuvers from a specially equipped command post. From there, he fully assessed the operational situation. Real-time data came even from the distant borders of the huge test site. All thanks to cameras installed in the fields with 32x magnification.

At the same time, the Chief of the General Staff had a connection with all the commanders-in-chief. The most up-to-date information was received from the training ground to the Supreme Commander-in-Chief, the technical characteristics of the weapons used were shown on the screen.

According to the legend of the exercises, the mock enemy “Vostochnye” attacked the “Northern” and their allies, wedging 200 kilometers into the depth of defense. The enemy was stopped, suffered losses, but retained reserves. From this point, the action begins to unfold - a grouping of troops, supported by artillery and tactical landing forces, hitting the enemy, taking lines and liberating settlements. Massed strikes by rocket troops and artillery, breaking the enemy’s reserves as well, are forcing the enemy to retreat.

A special feature of Vostok this year is the creation ofa coalition grouping of the armed forces of ten countries - Russia, Azerbaijan, Algeria, Armenia, Belarus, India, Kyrgyzstan, China, Mongolia, Tajikistan. Operational groups of the defense departments of Kazakhstan, Laos, Nicaragua and Syria were also involved….…The participants of the maneuvers noted that all the goals of the exercises were fulfilled. The issues of ensuring military security in the Eastern Region have been worked out.

Image Information:

Image: President Putin and Chief of General Staff Gerasimov, Vostok 2022, 6 September 2022.
Source: http://en.kremlin.ru/events/president/news/69288
Attribution: CCA CA 4.0 Intl

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Russian Navy Weaponizes Shipping Containers

Shipping Containers.

For the defense of Russian combat and auxiliary ships, an electronic warfare (EW) system is being developed. The EW system will be placed in ordinary 40-foot shipping containers.

The accompanying excerpted article from pro-Kremlin daily newspaper Izvestiya describes Russian efforts to place electronic warfare systems in standard 40-foot shipping containers. The Russian Navy is also experimenting with other shipping container-based weapon systems involving air defense, anti-ship, and surface and underwater unmanned reconnaissance capabilities. These shipping container-based weapon systems are not only intended to augment the capabilities of the Russian Navy’s ships, but also auxiliary ships (tugboats, transports, fuelers, etc.) that support the Russian Navy, and commercial ships if necessary. Shipping container-based weapon systems are likely to become more important to the Russian Navy as it transitions from larger ships, such as cruisers and destroyers, which have many capabilities to smaller ships, such as frigates and corvettes, with fewer capabilities. These shipping container-based weapon systems will permit these small vessels to expediently and cheaply add capabilities as required.

Source:

Roman Kretsul, “Шумящий патруль: российские корабли защитят

системы радиоэлектронной борьбы (The ‘noisy’ patrol: Russian ships will be protected by electronic warfare systems),” Izvestiya (pro-Kremlin daily newspaper), 8 September 2022. https://iz.ru/1392104/roman-kretcul/shumiashchii-patrul-rossiiskie-korabli-zashchitiat-sistemy-radioelektronnoi-borby

For the defense of Russian combat and auxiliary ships, an electronic warfare (EW) system is being developed. The EW system will be placed in ordinary 40-foot shipping containers. Thanks to this, the system can be easily installed on the decks of ships and vessels. Such protective "boxes" should reliably protect ships and vessels from enemy missiles and drones by way of electromagnetic interference. According to experts, as a result, this decision will significantly strengthen the protection of the country's coastal regions.

The Project 22160 ‘Vasily Bykov’ patrol ships will be the first to receive this electronic warfare systems. In the future, auxiliary vessels of the Russian fleet - tugboats, transports and others – could also acquire it…Initially, a weaker electronic warfare system was installed on Project 22160 ships, military historian Dmitry Boltenkov told Izvestia.“Apparently, they created a more powerful solution, of operational or strategic designation. Containers allow you to put the system on different ships,” the expert explained. “If necessary, it will be possible to build up the electronic warfare system of ship groups. They will be able to enter a given area and, in fact, completely “turn it off”. First, they will suppress drone control channels and communication systems. It will no longer be necessary to drive an electronic warfare vehicle onto a landing ship, instead they will simply put a container.

The Navy is also actively testing new container modules — with weapons and with various auxiliary equipment —including the Redut and Pantsir-M air defense systems, container modules with anti-submarine equipment, and container modules with cruise missiles. In particular, the Kalibr-NK cruise missiles. But the main possibility is that they can be adapted for the employment of underwater and surface unmanned vehicles of all types. This provides a reconnaissance capability over hundreds of kilometers…

Image Information:

Image: Shipping Containers
Source: https://commons.wikimedia.org/wiki/File:Container_%E3%80%90_2205_%E3%80%91_SAKC_000411(0)---No,1_%E3%80%90_Container_pictures_taken_in_Japan_%E3%80%91.jpg
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Wood 01 Drift ice camp in the middle of the Arctic Ocean as seen from the deck of icebreaker Xue Long

China Developing Improved Equipment for Deep Sea, Polar Exploration

Drift ice camp in the middle of the Arctic Ocean as seen from the deck of icebreaker Xue Long.

“The Xuelong 2 is like a mobile laboratory at sea, sailing into many areas that were inaccessible in the past.”

China regards deep-sea[i] areas and polar regions as critical to its future development due to their abundant resources. President Xi Jinping even included them in his Holistic National Security Concept, which lays out domains that he regards as critical to China’s development and national security.[ii] However, both deep-sea exploration and polar regions pose significant technical challenges due to the extreme pressure or weather conditions encountered. As the following excerpts explain, China has made significant progress in overcoming these challenges.

The first excerpted article, from an early March 2023 edition of the official newspaper of China’s Ministry of Science & Technology, examines some of the equipment China has completed or is developing to explore deep sea and polar regions as part of its efforts to become a powerful maritime country. The article focuses on two technologies: icebreakers and deep-sea drilling rigs. The Xue Long 1 [GRLCUT(1] and Xue Long 2 [GRLCUT(2] icebreakers, originally based on a Ukrainian design, have improved China’s ability to explore polar regions. The article cites an acoustic engineer with experience studying polar environments, who highlighted how the Xuelong 2 had opened many previously inaccessible areas to exploration.

The latter half of the article focuses on deep sea drilling, noting the advances made with the “Manatee II” deep sea drilling rig, which is reportedly capable of operating at depths of 2,000 m or more and has set world records by drilling over 200 m into the ocean floor. A major priority for exploitation by this and future rigs is “combustible ice,” a mixture of frozen water and natural gas present on the sea floor in the deep sea. According to the article, the Manatee II has carried out exploration missions searching for combustible ice in many areas surrounding China, as well as for traditional offshore oil and gas deposits. Due to the experience from operating the Manatee, China has improved its technologies in this niche but important area, and the first of China’s next generation of deep-sea drilling ships is expected to be completed in 2024.[iii] It will reportedly be capable of drilling in waters deeper than 10,000 m.[iv] The minerals and natural gas potentially recoverable by these drills could create an economic bonanza and help China offset its reliance on imported energy. The second article is based on an interview with Sun Bo, Party Secretary of the China Polar Research Center Polar Research Institute of China, which is part of China’s Ministry of Natural Resources. Sun Bo noted how vital China’s second icebreaker, the Xuelong 2, completed in 2019,[v] has been for China’s polar exploration efforts, highlighting that having two icebreakers now allows China to effectively support research teams at both poles at the same time. While these articles underscore how China has clearly made important strides in overcoming technical bottlenecks, it might now face legal ones. The UN recently concluded negotiations about exploiting biological and mineral resources on the high seas, which might constrain China’s activities in polar and deep-sea regions.[vi]

Sources:

He Liang [何亮], “科技扬帆，引领海洋探索挺进深蓝” (Science and Technology Set Sail, Setting a Course for Ocean Exploration into the Deepest Blue Sea), Science & Technology Daily [科技日报] (Official newspaper of PRC Ministry of Science & Technology [MOST]), 6 March 2023. http://digitalpaper.stdaily.com/http_
www.kjrb.com/kjrb/html/2023-03/06/content_550015.htm?div=0

Accelerating [China’s] development into a maritime great power and making good use of marine resources is not possible the important support of science and technology. To protect the marine ecological environment, it is necessary to strengthen basic research and fully understand the ocean’s riches; to develop marine resources, it is necessary to address the urgent requirements of improving development of technologies and equipment of scientific research for technology and equipment, and concentrate efforts to develop more “national strategic weapons.”[i]

“With the help of more and more advanced equipment, China’s polar scientific research has maritime, land and aerial capabilities.” Yin Jingwei [殷敬伟], vice president of Harbin Engineering University[ii], has long been engaged in research on polar acoustic technology….According to Yin [Xuelong 2’s] superior ice-breaking capabilities allow more scientific research facilities and supplies to be transported into the Antarctic regions. “It is like a mobile laboratory at sea, sailing into many areas that were inaccessible in the past.”

As of September 28, 2021, China has completed 12 Arctic expeditions. However, China is not an Arctic nation, and its deep-sea and polar-related research work started relatively late compared to other countries, and its support capabilities have also been limited to a certain extent. There are still many weak links and capabilities in the fields of polar science and technology research, polar equipment development, and deep-sea polar exploration. missing.

Yin Jingwei told the Science and Technology Daily reporter of that China does not yet have nuclear-powered icebreakers and underwater equipment capable of breaking ice in the polar regions, and the ability to collect maritime below the ice is also very weak. Additional efforts are needed to overcome technological and environmental hurdles to move forward.

“深耕新疆域，推动极地科考再上新台阶——海洋领域专家谈建设海洋强国” (Exploring New Frontiers and Taking Polar Scientific Research to a New Level—Maritime Experts Discuss Building a Maritime Great Power), Science & Technology Daily [科技日报] (Official newspaper of PRC Ministry of Science & Technology [MOST]), 19 January 2023 http://digitalpaper.stdaily.com/http_
www.kjrb.com/kjrb/html/2023-01/19/content_547740.htm?div=0In today’s world polar regions have become a “new frontier” for development and a focal point for global governance, a new high ground for technological competition, an area with new sea routes and a new source of resources. The China Polar Research Center of the Ministry of Natural Resources adheres to the principle of “understanding, protecting, and using” these regions proposed by General Secretary Xi Jinping, and is committed to providing support for China’s polar scientific research. China continues to improve its independent innovation capabilities and overall there is momentum to continue improvements. The China Polar Research Center independently built the “Xuelong 2” icebreaker with, filling a major gap in China’s capabilities required for polar scientific research and developed a way to use both the Xuelong and Xuelong two effectively in concert. This new pattern of “Double Xuelong” Polar exploration (one assigned to each polar region) has greatly improved the on-site support capabilities for China’s polar scientific investigations.

Notes:

[i] Deep-sea areas are typically defined as those below 200 meters. According to the US National Oceanic and Atmospheric Administration, 80 percent of the Earth’s ocean floor remains unmapped and unexplored. “How much of the ocean have we explored?,” NOAA [Accessed March 2023]. https://oceanservice.noaa.gov/facts/exploration.html

[ii] See: Peter Wood, “China’s Holistic Security Concept Explained,” OE Watch, 07-2018. https://community.apan.org/wg/tradoc-g2/fmso/m/oe-watch-articles-singular-format/275650

[iii] The ship was developed by China State Shipbuilding Corporation’s (CSSC) 708 Research Institute and is subordinate to the China Geological Survey Bureau. The bureau also operates ships involved in mapping the seafloor in potential sensitive areas, which has drawn the alarm of nearby nations. See for example, Naoki Inoue, Tsukasa Hadano and Jun Endo, “Chinese survey ships straying into other nation’s EEZs, data shows”, Nikkei, 31 January 2021. https://asia.nikkei.com/Politics/International-relations/South-China-Sea/Chinese-survey-ships-straying-into-other-nations-EEZs-data-shows

[iv] “China’s first ultra-deepwater scientific research drilling ship achieved main hull penetration today” [我国首艘超深水科考钻探船今日实现主船体贯通], China Mining News [中国矿业报 ], 18 December 2022. https://www.cgs.gov.cn/xwl/ddyw/202212/t20221218_720062.html

[v] See: Les Grau, “China Developing More High Latitude Equipment”, OE Watch, 11-2019. https://community.apan.org/wg/tradoc-g2/fmso/m/oe-watch-articles-2-singular-format/337636

[vi] “UN delegates reach historic agreement on protecting marine biodiversity in international waters,” United Nations, 5 March 2023. https://news.un.org/en/story/2023/03/1134157

Notes:

[i] This phrase, 国之重器, is frequently used to describe strategically impactful or game-changing weapons systems (ballistic missile submarines, aircraft carriers etc.,) and civilian technologies such as nuclear reactors.

[ii] Harbin Engineering University is one of the “Seven Sons of National Defense,” which are universities that work closely with the Chinese People’s Liberation Army.

Image Information:

Image: Drift ice camp in the middle of the Arctic Ocean as seen from the deck of icebreaker Xue Long.
Source: https://upload.wikimedia.org/wikipedia/commons/8/8d/Teadlased_j%C3%A4%C3%A4l.jpg
Attribution: Timo Palo, CC BY-SA 3.0

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