Note: This article first appeared in the Spring 2025 issue of Army Communicator.
In March of 2024, U.S. Army Forces Command (FORSCOM) Headquarters (HQ) tasked the 1st Infantry Division (1ID) Headquarters (HQ) to execute the Armored Formation Network On-The-Move (AFN-OTM) Pilot II with 1ID and 1st Brigade Combat Team, 1ID, at Fort Irwin, California, during the National Training Center (NTC) Rotations 25-03 and 25-04. The events that took place after this tasking culminated with the successful completion of 1ID HQ’s NTC Rotation 25-03 utilizing the AFN-OTM kit.
The Commanding General of 1ID, Major General (MG) Monté Rone, clearly articulated how integral the AFN-OTM equipment was to the success of Rotation 25-3: “AFN-OTM allowed the Big Red One (BRO) to fight dispersed, reduced our electromagnetic signature (EMS), and provided options to me as the commander that I previously would not have had in terms of how to echelon unit command posts, redundancy, and reduce transition time.” This equipment set, combined with the new AFN-OTM enabled redesign of the Division command post structure, has the potential to revolutionize the U.S. Army armor formations’ ability to conduct large scale combat operations (LSCO).
AFN-OTM’s cutting-edge technology possesses the ability to transform the way armor divisions operate by enabling distributed command and control at the tactical level. The successful integration of AFN-OTM during NTC Rotation 25-03 has far-reaching implications, aligning with the priorities of the Chief of Staff of the Army, the FORSCOM Commander, and 1ID’s Commanding General. This article will examine the significance of AFN-OTM in enabling distributed operations and how it supports the priorities of “continuous transformation, readiness, and continuous transformation to meet emerging threats.”
The Program Executive Office for Command, Control, Communications & Network (PEO-C3N) equipped several 1ID vehicles, mostly High Mobility Multipurpose Wheeled Vehicles and Joint Light Tactical Vehicles, with an upper tactical internet (UTI) suite of transport, a baseband kit, and the Unified Voice Management System (UVMS). Each vehicle’s UTI transport suite consists of a vehicle-mounted lower earth orbit (LEO) satellite communications (SATCOM) terminal, a “kick out” SATCOM terminal, a commercial cellular wireless router, two line-of-sight (LOS) radios and a bandwidth diversity solution, which automatically selects the best path of transport. Each vehicle’s UVMS system provides the ability to call secure voice over internet protocol (SvoIP) phones located in the DIV command and control (C2) nodes and very high frequency (VHF) over the soft channel access unit (CAU), from inside the vehicles while both OTM and at-the-quick-halt (ATQH). 1ID also received four variable height antenna (VHA) drones. The VHA drones came in both tethered and untethered configurations and extended the LOS signal path across vast distances to create a meshed network between AFN vehicles. Each vehicle is also equipped with a bandwidth diversity solution that uses the automatic primary, alternate, contingency, and emergency (au-to-PACE) functions to ensure communications are working close to 100 percent of the time. Having communication equipment with that type of resiliency is unheard of in 1ID’s current modified table of organization and equipment (MTOE) program of record for tactical network transport equipment.
The robust AFN-OTM UTI communications package enabled 1ID to become the first division-level rotation to complete an entire rotation without connecting to NTC’s fiber infrastructure; truly operating as a “Division in the Dirt.” 1ID’s LTC Marreo Burch (ACoS G6), LTC Aaron Adams (ACoS G3), and LTC Duane Clark (ACoS G5) created an effective plan to utilize the AFN-OTM trucks for maximum dispersion of the Division’s forward command posts (CP) – namely, the DIV Main and DIV tactical command post (TAC) - while simultaneously reducing the footprint of the DIV Main during the rotation. Four of the five DIV HQ AFN-OTM trucks accompanied a M1087 “expando truck” with an eight-port switch inside, which were allocated to specific DIV warfighting functions (WfFs)/sections (Intel/ Fires, Plans, DIV TAC) and the mobile command group (MCG). The fifth AFN truck supported the DIV G2’s analysis and control element (ACE), which had a massive bandwidth utilization requirement and was co-located with the rear CP at the Marine Corps Logistics Base (Yermo Annex). AFN-OTM’s capabilities also enabled 1ID to become the first unit to jump their Rear CP during a NTC rotation, while maintaining situational awareness of combat operations during the movement.
Each AFN-OTM truck/expando combo conducted geographically distributed operations throughout the entire rotation, mostly operating away from the DIV Main and DIV TAC. While dispersed, each AFN-OTM truck/expando combo remained directly tied to the division’s current operations on both UTI and Lower TI. The 1ID Network Operation functions allowed continued awareness of the common operating picture. What’s more, this equipment reduced the need for ancillary equipment such as static antenna masts, cable spools, or multiple generators normally required for dispersion. The ability to operate multiple distributed CPs created several dilemmas for NTC’s opposing forces (OPFOR) and presented opportunities for MG Monté Rone to successfully command the division from his MCG, while the DIV TAC or DIV Main simultaneously conducted multiple survivability moves throughout the rotation.
The AFN-OTM capabilities demonstrated during 1ID’s NTC rotation directly aligned with the guidance of U.S. Army senior leaders. The Chief of Staff of the Army, General Randy A. George, has emphasized the importance of “continuous transformation” as a top priority.(1) This initiative focuses on developing a more competent, cohesive, and adaptable Army, capable of operating in a rapidly changing environment. The integration of AFN-OTM during NTC Rotation 25-03 demonstrated a significant step toward achieving this goal.
Figure 1. 1LT Thomas J. Allen assigned as the battalion communications and network officer for the 6th Squadron, 8th Cavalry Regiment, 2nd Armored Brigade Combat Team, 3rd Infantry Division showcases his unit's On-The-Move prototype equipment. (U.S. Army photo by SGT Trento Lowery)
By providing real-time situational awareness and enabling seamless communication between units, the AFNOTM kit enhanced the effectiveness of command and control at the tactical level.(2) This, in turn, strengthens the profession by fostering a culture of innovation, adaptability, and decentralization, allowing junior leaders to make informed decisions and take initiative.(3)
The FORSCOM Commander’s priority of “readiness” was also directly supported by the integration of AFN-OTM during 1ID’s NTC rotation.(4) Readiness is critical in today’s operational environment, where the ability to respond quickly and effectively to emerging threats is paramount. AFN-OTM enhanced readiness by providing 1ID’s CPs, WfF and integrating cells Joint Air-Ground Integration Cell (JAGIC), ACE, Current Operations, and Plans the ability to operate in a distributed manner, leveraging advanced communication and networking capabilities to stay connected and informed.(5) The capability provided with this pilot allowed the DIV’s Chief of Operations (CHOPS) and all subordinate units to use a “Strike Net” tactics, techniques, and procedures (TTPs) on a commercial collaboration service. This enabled units to respond rapidly to changing situations, making them more effective and efficient in their operations. Furthermore, the real-time situational awareness provided by AFN-OTM allowed units to anticipate and prepare for potential threats, reducing the risk of surprise and increasing overall readiness.(6)
MG Monté Rone’s priority “continuous transformation to meet emerging threats” was also closely aligned with the integration of AFN-OTM during this NTC rotation.(7) The Division’s focus on continuous transformation recognizes the rapidly evolving nature of modern warfare, where new technologies and tactics are constantly emerging. AFNOTM was a key enabler of this transformation, providing units with the ability to adapt and innovate in response to changing circumstances encountered during NTC Rotation 25-03. By leveraging advanced networking and communication capabilities, units can quickly integrate new technologies and capabilities, staying ahead of emerging threats and maintaining a competitive edge.(8)
In conclusion, the integration of AFNOTM vehicles and its associated equipment during NTC Rotation 25-03 marked a significant milestone in the development of distributed command and control capabilities at the tactical level. This new equipment set removes the limitation that organic MTOE equipment emplaced on bandwidth intensive WfF tools and Mission Command Information Systems, fully realizing their capability in training and operations. This rotation also demonstrated the potential of this technology to transform the way armored divisions operate in LSCO. By providing re-al-time situational awareness with nearly 100 percent uptime, enabling seamless communication between units, AFN-OTM supports U.S Army senior leaders’ priorities of “strengthening the profession,” “readiness,” and “continuous transformation to meet emerging threats.” As the Army continues to evolve and adapt to emerging challenges, the integration of AFNOTM will play a critical role in enabling distributed operations and maintaining a competitive edge in LSCO.
Lieutenant Colonel Marreo Burch currently serves as the Assistant Chief of Staff (ACoS), G6, 1st Infantry Division, Fort Riley, Kansas, following assignments as Executive Officer at Arlington National Cemetery, Commander of Deployable Communications Module-Charlie, 2nd NATO Signal Battalion in Grazzanise, Italy, Executive Officer of the 442d Signal Battalion at Fort Eisenhower, and Battalion Operations Officer (S3) for the 54th Signal Battalion in Camp Arifjan, Kuwait. LTC Burch’s military education includes the Field Artillery Officer Basic Course, Signal Captain’s Career Course, Resident Command and General Staff College, and the Pre-Command Course, and LTC Burch holds a Bachelor of Arts in Computer Science from Winston-Salem State University and a Master of Science in Leadership from Trident University International, with recognition for his service including the Bronze Star Medal, Defense Meritorious Service Medal, and five Meritorious Service Medals.
Major Adam Joseph Black currently serves as the Aide-De-Camp to the TRADOC Deputy Commanding General / CIMT Commanding General at Fort Eustis, Virginia. Previously, MAJ Black served as the Deputy G6 for the 1st Infantry Division and as the Brigade S6 for the 2nd Armored Brigade Combat Team, both at Fort Riley, Kansas. Major Black is a graduate of the Signal Officer Basic and Captains Career Courses, as well as the Command and General Staff College, and holds degrees in Computer Science, Business Administration, and Operational Studies. MAJ Black has been awarded the Bronze Order of Mercury, the Defense Meritorious Service Medal, and the Meritorious Service Medal.
Chief Warrant Officer 2 Justin Carrier is the Senior Network Operations Warrant Officer for the 1st Infantry Division at Fort Riley, Kansas. A highly certified network professional (CCNP, CySA+, Security+, ITILv4), CW2 Carrier previously served in network operations roles within the 2nd Armored Brigade Combat Team and 1st Sustainment Brigade at Fort Riley, as well as with Joint Special Operations Command and the 4th Psychological Operations Group at Fort Bragg. CW2 Carrier holds degrees in Signal System Support and Information Technology Management, and completed training at Fort Gordon and Fort Benning. CW2 Carrier is a recipient of the Joint Service Commendation Medal and multiple Army Commendation and Achievement Medals.
NOTES
1. R. A. George, “Army Chief of Staff Outlines Service Priorities at AUSA,” U.S. Army, 2023, https://www.army.mil/.
2. U.S. Army Training and Doctrine Command (TRADOC), The Army Operating Concept: Win in a Complex World (Fort Eustis, VA: TRADOC, 2020), https://www. tradoc.army.mil/.
3.Krepinevich, A. F. (2019). The Future of Land Warfare. Center for Strategic and Budgetary Assessments. Retrieved from https://www.csbaonline.org/
4.FORSCOM. (2020). Readiness. Retrieved from https://www.forscom.army. mil/
5.Congressional Budget Office (CBO), The Army’s Network Modernization Strategy (Washington, DC: CBO, 2019), https:// www.cbo.gov/.
6.Joint Chiefs of Staff, Joint Publication 3-31: Command and Control for Joint Land Operations (Washington, DC: JCS, 2019), https://www.jcs.mil/.
7.1st Infantry Division, Continuous Transformation to Meet Emerging Threats (Fort Riley, KS: 1st Infantry Division, 2024), https://www.1id.army.mil/.
8.David C. Gompert, The Future of Warfare (Santa Monica, CA: RAND Corporation, 2019), https://www.rand.org/.
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