Mobile warfare on a global scale eliminates our ability to effectively maintain warehouses and ground transportation networks in forward areas. We no longer have the luxury of clearly defined battlespaces and theaters within to operate. We must possess the ability to know what our field units need and get those materials to the field as rapidly and efficiently as possible. In the proposed group structure, supply and transportation are best provided with an emphasis on three primary areas:

Ground ambulatory systems will be referred to in this document as MEV. For groups comprised of tracked armored vehicles, the MEV will be a modernized M113 Gavin featuring hybrid power train, band tracks for improved ride, and the medical systems included in the current AMEV. For lighter units, the MEV will be a hybrid powered M997 ambulance with remaining systems as currently configured.

PETTS is a set of mobile monitoring systems to assist medical personnel in diagnosis and treatment of casualties. All major casualties will be assigned a PETTS that will remain with the patient throughout the medical treatment cycle. Two PETTS should be carried in every MEV from support battalion up. Set should include a portable ultrasound unit, handheld pulse oximeter, and a portable monitor/defibrillator with blood pressure monitor (See Appendix I).

A system of tents and shelters used to assemble deployable support facilities. The basic TSM consists of an airframe tent 60’ wide by 100’ long with interfaces to support as many as five 40’ shelters, ten 20’ shelters, or combinations thereof. See Appendix I for proposed shelter configurations.

The existing training regimen for MOS 18D should be divided into two parts with the portions emphasizing resuscitive and stabilitive care being placed within a new ASI program. Training should include basic surgical skills for treating combat trauma. Completion of ASI will be a prerequisite for Special Forces Medical candidates while the training will also be open to all qualified combat medics. Objective force should include one M1-qualified medic per MEV team.

Proposed force changes include a merging of the existing classes of supply into a system of three tiers. A distribution network will be established within all areas of operations to provide for resupply of all classes of materials in the early phases of operations. Static warehousing is not compatible with mobile operations; therefore supply operations will depend on this distribution network. A quantity of medical supplies will be kept on-hand during operations while resupply for all units, including medical units, will come through the distribution network by truck, helicopter, and air drop dependent upon the tactical situation.

Existing medical operations will remain unchanged at the battalion level and lower. Quantities of personnel and equipment are assumed to be effective and will remain as currently assigned. The primary role of medical personnel at this level is the collection and removal of casualties from the combat area to a collection point.

To accommodate variability in unit size and operations, existing medical companies will be reconstructed to a more modular and mobile design. As the intended combat groups are to be capable of being subdivided to the battalion battlegroup level, the medical unit is structured to support specific battalions. The medical company will include a small headquarters section to manage and support the operations of the company as well as a support platoon for providing medical services to the supporting elements of the combat group, including strike, recon, and aviation elements. A platoon will also be included in the company for each maneuver element of the group so that a combat group with four maneuver elements will have four maneuver platoons within the medical company. A group with three maneuver elements would therefore only have three maneuver platoons in the medical company. Maneuver platoons will consist of one treatment squad, two ambulance squads, and one support squad. Support platoons will include two treatment squads, one ambulance squad, and one support squad.

The treatment squad includes the platoon leadership of one M.D. as well as one P.A. Unit has the capacity to transport up to 40 patients in a mobile environment. Squad equipment includes one HMMWV for general transportation needs, two MEV with complete ambulance crews including one medic per team with ASI M1, and two MTV-LHS with trailers. Trailers carry DEPMEDS-T units while vehicles carry cargo beds with troops seats for mobile patient holding.

The ambulance squad consists of three MEV with ambulance teams as well as a HMMWV cargo vehicle for supplies and coordination.

The medical support squad provides supply, maintenance, and lab support to the various medical teams. Equipment includes a mobile warehouse of DEPMEDS-E and DEPMEDS-R on an MTV-LHS as well as four cargo HMMWV. Additional teams include one supply team, one maintenance team, one preventive medicine team, and one lab support team.

The headquarters section includes personnel for coordinating support of the unit with other elements of the Group Support Battalion. Section includes a two-person maintenance support team, a two-person supply support team, a two-person personnel support team, unit First Sergeant, Company commander, and unit Training/NBC NCO. Section includes three HMMWV (two four seat) along with two trailers.

The Early Deploying Support Group (EDSG) will include a forward major medical capability for the initial phases of operations. While the medical company of the GSB is capable of interfacing with higher echelon support elements, the EDSG is capable of providing complete care up to short-term hospitalization as well as interfacing the combat force with all support echelons to include joint and civilian forces. The EDSG also features enhanced laboratory and ambulance capabilities to augment the resources of the assembled combat force. The EDSG is also inherently capable of providing integration of medical services for larger sets of deployed groups.

Each EDSG will feature two MEDEVAC companies, one Heavy and one Light. The primary purpose of the MEDEVAC Company is to expand on the capabilities of the medical resources of the GSB with a greater quantity and quality of available resources. Each MEDEVAC Company will have one platoon of trauma surgical teams and three platoons of medical evacuation resources. Evacuation resources will be used for both augmentations of GSB medical assets as well as to transfer patients to higher echelon support resources. Each MEDEVAC Company will possess a DEPMEDS-OR for surgical services, but use of this system is dependent on the unit configuration and tasking. A secondary capability of the MEDEVAC Company is to merge with a Medical Support Company to form a small field hospital.

The headquarters section includes personnel for coordinating support of the unit. Section includes a two-person maintenance support team, a two-person supply support team, a two-person personnel support team, unit First Sergeant, Company commander, and unit Training/NBC NCO. Section includes three HMMWV (two four seat) along with two trailers. Four surgical teams are also members of this platoon, including one surgeon, two supporting nurses, one anesthesiologist, one operating room specialist, and one respiratory specialist for each team. Each surgical team is transported in two HMMWV while the team will usually be operating within a DEPMEDS-OR unit.

The Tactical Evacuation platoon consists of ambulance teams equipped to operate in high threat or complex tactical environments. Light MEDEVAC platoons will consist of four UH-60Q air ambulances and their relevant supporting systems. Heavy MEDEVAC platoons will feature eight MEV. Each MEDEVAC ambulance in the EDSG will be equipped with a quantity of PETTS equal to the quantity of casualties transportable by the system. Supporting elements will include two maintenance teams per platoon for maintaining medical, automotive, and aviation systems, as well as two supply teams. Maintenance teams are equipped with CMT-H specialized for the systems of the platoon. Supply teams possess one MTV-LHS with trailer and one HMMWV.

The General Evacuation platoon is for lower threat and simplistic scenarios where ambulatory services are required. Platoon features eight HMMWV MEV with support coming from attached supporting units.

The Medical Support Company provides the personnel and resources necessary to convert the MEDEVAC Company from a mobile field trauma unit into a garrison, quasi-hospital configuration. Where the MEDEVAC Company possesses the mobile operating room, the Medical Support Company provides the TSM tent structure as well as one DEPMEDS-P for surgical preparation and radiology services, one DEPMEDS-IC for post-operative critical care, and one DEPMEDS-L for level III+ laboratory support. An additional shelter will also be available to house unit personnel when other arrangements are not feasible or for including food services within the module (see Appendix I).

The Nursing Support platoons are available to provide pre- and post- operative care of casualties as well as to maintain patient holding areas. These platoons are also responsible for assisting MEDEVAC Company in their respective taskings. Platoon equipment includes two MTV with MHE crane for assembling TSM and handling bulk supplies in addition to providing general transportation for unit personnel. Unit equipment is pre-packaged with TSM modules including beds, screens, and miscellaneous medical materials in two 40’ containers of the TSM package. Platoon also issued two HMMWV (4-seat) for additional personnel transportation.

The Laboratory Support Platoon provides a full service laboratory capability to the EDSG. Unit personnel will include specialists in dealing with NBC materials as well as the latest testing equipment to identify pathogens of all types (one squad). Platoon will also possess the materials and personnel necessary for operating a blood bank as well as for providing general laboratory services (two squads). One squad will also specialize in radiology services including computed tomography, magnetic resonance imaging, and radiography. Platoon will possess four HMMWV for personnel mobility but all operational capability and equipment will reside in the unit’s DEPMEDS facilities.

The Preventive Medicine Platoon will include the equivalent of three existing Preventive Medicine detachments in terms of personnel and equipment. The platoon will be equipped with existing mobile laboratory systems and eight HMMWV for mobility.

The purpose of the Medical Treatment Company is to provide a more comprehensive and capable medical unit in the forward area. The MTC is capable of operating in a mobile of static configuration. Each MTC will possess its own TSM for treatment purposes, but the shelters employed in the TSM will be smaller modules designed to operate in mobile configurations as well.

The HQ Triage Platoon includes the same organizational HQ section as the MEDEVAC companies. In place of surgical teams, this platoon will feature specialized teams in the areas of Cardiology, Pulmonology, Neurology, Obstetrics, ENT, and Orthopedics. Each team will feature one M.D., one P.A., two nurses, and one ambulance team of two medics. Team equipment includes one MTV-LHS with DEPMEDS-T on trailer, one wheeled MEV, and one HMMWV.

The General Treatment Platoon consists of patient holding capability, medic/nursing staff, physical therapy, and pharmacy sections. Each platoon will have one MTV-LHS with DEPMEDS-T on trailer, one HMMWV with shelter for pharmacy operations, one MTV for unit mobility, and two wheeled MEV. Two additional HMMWV will be included with the unit for operational functions.

The Dental and Mental Health Platoon rounds out the EDSG medical capability with complete emergency dental services as well as the equivalent of a mental health detachment. Equipment for dental services is packaged in a modified DEPMEDS-T towed as part of an MTV-LHS vehicle. Dental capabilities are limited to general repairs and emergency oral surgeries. The mental health section will operate with a similar arrangement using their respective equipment in a DEPMEDS-T. Unit vehicles include six HMMWV in addition to mentioned MTV.

It is assumed that all remaining medical support will come from joint, garrison, and civilian resources. For example, some Navy ships possess extensive medical capabilities including complete hospital services. Most potential theaters also possess civilian medical resources substantially greater than the resources that can be employed in a mobile military unit. Efforts are also underway to develop a joint force for control of higher echelon logistics functions and it is assumed that existing field hospitals will be included within this force structure. Where these options are not available, casualties requiring care beyond what is capable in the EDSG as well as those casualties meeting defined criteria will be evacuated to existing U.S. Army garrison medical facilities for further treatment.

It should also be noted that an additional pool of up to 800 personnel is available in the General Support Battalion to assist EDSG medical units in those situations where additional personnel are required with minimal training. Four additional TSM are also available to each EDSG for mass casualty events.

The primary method of evacuation from theater will come from a fleet of 48 modified C-130 aircraft. These aircraft will incorporate existing modifications that enable the transport to operate from the sea as well as from land. Aerial refueling systems should also be included in the modifications. These aircraft will be devoted to the medical evacuation role and will be equipped accordingly to include PETTS availability and respirators. Existing cargo aircraft can also be used for medical evacuation but this quantity will be devoted to this mission.

Medical Co., Group Support Battalion, Combat Maneuver Group

HQ Section 1 officer 3 HMMWV

8 enlisted 2 3/4T trailer

Support Platoon (1) 4 officer 5 MTV-LHS w/ trailer

45 enlisted 7 MEV

7 HMMWV

4 DEPMEDS-T

1 DEPMEDS-E

1 DEPMEDS-R

14 PETTS

Maneuver Platoon (3) 2 officer 3 MTV-LHS w/ trailer

46 enlisted 8 MEV

7 HMMWV

2 DEPMEDS-T

1 DEPMEDS-E

1 DEPMEDS-R

16 PETTS

Totals 11 officer 14 MTV-LHS w/ trailer

191 enlisted 31 MEV

202 personnel 31 HMMWV

2 3/4T trailer

10 DEPMEDS-T

4 DEPMEDS-E

4 DEPMEDS-R

62 PETTS

Medical Battalion, Early Deploying Support Group

MEDEVAC (Light) 13 officer 15 HMMWV

124 enlisted 4 MTV-LHS w/ trailer

4 CMT-HMMWV

8 MEV

8 UH-60Q

80 PETTS

1 DEPMEDS-OR

MEDEVAC (Heavy) 5 officer 15 HMMWV

132 enlisted 4 MTV-LHS w/ trailer

4 CMT-HMMWV

24 MEV

96 PETTS

1 DEPMEDS-OR

Medical Support (2) 7 officer 16 HMMWV

109 enlisted 4 MTV w/ MHE

1 DEPMEDS-P

1 DEPMEDS-IC

1 DEPMEDS-L

Medical Treatment (2) 21 officer 21 HMMWV

102 enlisted 10 MTV-LHS w/ trailer

2 MTV w/ MHE

10 MEV

10 DEPMEDS-T

20 PETTS

Totals 74 officer 104 HMMWV

678 enlisted 28 MTV-LHS w/ trailer

12 MTV w/ MHE

52 MEV

8 UH-60Q

8 CMT-HMMWV

20 DEPMEDS-T

2 DEPMEDS-OR

2 DEPMEDS-P

2 DEPMEDS-IC

2 DEPMEDS-L

216 PETTS

The following are examples of systems that would make up the PETTS. These are not recommendations of equipment, only examples of existing systems with the desired capabilities.

• SonoSite 180Plus portable ultrasound system
• Phillips M4529A Hand-Held Digital Pulse Oximeter
• Phillips HeartStart MRx defibrillator

Ideally, some form of charting system should also be included in the PETTS, potentially a digital chart compatible with the actual systems selected for the PETTS.

A shelter designed from a 20’ ISO container that can be expanded to form a 20’ by 24’ treatment area. Shelter is compatible with existing and planned LHS systems and can be expanded while on or off the vehicle. Shelter includes an automated blood analysis system as well as a C-Arm radiography system. All treatment equipment can be stored and accessed within the shelter while the shelter is collapsed.

A 20’ ISO container storage system designed for stockage of medical expendables. Can be expanded for easier access but must remain fully accessible while in a collapsed state on the transportation vehicle. System is LHS compatible.

A 20’ container designed for medical repair and less commonly used supplies. Designed similar to previous DEPMEDS shelters.

A Level III+ laboratory facility packaged within a 40’ ISO expandable container. This lab is tailored to chemical and biological identification and isolation as well as complex lab procedures. DEPMEDS-L should be used as part of a TSM and transported by semi tractor with self-loading trailer.

A dedicated surgical facility in a 40’ ISO expandable container. System includes a 12’ by 24’ sterilization and preparation room along with a 28’ by 24’ operating facility for up to four surgical teams. System includes a C-arm radiography system as well as complete oxygen, suction, ventilation, and four PETTS. If possible, bypass systems should be included as well.

 DEPMEDS-IC

An expandable 40’ container providing short-term intensive care facilities and equipment. Supports up to 10 patients in intensive care facilities including ventilation and automated IV systems.

A 40’ expandable container equipped for surgical preparation and radiology support missions. Small room contains a mobile computed tomography (CT) system as well as an extremity MRI system. Main room holds up to six surgical patients in prep in addition to two C-arm radiography systems and two blood analysis systems.

Arguably the greatest logistics challenge in the modern era is the performance of maintenance in a mobile environment. Proper maintenance and repair of military equipment is difficult enough in a garrison setting; it can be virtually impossible in the field. Unlike other areas of logistics, maintenance is a field of constant need. Unless units are off-line, there is always a need for maintenance regardless of time, location, or activity. Consequently, much effort should be directed towards making our maintenance operations as efficient and effective as can be made.

In virtually every maintenance field in the civilian world, a simple formula can be found that crosses all boundaries of location, industry, and equipment types. Maintenance units must be led by personnel that have a minimum of a functional understanding of the actions performed by the unit. No one would ever consider placing a Signal Corps officer in charge of an infantry unit but we don’t hesitate to put one in charge of a maintenance section. You will never find an artillery officer leading a medical unit but you will find them leading maintenance operations. This may be a factor in existing problems in field maintenance operations.

Another element of the successful civilian maintenance formula is the use of a blend of highly experienced, somewhat experienced, and relatively inexperienced technicians. In a typical civilian maintenance operation, one will find roughly 25% of the technical workforce to be inexperienced (less than four years), about 50% will possess significant experience in the field (four to eight years), while around 25% will be highly experienced (eight or more years). Highly experienced civilian technicians will have a minimum of eight years of full-time, hands-on experience in their field of maintenance and will have completed substantial training in topics currently regarded by the Army as being depot-level support. Existing Army maintenance units are overwhelmingly comprised of inexperienced technicians with a modest quantity (usually well under 25%) of personnel possessing significant experience. The existence of any highly experienced technicians in an Army maintenance unit is universally accidental as Army personnel policies are specifically tailored to prevent the existence of these needed personnel in units. Any Army technician that has not been promoted to management level (NCO) by the requisite eight years is forced out of service.

It should also be noted that number of years in a given maintenance MOS does not translate into years of experience. Achievement of NCO rank actually begins a process of technical degradation in the Soldier as side duties take precedent over hands-on technical work and training. The longer an individual remains in a given maintenance MOS as an NCO, the more detached the Soldier becomes from actual maintenance operations. The NCO will not necessarily receive critical training on new unit equipment, tools, maintenance procedures, and operational practices and the training they do receive on these topics will often be in a format very different from the hands-on technician. Consequently, in military maintenance, only years of lower enlisted technical experience count as years of experience.

In the Combat Group structure, and in any other expeditionary force setting, maintenance sections must be restructured emphasizing three key areas:

1. Rotational Readiness. In the Combat Group structure, units will undertake a rotational readiness cycle. Cyclical maintenance procedures must be implemented to take advantage of unit down time for performance of most preventive maintenance and inspection work including scheduled major services. Included in rotational readiness must be a personnel system that allows for technically skilled Soldiers to remain in service at lower enlisted rank, with increasing pay, for a period of 12 years.
2. Adaptive Training. Existing maintenance structures should be modified to merge most organizational maintenance functions into a single MOS of Combat Technician. This MOS should include all organizational level supply, transportation, communications, and some maintenance capabilities. Servicing, inspecting, and diagnostic troubleshooting of all types of military equipment should be emphasized. Separate MOS will remain for higher-level maintenance support with a series of ASI correlating to civilian certification programs defining the line between Direct Support and Depot maintenance.
3. Information Systems. Existing maintenance information systems are inadequate for supporting mobile operations. A new maintenance management system must be adopted to more accurately reflect maintenance operations in forward units. This system must be compatible will proposed logistics information systems while also efficiently gathering such information as operator complaints, cause of failure, and technician notes. This system will be similar in function to the information systems used by existing civilian automobile manufacturers for supporting warranty claims.

It should be noted that this concept is not intended for long-term maintenance support operations. These units will have additional supporting resources available for extended and garrison operations. This maintenance concept is designed for short-duration, high-intensity operations such as expeditionary warfare.

A new MOS should be developed for the position of Combat Technician. A Combat Technician will be formally trained in inspection, service, and troubleshooting procedures. Repairs will be limited to those repairs that can be performed in two hours. Training will encompass all ground military systems to include vehicles, radios, small arms, power generation equipment, night vision equipment, and similar organizational systems. Additional training will include organizational supply operations, transportation operations, and organizational communications operations. (See Appendix I).

With rotational readiness greatly reducing the organizational maintenance load in deployed units, greater emphasis can be focused on improving direct support and depot operations for more effective maintenance support. Direct support MOS should be merged into five DS categories of Automotive, Armament, Aviation, Munitions, and General Equipment. Certification programs should be implemented that correlate with equivalent civilian technical certification programs. Those technicians that complete all relevant certifications within their respective field (the equivalent of Master Technicians in the civilian world) will be defined as Depot Technicians. Combat Technicians will also be eligible for promotion to Depot Technician through certification as well. All DS and Combat Technicians should be allowed to remain in service for up to 12 years during certification process and up to 20 years upon attainment of depot status, regardless of rank, so long as they remain physically able to perform military duties (See Appendix II).

The existing Unit Level Logistics System should be replaced by a database program designed on the OpenOffice.org software suite. This software suite should be adopted Army-wide as it is free and very powerful and flexible. It also uses a compact file format that is more adaptable to satellite communications. Accompanying each ULLS-OOO system should be a satellite modem capable of networking with notebook and PDA computers. The maintenance section of this new ULLS should be designed consistent with civilian industry standards for documentation and auditing of warranty repair work. (See Appendix III).

A TSV must be defined that can effectively serve as a tactical prime mover for deployed combat units. This vehicle must be equipped with a Load Handling System and be compatible with proposed tactical pallets. The TSV is able to support maneuver warfare in armored formations while also offering superior mobility in support of light infantry elements. Includes a Vehicle Tracking System with communication capabilities (VTS). In the Contact Maintenance variant of the TSV, a pallet should be installed that provides for secure tool storage on the sides, air power and electrical power towards the front, and large parts storage in the center (See Appendix IV).

The MTVF is designed specifically for major field repair work in direct support operations. The MTVF includes an open cargo area with crane capable of lifting and storing powerpacks and other major maintenance components. The MTVF should be equipped with tools specific to these types of repairs in addition to cutting and welding systems (See Appendix V).

Similar to existing FRS, the proposed FRS should be limited to capabilities that are transportable by HEMTT for purposes of enhanced mobility while retaining the ability to repair medium and heavy armored vehicles. This may be capable with existing FRS but it may require developing a new model of similar design.

A system of tents and shelters used to assemble deployable support facilities. The basic TSM consists of an airframe tent 60’ wide by 100’ long with interfaces to support as many as five 40’ shelters, ten 20’ shelters, or combinations thereof. A typical TSM arrangement for maintenance support would consist of the major tentage, a 40’ container for office and computer support, a 40’ container for parts and supplies, a 40’ container for a mobile machine shop, and four container-mounted FRS units.

With this construct, maintenance is performed primarily in a mobile environment. In those cases where repairs cannot be performed in less than two hours, disabled systems will be evacuated to an appropriate repair location/facility or stripped for useable components.

All Army battalions should possess a relatively limited maintenance capability. Rotational readiness allows for a decrease in tactical levels of organizational maintenance capacity. Every battalion should possess a maintenance section that includes one appropriate recovery vehicle (M88, MTVR, or HEMTT depending on unit type), one MHE vehicle (MTVF or MTV with MHE), and two TSV-CM with cargo trailers. Each vehicle will be equipped with VTS and ULLS-OOO. This section should be manned entirely by Combat Technicians including one senior NCO and an additional seven technicians.

To accommodate variability in unit size and operations, existing Maintenance companies will be reconstructed to a more modular and mobile design. As the intended combat groups are to be capable of being subdivided to the battalion battlegroup level, the Maintenance unit is structured to support specific battalions. The Maintenance Company will include a small headquarters section to manage and support the operations of the company as well as a support platoon for providing maintenance services to the supporting elements of the combat group, including strike, recon, and aviation elements. A platoon will also be included in the company for each maneuver element of the group so that a combat group with four maneuver elements will have four maneuver platoons within the S&T Company. A group with three maneuver elements would therefore only have three maneuver platoons in the Maintenance Company. Maneuver platoons will consist of one repair squad, two maintenance squads, and one support squad. Support platoons will include two repair squads, one maintenance squad, and one support squad. In light groups such as the AAAG, only one maintenance squad will be used in maneuver platoons.

The repair squad is intended to provide major repair capabilities to the supported battalion. These reserves will vary by mission and tasking. The squad will possess two HEMTT-LHS for transportation of two Forward Repair Systems (FRS). Two MTVF should also be assigned to the squad in support of major DS repair operations.

The maintenance squad consists of two maintenance support teams to support mobile maintenance operations. One team will focus on automotive and armament maintenance operations while the other team supports C&E and other equipment maintenance operations. Each team will feature two Combat Technicians as well as a specialist in each of the assigned types of operations (DS Automotive and DS Armament, or DS C&E and DS Equipment). Each team is equipped with one TSV-CM and one HMMWV with trailer.

The support squad provides recovery and supplies support for the Forward and Maintenance squads. The squad will operate two MTV with MHE as well as two recovery vehicles appropriate to the equipment type of the supported unit (M88 for CMG, MTVR for LRSG, HEMTT for AAAG).

The headquarters section includes personnel for coordinating support of the unit with other elements of the Group Support Battalion. Section includes a two-person maintenance support team, a two-person supply support team, a two-person personnel support team, unit First Sergeant, Company commander, and unit Training/NBC NCO. Section includes three HMMWV (two four seat) along with two trailers.

Maintenance Battalion, Early Deploying Support Group

The Maintenance Battalion of the EDSG is tasked with providing maintenance support to deployed combat units. This support must be capable of performing effective operations in a mobile environment as well as a static environment.

The Automotive/Armament Maintenance Company (AAMC) is responsible for providing maintenance support of vehicle and weapon systems. The unit will possess a limited depot-level support capability but will emphasize direct support capabilities in a mobile environment.

The headquarters section includes personnel for coordinating support of the unit. Section includes a two-person maintenance support team, a two-person supply support team, a two-person personnel support team, unit First Sergeant, Company commander, and unit Training/NBC NCO. Section includes three HMMWV (two four seat) along with two trailers. Four support teams are also members of this platoon, including one motor officer, one depot technician, one DS automotive technician, one DS armament technician, and two combat technicians. Each team is transported in two HMMWV, a four-seat model with trailer for hauling personnel and equipment as well as a cargo carrier containing the computers and satellite modem necessary for maintenance operations. In static operations, teams will operate from TSM using containerized FRS included in modules.

The Maintenance Support Platoon operates primarily from mobile maintenance systems. The platoon consists of eight maintenance support teams. Each team includes one HEMTT-FRS and one TSV-CM manned by two combat technicians and a DS technician from each DS maintenance field. Where possible, an additional TSM may be provided for each platoon in a static mode of operations.

The Recovery/Evacuation/Swap Platoon is responsible for providing transportation of company systems during deployment and for transporting disabled systems in the forward area. Equipment includes one HETS with SLT trailer, seven HETS with standard trailers, four M88 recovery vehicles, four MTVR, and four MTVF. Personnel will evacuate systems that cannot be fixed in the forward area or will strip the vehicle of useable components for reuse. Personnel include eight recovery specialists, eight DS automotive technicians, eight DS armament technicians, and 16 combat technicians.

The Aviation/Munitions Maintenance Company (AMMC) is responsible for providing maintenance support of aviation and smart munitions systems. The unit will possess a limited depot-level support capability but will emphasize direct support capabilities in a mobile environment.

The headquarters section includes personnel for coordinating support of the unit. Section includes a two-person maintenance support team, a two-person supply support team, a two-person personnel support team, unit First Sergeant, Company commander, and unit Training/NBC NCO. Section includes three HMMWV (two four seat) along with two trailers. Four support teams are also members of this platoon, including one motor officer, one depot technician, one DS aviation technician, one DS munitions technician, and two combat technicians. Each team is transported in two HMMWV, a four-seat model with trailer for hauling personnel and equipment as well as a cargo carrier containing the computers and satellite modem necessary for maintenance operations. In static operations, teams will operate from TSM using containerized FRS included in modules.

The Maintenance Support Platoon operates primarily from mobile maintenance systems. The platoon consists of eight maintenance support teams. Each team includes one HEMTT-FRS and one TSV-CM manned by two combat technicians and a DS technician from each DS maintenance field. Where possible, an additional TSM may be provided for each platoon in a static mode of operations.

The Recovery/Evacuation/Swap Platoon is responsible for providing transportation of company systems during deployment and for transporting disabled systems in the forward area. Equipment includes one HETS with SLT trailer, seven HETS with standard trailers, four HEMTT recovery vehicles, four MTVR, and four MTVF. Personnel will evacuate systems that cannot be fixed in the forward area or will strip the systems of useable components for reuse. Personnel include eight recovery specialists, eight DS aviation technicians, eight DS munitions technicians, and 16 combat technicians.

The General Equipment Maintenance Company (GEMC) is responsible for providing maintenance support of all remaining military equipment and systems. The unit will possess a limited depot-level support capability but will emphasize direct support capabilities in a mobile environment.

The headquarters section includes personnel for coordinating support of the unit. Section includes a two-person maintenance support team, a two-person supply support team, a two-person personnel support team, unit First Sergeant, Company commander, and unit Training/NBC NCO. Section includes three HMMWV (two four seat) along with two trailers. Four support teams are also members of this platoon, including one motor officer, one depot technician, one DS electronics technician, one DS NBC technician, and two combat technicians. Each team is transported in two HMMWV, a four-seat model with trailer for hauling personnel and equipment as well as a cargo carrier containing the computers and satellite modem necessary for maintenance operations. In static operations, teams will operate from TSM using containerized FRS included in modules.

The Maintenance Support Platoon operates primarily from mobile maintenance systems. The platoon consists of eight maintenance support teams. Each team includes one CMT-H and one MTVF manned by two combat technicians and two DS technicians. Teams will vary in types of systems supported with teams specializing in particular systems such as power generation, water purification, field kitchens, computers, etc. Where possible, an additional TSM may be provided for each platoon in a static mode of operations.

The Recovery/Evacuation/Swap Platoon is responsible for providing transportation of company systems during deployment and for transporting disabled systems in the forward area. Equipment includes eight commercial semi-tractors with SLT trailers, four HEMTT recovery vehicles, four MTVR, and four MTVF. Personnel will evacuate systems that cannot be fixed in the forward area or will strip the system of useable components for reuse. Personnel include eight recovery specialists, 16 DS technicians, and 16 combat technicians.

Beyond the EDSG, the majority of maintenance support will come from civilian contractors. Some additional military units should be pooled in a joint logistics element to provide for long-term maintenance operations using specialized technicians operating in garrison facilities. These units will make greater use of depot level technicians and will often mix military and civilian DOD technicians. As these units are not specific to any given type of combat capability, these resources can be effectively shared amongst all of the branches of service.

Maintenance Co., Group Support Battalion, Combat Maneuver Group

HQ Section 1 officer 3 HMMWV

8 enlisted 2 3/4T trailer

Support Platoon (1) 1 officer 4 HEMTT-FRS

31 enlisted 2 HMMWV

2 3/4T trailer

2 TSV-CM

2 MTV w/ MHE

4 MTVF

2 M88 RV

8 ULLS-OOO

8 VTS

Maneuver Platoon (3) 1 officer 2 HEMTT-FRS

31 enlisted 4 HMMWV

4 3/4T trailer

4 TSV-CM

2 MTV w/ MHE

2 MTVF

2 M88 RV

8 ULLS-OOO

8 VTS

Totals 5 officer 10 HEMTT-FRS

132 enlisted 17 HMMWV

137 personnel 16 3/4T trailer

14 TSV-CM

8 MTV w/ MHE

10 MTVF

8 M88 RV

32 ULLS-OOO

32 VTS

Maintenance Battalion, Early Deploying Support Group

Automotive/Armament (2) 5 officer 11 HMMWV

164 enlisted 3 3/4T trailer

24 HEMTT-FRS

24 TSV-CM

1 HETS w/ SLT trailer

7 HETS w/ standard trailer

4 M88 Recovery vehicles

4 MTVR

4 MTVF

4 ULLS-OOO

72 VTS

Aviation/Munitions (2) 5 officer 11 HMMWV

164 enlisted 3 3/4T trailer

24 HEMTT-FRS

24 TSV-CM

1 HETS w/ SLT trailer

7 HETS w/ standard trailer

4 HEMTT Recovery vehicles

4 MTVR

4 MTVF

4 ULLS-OOO

72 VTS

General Equipment (2) 5 officer 11 HMMWV

164 enlisted 3 3/4T trailer

24 CMT-H

28 MTVF

8 commercial tractor w/ SLT trailer

4 HEMTT Recovery vehicles

4 MTVR

4 ULLS-OOO

72 VTS

Totals 30 officer 66 HMMWV

984 enlisted 18 3/4T trailer

1014 personnel 96 HEMTT-FRS

96 TSV-CM

4 HETS w/ SLT trailer

28 HETS w/ standard trailer

16 commercial tractor w/ SLT trailer

8 M88 Recovery vehicles

24 MTVR

16 HEMTT Recovery vehicles

44 MTVF

24 ULLS-OOO

432 VTS

What is a Logistician? This is a fairly reasonable question that, unfortunately, currently has no reasonable answer. While the concept of logistics typically covers the areas of transportation, supply, maintenance, and communications, each of these areas falls under separate and unrelated Corps commands. Everyone working in logistics must be functional in all supply operations. All logistics personnel should also be functional in all transportation operations. Logistics personnel should also be able to operate all unit level communications equipment. And finally, all logistics personnel need a fundamental understanding of the concepts of troubleshooting.

All logistics personnel are not going to be mechanics nor should they be expected to be. But they should be able to recognize fundamental problems with equipment like whether or not batteries are dead or where an oil leak is coming from in a vehicle. These personnel need to be adept at all areas of operator-level and organizational-level maintenance and they need to be able to recognize when a system has a serious problem. They need to know the basic components that make up an electrical system, a hydraulic system, and how these systems function. They do not need comprehensive training - just enough so that when something ceases to function, they can send the equipment to where it needs to go in order to be repaired.

Every unit has specific personnel assigned to the roles of unit maintenance, unit supply, and unit communications (pretty much everybody drives). These separate areas should be merged at the unit level into a single role of Combat Technician.

The idea of a Combat Technician is for units to have a substantial group of personnel that are trained and experienced in all organizational level logistics functions. The operative phrase here is organizational level; higher echelons of support will still be manned by personnel with more specific skills. But at the unit level, there should be no separation of maintenance, supply, transportation, and communications.

The primary reason for this change in structure is that too many of these tasks are currently performed by one or two people and an everyday occurrence like personnel turnover can cause the unit’s logistics to shut down. By having all of these personnel trained in the full spectrum of logistics, the unit can simply move remaining personnel around to adjust for loss. While this isn't the most efficient means of dealing with the problem, it will keep the unit functioning at a sufficient level until personnel can be replaced.

This also allows for the unit to shift personnel to meet short-term critical needs. Oftentimes, a requirement will come up in a certain section requiring additional assistance and this program will ensure that qualified personnel are readily available to fill these short-term needs. As an example, when a new commander is assigned to a unit, they are required to inventory the entire unit for the transition. With this system, additional personnel can be shifted to the unit's supply section to assist in the transition. Another example would be when a unit gets new vehicles or is pulling vehicles out of storage. This often requires more personnel than the typical motorpool has for performing the necessary inspections and small repairs. With this system, additional personnel will be available and properly trained to help.

The unit will retain the same total number of personnel for these unit logistics function; the personnel will simply be trained to engage in a wider array of missions than they currently are. This builds redundancy within the logistical system without increasing the total number of personnel. In the interim, unit commanders should insist on cross-training all personnel in the unit's logistical areas to perform the other missions.

Oftentimes, leaders make the mistake of allowing personnel to cross train into higher support echelons because the Soldier will need this training later in their careers. Unfortunately, the unit rarely has the resources or workload to justify this training. What tends to get lost is that as these Soldiers gain rank, they will also be required to engage in the other areas of logistics. Every military unit has the resources to provide this horizontal type of cross training at the organizational level. The Soldier will benefit more in the long run from learning the rest of the logistical areas than from learning a higher echelon of support and the unit will be stronger as well.

To manage this new field, we will need to establish a Corps that can oversee training and personnel issues for Combat Technicians. Essentially, the various MOS that are being combined into the Combat Technician concept will be removed from their respective Corps' and merged in the Logistics Corps. A joint Logistics Corps that will effectively function as an entirely new branch of service will manage and provide higher echelon support. The following MOS should be merged to form the Logistics Corps:

31C - Radio Operator Maintainer

52D - Power Generation Equipment Repairer

63B - Light Wheel Vehicle Mechanic

63S - Heavy Wheel Vehicle Mechanic

63Y - Track Vehicle Mechanic

92A - Automated Logistical Specialist

92Y - Unit Supply Specialist

88H - Cargo Specialist

88M - Motor Transport Operator

At first glance, this list appears to be rather huge and unmanageable for merger into a single job, but remember, we're only combining the organizational level activities of these MOS and we're also streamlining them. In the case of some MOS listed, the current timeframe for training is only a couple of weeks. And by focusing on generalized training instead of going into great depths that aren't required, there's no reason that training for this new MOS should take more than 16 weeks. Most of the necessary training will come on the job.

Combat Technicians will occupy all of the logistics-related positions within units. Promotions will lead to higher positions within the unit or to higher levels of logistics such as the S-4 sections at battalion and brigade levels. Senior NCOs and Officers in the Logistics Corps will hold the position of Combat Logistician. Appropriate training will educate these personnel in the command side of logistics functions.

As with all of the administrative Corps units, the Logistics Corps will have its own training doctrine and facilities. For facilities, the Corps will take over those training facilities currently used by the 63B training program. These facilities exist at a number of bases and will be available anyway as 63B is included in the Logistics Corps. A 16 week training course will be structured on the lines of:

* Introduction to Logistics - one week

* Supply Operations - one week

* Cargo Handling and Loading - one week

* Vehicle Operations - one week

* Communications Operations - one week

* Additional Systems Operations - one week

* Electrical Systems Diagnostics - two weeks

* Mechanical Systems Diagnostics - two weeks

* Hydraulic Systems Diagnostics - two weeks

* Fuel Systems Diagnostics - two weeks

* Vehicle Maintenance and Repairs - one week

* Equipment Maintenance and Repairs - one week

Additional Skill Identifiers should include the following:

* Airborne Operations - additional training focused on applying logistics concepts to airborne and heliborne operations. Includes training in air load operations, air drop operations, and sling load operations.

* Amphibious Operations - similar to Airborne Operations but dealing with naval support and amphibious vehicles instead of airborne systems.

Basic Noncommissioned Officers Course should cover:

* Managing Supply Operations - Organizational Level

* Managing Transportation Operations - Organizational Level

* Managing Maintenance Operations - Organizational Level

* Managing Communications Operations - Organizational Level

Advanced Noncommissioned Officers Course will address:

* Managing Supply Operations - Higher Echelons

* Managing Transportation Operations - Higher Echelons

* Managing Maintenance Operations - Higher Echelons

* Managing Communications Operations - Higher Echelons

Basic Officers Course should cover all of the above items. Upon completion of the above items, the Soldier becomes a Combat Logistician.

Warrant Officers will have already completed the mentioned courses and will need to complete additional training in the following areas:

* Joint Supply Operations

* Joint Transportation Operations

* Joint Maintenance Operations

* Joint Communication Operations

Officers will be required to complete all of the above training for promotion to ranks O-4 and above and will also be required to have completed all of the above in order to hold the position of S-4.

The proposed combat groups utilize a rotational readiness system to optimize training and combat readiness. An ideal side effect of this approach is an overall reduction in the need for organizational maintenance support in deployable units. For example, with a rotational system, common sense suggests that regularly scheduled major services, such as the annual and semi-annual services, should be performed during the downtime programmed into the readiness cycle with a "refresher" service performed at the end of the training cycle. Most minor repairs can also be deferred until these same timeframes. Consequently, the primary maintenance needs at the organizational level will be diagnosis of equipment malfunctions and repairs of minor deadline deficiencies.

This frees us to emphasize higher echelon maintenance capabilities that are more suitable for expeditionary warfare environments. For example, given suitable training and equipment, competent technicians can perform many maintenance services in a deployed environment that are currently limited to depot support units. Most depot powertrain work can be performed effectively in a forward posture so long as the units are properly designed, trained, and equipped for this role. Similar results are possible in armament, aviation, general equipment, and electronics repairs.

Direct support MOS should be merged into five general categories of DS technicians.

1. Automotive technicians – Responsible for DS and GS repairs of all automotive equipment including wheeled and tracked systems. Includes current MOS of 44B, 44E, 62D, 63E, 63H, 63T, and 63W.
2. Armament technicians – Responsible for DS and GS repairs of all armament systems including mounted and dismounted weapons. Includes current MOS of 45B, 45D, 45E, 45G, 45K, and 45T.
3. Aviation technicians – Responsible for DS and GS repairs of all aviation systems including helicopter and UAV assets. Includes all current 67-series MOS as well as 68B, 68D, 68F, 68G, and 68H.
4. Munitions technicians – Responsible for DS and GS repairs of all guided munitions and their supporting systems. Includes all current 27-series MOS as well as 35B, 55B, 68J, 68N, and 68X.
5. General Equipment technicians – Responsible for DS and GS repairs of all additional types of mechanical equipment. Includes 52C, 52D, 52E, 52F, 62B, 63G, and 63J.

Each category of DS technician will then have an additional group of ASI in specific segments of depot repairs that are suitable for forward operations. For example, automotive technicians should have ASI available in welding, automatic transmission repair, electrical system repair, drive train repair, engine repair, and engine performance. These ASI will correspond to equivalent civilian certifications such as ASE certification (an industry standard).

Technicians who have completed ASI in their field and are scheduled for additional ASI courses should be allowed to remain in active service up to 12 years regardless of rank or promotion status. Those technicians who complete all of the ASI in their respective field will be considered Depot Technicians and can remain in service up to 20 years regardless of rank, serving in either DS or Depot positions. Because the ASI coursework directly correlates to civilian certification, many young Soldiers will chose to leave service for civilian employment as they progress through ASI courses. This will ensure that the Army retains only those who are truly committed to serving in these critical fields. It will also help in countering the problems associated with service members achieving rank without adequate experience, as experienced technicians will be available to all units.

Managing this system, as well as other logistics operations at the unit and support levels, should be a system called ULLS-OOO. The OOO stands for OpenOffice.org. This application suite is a powerful alternative to Microsoft Office with many features ideally suited to military applications. In addition to the standard word processing, spreadsheet, and presentation capabilities, OOO also includes drawing and diagram software, database software, and compatibility with a variety of file and technology types including Adobe PDF, Macromedia Flash, PDA, XML, and ActiveX. Virtually all organizational computer software used in the Army can be effectively replaced by OOO, which is free of charge. This software can also manage such difficult document types as maps, books, and forms. The database tools should be used to develop a replacement to the existing ULLS family of computer programs. These systems can then be integrated with the systems fielded under LOGMOD for a seamless and powerful logistics management system.

In the area of support operations ULLS-OOO should replace existing ULLS, SAMS, and SARSS. This system will handle work order processing, man-hour tracking, and report generation. Additionally, the maintenance section should be designed upon a framework similar to the warranty monitoring systems used by major auto manufacturers. These systems require data inputs that allow for better tracking of maintenance information, including user complaints that led to repair, coding of failed part to indicate cause of failure, listing of labor performed and parts and materials used in repair, and technician comments. In the supply portion of this proposal, it was mentioned that existing supply budgets should be converted to expense accounts that will operate on a reimbursement basis. With this new maintenance system, reimbursement will be determined by what is entered into the system. While somewhat ponderous, this system will enable leaders with critical information needed to improve maintenance support operations.

When combined with a satellite modem, this system will result in dramatic reductions in report generation for maintenance elements. Higher command elements can monitor the maintenance operations of subordinate units without the need for lengthy reports and inspections as most repetitive information will be available through the new ULLS. By directly linking reimbursement with entry into the ULLS system, many repairs that currently go unreported and undocumented will be entered into the system. Units will not be reimbursed for PLL purchases, as all PLL will be managed at the discretion of the unit commander. Only declared repairs to vehicles with reported deficiencies will be reimbursable.

The ideal TSV would look similar to the existing M1108 Universal Carrier from United Defense. This design is based on the M113 Gavin chassis and could be modified into a TSV. The design already includes an armored cab and can also include an NBC over-pressure system (which the TSV should have). Band tracks are already available for this chassis allowing for reduced noise, road wear, and maintenance. There is also a hybrid powertrain system available that produces 500hp, as much as the engine in the current PLS (a much larger, heavier vehicle that hauls 33 tons of cargo). It also comes with a mount for an M240 machine gun and can be equipped with thermal sights and GPS tracking systems (like those available on the current PLS). Ironically, even with substantial armor, this vehicle only weighs two tons more than the current MTV and it weighs roughly the same as older 5 ton cargo vehicles. There is no problem transporting this vehicle with all available airlift assets; it can roll-on/roll-off of C-130 and with little work it should even be air-droppable if it isn't already.

In the TSV-CM configuration, a pallet is installed on the vehicle that includes storage for tools and parts as well as equipment for electrical and compressed air systems. For most automotive and armament applications, the TSV-CM will be the maintenance vehicle of choice. It can also be equipped with a small winch in the front for light recovery operations and the vehicle has ample power for towing most wheeled and light armored vehicles.

While the vehicle is capable of transporting a three person crew, it will normally only carry a crew of two as the third space will be occupied primarily by computer systems including Vehicle Tracking Systems (VTS), ULLS-OOO, and unit radios. The pallet can also be off-loaded to allow the vehicle to assist in resupply operations as well.

The MTVF is a modified M113 Gavin vehicle designed for performing maintenance support operations. It includes a MHE crane for lifting and positioning major components as well as a large cargo area and storage for tools and parts. In this configuration, the MTVF will also be outfitted with a variety of cutting systems for purposes of stripping disabled vehicles of useable components on the battlefield.

Current methods for cannibalization require extensive manpower and time as single repairs are performed twice, once to the repaired vehicle and once to the cannibalized vehicle. In this new maintenance construct, damaged vehicles will be stripped in a fashion that will prevent the vehicle from ever being reused. In essence, we are accepting that in some instances of warfare, it will be better to simply scrap an existing damaged vehicle and replace it altogether than to take the effort to repair it. Once we decide to scrap the vehicle to be cannibalized, the MTVF can be brought in. Instead of time-consuming, careful disassembly of components over a period of hours, the MTVF will cut all desired components from the vehicle in a matter of minutes.

Where extraction of an existing HMMWV engine can easily take 30 hours, the MTVF can extract an engine from a disabled vehicle, in useable condition, in less than one hour by cutting many of the components that would otherwise be disassembled. This same practice is commonplace in civilian salvage yards as well as criminal "chop shops" which are the closest examples available to military cannibalization.

By cutting the vehicle into various blocks of useable components, most vehicles can be fully cannibalized of all useable subsystems in less than two hours by a skilled technician. These component blocks may be stored by the unit or disassembled for their individual components. In either example, the excess labor currently inherent in military cannibalization processes can be dramatically reduced using these methods. This will involve a premium in that replacement vehicles will need to be procured and deployed but this is a small price to pay for maximizing the benefits of cannibalization in the early phases of combat. In deployed operations on non-linear battlefields, time is a luxury that maintenance operations do not possess.

REFERENCES

www.au.af.mil/au/aul/school/acsc/7.doc

Au/ACSC/647-4/2002-04

Air Command and staff college

AIR UNIVERSITY

Logistics and pattonÂ’s third army

lessons for todayÂ’s logisticians 

by

Jeffrey W. Decker, Major, United States Air Force

A Research Report Submitted to the Faculty

In Partial Fulfillment of the Graduation Requirements

Advisor: Doctor Richard R. Muller

Maxwell Air Force Base, Alabama

April 2002 

Disclaimer

   The views expressed in this academic research paper are those of the author(s) and do not reflect the official policy or position of the US government or the Department of Defense.  In accordance with Air Force Instruction 51-303, it is not copyrighted, but is the property of the United States government.

 
 
 
 
Contents

Page 

Preface

   When conducting serious study of any operational campaign during World War II, the military student quickly realizes the central role logistics played in the overall war effort.  Studying the operations of General George S. Patton and his Third United States Army during 1944-45 provides all members of the profession of armsÂ-especially the joint logisticianÂ-valuable lessons in the art and science of logistics during hostilities.  Future conflicts will not provide a two or three year “trial and error” logistics learning curve; rather, the existing sustainment infrastructure and its accompanying logisticians are what AmericaÂ’s armed forces will depend on when the fighting begins.

   My sincere thanks to Dr. Richard R. Muller for his guiding assistance completing this project.  I also want to thank the United States Army Center of Military History for providing copies of the United States Army in World War II official histories and          Lt Col (S) Clete Knaub for his editing advice and counsel.  Finally, thanks go to my wife Misty for her support writing this paper; her grandfather, Mark Novick for his wisdom and guidance during the preparation of this project; and to his brother David, a veteran of the Third United States Army.  I dedicate this project to him. 

 
 
 
Abstract

      George S. Patton and his Third Army waged a significant combined arms campaign on the Western Front during 1944-45.  Both his military leadership and logistics acumen proved decisive against enemy forces from North Africa to the Rhine River.  This paper illustrates PattonÂ’s logistical experience before assuming command of the Third Army in 1944, examines how logistics successfully contributed to Third ArmyÂ’s 1944-45 campaigns, and suggests appropriate lessons for todayÂ’s joint logistician.  The research findings summarize PattonÂ’s career and his exposure to the importance logistics plays in modern war.  Next is an analysis exploring how logistics influenced PattonÂ’s campaigns in North Africa, Sicily, France, and Germany; including examples of PattonÂ’s troops continually adapting logistically during these campaigns.  The discussion concludes with suggested lessons learned for todayÂ’s joint logistician.  

      Though almost sixty years have elapsed since PattonÂ’s Third Army raced across the French countryside and into Germany, this incredible feat of combined arms still offers fresh insights for todayÂ’s warriors, and especially for the joint logistician.  Patton may have been “hell on wheels,” but his Third ArmyÂ’s accomplishments depended upon the agile combat support provided by his quartermasters and other logisticians scattered throughout the European Theater of Operations.  This essay discusses PattonÂ’s previous logistical experience before assuming command of the Third Army in 1944, examines how logistics successfully contributed to Third ArmyÂ’s 1944-45 campaigns, and suggests appropriate lessons for todayÂ’s joint logistician.

Mexico and World War I

      After graduating from West Point in 1909, Patton began his army career with K Troop, 15th Cavalry Regiment at Fort Sheridan, Illinois.  Patton eagerly jumped into his new assignment, and also spent a great deal of time studying Clausewitz and other military texts establishing a pattern that continued throughout his life.  His professional studies during his early career focused on the operational level of warÂ-“the movement, support, and sequential employment of large military formations in military campaigns.”1  After passing the promotion exam to First Lieutenant in early 1916, PattonÂ’s reassignment to the 8th Cavalry at Fort Bliss, Texas moved him closer to the simmering American-Mexican border.  After Pancho VillaÂ’s raid on Columbus, New Mexico, Brigadier General John J. Pershing assembled a retaliatory force to find Villa.  When Patton discovered his unit would not be part of the expedition, he asked to be assigned as an aide to Pershing.  Leaving Fort Bliss together on 13 March 1916, Patton and Pershing began a close and lifelong friendship.  Also, Patton would experience the first phases of the growing technological revolution on the twentieth century battlefield.

      As a participant in the Mexican Punitive Expedition of 1916, Patton witnessed the beginnings of Army motorization in the combat arms and quartermaster corps.  While purchasing food from local farmers, Patton discovered a Villista compound.  Without hesitation, he used his three assigned automobiles and 14 accompanying personnel to attack and secure the stronghold.  This motorized engagement, a first in U. S. Army history “foreshadowed PattonÂ’s later expertise in this kind of combat.”2  In addition, the use of internal combustion engine vehicles in delivering supplies would enhance an armyÂ’s ability in future conflicts.  Major John F. Madden the Quartermaster General for the punitive expedition, commented:

It can be asserted with conviction as a result of observation of motor transport operating with this Expedition, that this method of forwarding supplies is eminently practicable and comparatively inexpensive under ordinary normal conditions, that it is dependable enough to be worthy of adoption for general use and it would be the policy of wisdom to continue and expand the motor units now in service, to perfect their organization and training, from now on so that when again the Army is called on for service akin to this expedition, it will have ready and at maximum effectiveness, this modern and proven aid to its efficiency.3 

Though Major Madden constantly struggled with vehicles designed for civilian use, poor roads, and parts shortages, he enthusiastically supported incorporating trucks as a means of delivering supplies to forward deployed elements.  Patton biographer Martin Blumenson describes PattonÂ’s exposure to both technology and the central role of logistics during his first operational campaign: “He had become acquainted with the primitive motor vehicles used by the U. S. Army and employed them for the first time in extended operations and become aware of the importance of logistics as he studied the supply system.”4  After completing the Punitive Expedition, PattonÂ’s superior, the newly promoted Major General Pershing, left for France to assemble and train the American Expeditionary Force (AEF).  Patton also accompanied his lifelong idol to the war-torn European continent.

      Upon arrival in France, the AEF faced enthusiastic crowds but a logistical nightmare.  Another of PershingÂ’s staff officers, Major George C. Marshall, observed conditions rivaling those facing “WashingtonÂ’s forces at Valley Forge in the fall of 1917Â…seen soldiers of the First Division without shoes and with their feet wrapped in gunny-sacks, marching ten or fifteen kilometers through the ice and snowÂ…seen so many horses of the First Division drop dead on the field from starvation.”5  After assuming directorship of the Tank School at Bourg, France, Patton faced similar logistical circumstances but expertly tackled issues such as  “requisitioning land, constructing buildings and tank training areasÂ…requisitioning supplies and spare parts for a tank battalion (calculated down to a mechanicÂ’s need for replacement nuts and bolts), and employing the machines in combat once they had been transported by rail to the appropriate sector of the front.”6  Even his course of instruction “provided the skills needed to assure that his tank units would mesh with the activities of infantrymen, artillerymen, signalers, airmen, and logisticians (emphasis added).”7  After training enough troops and obtaining equipment sufficient to outfit a brigade, Patton and his tankers faced their first combat test: the September 1918 Meuse-Argonne Offensive.

      Patton and his 345 tanks fought valiantly during this critical battle.  After 14 days, the brigade had exhausted its tank complement and out of 834 troops, only 80 were available to fightÂ-even Patton required hospitalization due to a wound.  However, this combat test had allowed Patton to hone doctrine, while self-critiquing his leadership and logistical abilities.  Upon his return after convalescence, he authored notes on “Entraining and Detraining at Night” followed by “Practical Training, Tank Platoon.”8  These two papers emphasized PattonÂ’s commitment to both logistical matters and combat preparation.  His brief but intense experiences during World War I prepared him for bigger challenges, but he would have to wait over 20 years before again leading and sustaining troops on the battlefield.

“Arsenal of Democracy”

      As Patton itched for a field command in late 1939, the American army under its new Chief of Staff General George C. Marshall was building a credible military force after the neglect of the 1920Â’s and 1930Â’s.  MarshallÂ’s exposure to the haphazard buildup of forces during the First World War and the difficulties presented by training and employing troops without the required logistics greatly shaped his efforts prior to AmericaÂ’s entry into World War II.  Marshall also encountered a mindset throughout the Army in which “logistics was held in low esteem.”9  This outlook would change during the Second World War as the greatest contribution made by the United States to the Allied effort would be “in weight of materiel rather than in weight of manpower.”10 

      The “Arsenal of Democracy” eloquently described AmericaÂ’s materiel contributions but underestimated the challenges to delivering sustenance to forces fighting the Axis powers.  First AmericaÂ’s dormant industrial power required a great deal of time to “ramp up” to support both Allied and American logistical requirements.  During an address in 1938, General Marshall told the Army Industrial College, “No matter how many billions of dollars Congress places at our disposal on the day war is declared, they will not buy ten cents worth of materiel for delivery under twelve months, and a great deal of it requires a year and a half to manufacture.”11  Secondly, tenuous sea lines of communications (LOC) across the Atlantic and then Pacific oceans plus the requirement to plan, manufacture, assemble, and deliver all manner of materiel taxed Army planners and logisticians.  Marshall viewed AmericaÂ’s army as one of battalions spread amongst 130 posts without significant service forces. Training of large unit formations was lacking, and “…neither the Regular Army nor the National Guard had any tactical corps or field army headquarters.”12  Finally, the United States would fight as a part of a worldwide coalition, providing significant quantities of war materiel to each partner.  Many of the logistics decisions made at the strategic, operational and sometimes tactical level would be influenced by coalition, rather than solely U. S. considerations.  Even at the first staff discussions between American and British representatives in late January 1941, “logistics provided the frame within which the first great strategic decision was made.”13  Known as ABC-1 (United States Plan Rainbow-5), proposed a “Germany first” strategy if America entered the war.  Even with its burgeoning materiel might, America “could not have mustered sufficient effort to deal with both major enemies simultaneously.”14  For Marshall it was now time to mold and support the armies of a democracy and find men to lead themÂ-men such as George S. Patton.

Pre-War Maneuvers and the Desert Training Center

      When Germany invaded Poland in September 1939, Patton was in command of Fort Meyer, Virginia.  This was a largely ceremonial and socially demanding posting and Patton yearned to get any field command as he saw war approaching.  He and others observed the mechanization of the battlefield and the WehrmachtÂ’s superb efficiency in incorporating tanks, aircraft, and “panzer grenadiers” (mechanized infantry) into one destructive sledgehammer against enemy forces.  Experienced American personnel with a similar background were few, and formations larger than a battalion were virtually nonexistent.  Marshall hurriedly determined the need for an armored force and authorized a corps with two armored divisions.  These “saplings” would in time lead an American Army schooled in the methods of “blitzkrieg” style of warfare, and in temporary command of the Second Armored Division was Brigadier General (S) Patton.

      Patton zealously executed his duties and projected an aura of youthfulness even though he was nearly 55 years old.  Leading and training a newly formed armored division mirrored budding American concepts of fighting the impending war in Europe.  Marshall and other prewar planners determined that mobile formationsÂ-abundantly equipped, rapidly resupplied, and heavily supported by air and naval powerÂ-would defeat the Nazi legions.  U.S. Army planners devised a logistical strategy in which “the emphasis upon weight and quantity of materiel, sometimes at the expense of qualitative superiority over the enemy radiated through every aspect of the ArmyÂ’s logistics.  It was reflected above all, perhaps, in a supply system that accepted and greatly extended the modern mass armyÂ’s dependence on continuous resupply.”15  With this basic guidance, Patton and others began the task of building up AmericaÂ’s armored forces, but faced immediate logistical hurdles due to the expanding war in Europe.

      As in past wars, initial American manpower requirements were met first and the follow-on materiel needs languished or were redirected toward more pressing emergencies.  The newly created armored divisions quickly filled out with new draftees (compliments of the September 1940 Selective Service Act) but with an “authorization of 6,486 vehicles to attain full combat strength, the Armored Force inherited less than 1,000.”16  Even after ten months of extensive training and expanded production, War Plans Division Chief, Brigadier General Leonard T. Gerow reported to General Marshall “the First Division (reinforced) is the only division we have which even approximates readiness for combat service involving a landing on a hostile shore.”17 Combined with a robust naval shipbuilding program, American factories were producing vast quantities of aircraft, mortars, certain types of antiaircraft artillery and machine guns, rifles, field artillery ammunition, light tanks, and trucks.  Unfortunately, Army brass saw much of this new materiel allocated to Great Britain and the Soviet Union.  Patton and other division commanders addressed these discrepancies with typical Yankee ingenuity.  Using trucks as tanks, pine logs as machine guns, or flour sacks as air delivered munitions, the rapidly growing American army pressed ahead with the U.S Army GHQ maneuvers for 1941.

      The 1941 maneuvers provided Patton and his Second Armored Division an opportunity to showcase the capabilities of mechanized warfare and hone the “nuts and bolts” of logistics and movement.  Fortuitously, PattonÂ’s division was assigned to the Third Army and his troopers ran roughshod through the opposing forces.  During the smaller scale Tennessee games held in June, “PattonÂ’s forces knifed through the defenders with such speed that the umpires stopped the action after nine hours instead of the allocated two days.”18  Patton also pointed out to Secretary of War Stimson that his division covered “in some cases over 110 miles, every fighting vehicle in the division, except two tanks and a scout car, got to the place it was supposed to be in time to deliver the attack.”19 

      The Louisiana maneuvers in which over 350,000 men participated, were the largest peacetime exercise in the history of the US Army.  Beginning on 15 September 1941, the exercises progressed on a two-phase agenda.  Evaluating mobility in the attack and the defensive capability of smaller forces, PattonÂ’s Second Armored met overwhelming infantry and antitank opposition during the first phase and was essentially destroyed.  During Phase II his forces executed a “wide hooking movement that covered some 200 miles in 48 hoursÂ…despite the fact they were overextended logistically…”20  Operating from a 300-mile supply line, Patton kept his mechanized forces fueled by purchasing gasoline from commercial dealers and service stations.  Besides testing further the impact of mechanization and defensive doctrine, the Louisiana maneuvers provided invaluable logistics instruction as well.  Patton procuring gas on the march exposed the criticality of a flexible and responsive Communications Zones (COMZ).  General Marshall also recognized the importance of COMZs, demanding each army reposition its COMZ between the first and second phases of the maneuvers.  He recalled in later years:

Eisenhower for example, was chief of staff of General KruegerÂ’s [Third] Army in the South.  All of them learned a great dealÂ…I directed that they change their bases on each side.  They told me it would take a month for something like that and be very, very expensive.  Well, I said, they would have to do it anyway.  They would have to do it in Europe, and they would have to do it hereÂ…I remember in one case it took ten days, and cost 40,000 dollarsÂ…but it was a very economical sum when it came to the efficiency it developed in the troops.  That is the reason that Patton and Hodges and Bradley were able to move as rapidly as they did across the face of Europe.21

The mock combatants concluded their activities in Louisiana and prepared for a final large unit training opportunity in the Carolinas.

      The Carolina games commenced on 16 November 1941 and evaluated a battle between an infantry heavy force numbering 195,000 (General Hugh DrumÂ’s First Army) against a smaller mechanized heavy force numbering 100,000 (Major General Oscar W. GriswoldÂ’s IV Corps).  Assigned to the smaller force, PattonÂ’s Second Armored Division attempted to repeat the stunning successes of the previous wargames.  Facing numerical superiority, the IV Corps was unable to exploit its inherent mobile advantage.  A shortage of infantry within armored formations was evident as well.  During both phases, the armored units were used more as roving “fire brigades” to stem opposing force attacks than in their intended roles.  Also evident was the inability of quartermaster units to properly fuel vehicles on the march.  Prior to game commencement, the Assistant I Armored Corps G-4 summed up the problem to Patton: “General, in the I Armored Corps, we do not have trucks, tank trucks, cans nor men to move a hundred gallons of gas.”22  In order to remedy the situation, the assistant G-4 locally contracted railroad tank cars and used gravity to refuel the tanks.  Similar to a Confederate cavalry raid, PattonÂ’s armored forces continued to press attacks behind enemy lines though he had to be reminded again of the precarious balance between combat power and sustainment.  The 1941 maneuvers showcased PattonÂ’s effective use and movement of mechanized forces; exposure to large-scale logistical requirements during these games combined with his previous experiences from the First World War prepared him for his next assignment, commander of the I Armored Corps and the Desert Training Center.

      Immediately after the attack on Pearl Harbor, Patton again faced the daunting task of training, leading, and sustaining combat forces in the field.  Equipping an 8 million-man force, the US Army would continue facing materiel and personnel shortages during the first months of the war.  PattonÂ’s selection as the I Armored Corps commander at Fort Benning, Georgia in late December 1941, he, and his staff, faced the basic shortages still afflicting a rapidly expanding American Army.  Then First Lieutenant Porter B. Williamson (the previously mentioned assistant G-4 from Carolina) described his issued gear; “I rolled my bedding roll and strapped on my empty pistol holster.  This was my full pack!  No rifle, no ammunition, no canteen, almost nothing required to have a full military pack for a soldier.”23  Service troops were in short supply as well.  At the beginning of World War II:

Only 11 percent of the Army consisted of service troops, compared to 34 percent at the end of World War I.  The unrealistically low ratio of service troops to combat troops made itself felt at onceÂ…few trained service troops were available for overseas duty; and service troops, beyond all others, were required in the early phases of the war.  It was imperative that they prepare depots, receive equipment and supplies, and establish the essential services for combat troops.24   

Tables of Organization and Equipment had to be “fleshed out” according to priorities set at the highest levels of the Army and U. S. government.  Munitions were centrally controlled and a combined Anglo-American Board oversaw distribution.  Other classes of supply operated via decentralized procedures and within a wholesale logistical operation, “to free the flow of supply from the erratic pace of day-to-day demand, in order to gain flexibility in the use of transport, storage, and handling facilities.”25  These initial efforts severely affected the training and establishment of air and ground forces early in the war.  The Army Inspector General reported in July 1942, “that lack of spare parts was accounting for from two thirds to three fourths of the disabilities among vehicles in the United States.”26  Even with these logistical difficulties, PattonÂ’s I Armored Corps arrived within 60 days at the Desert Training Center and in March 1942, training of the first forces to meet the Wehrmacht began.

      Encompassing an area approximately the size of Pennsylvania, the Desert Training Center was a post established with a minimum of higher headquarters logistical support.  Establishing bivouac, range, and other associated training areas taxed the existing staff officers to the limit.  Newly arrived troops detrained improperly uniformed, and encountered shortages in equipment, tools, and supplies.  Personal hygiene relied on G. I. issue steel helmets for washing hands, shaving, and bathing until at PattonÂ’s direction Army quartermasters contracted with a San Bernadino Sears and Roebuck store to supply enough washbasins for the expanding number of troops.  Mindful of troop morale in the hot and dusty climate, Patton ensured running water, latrines, and showers outfitted the post within 30 days.  Testing valuable lessons learned from the 1941 maneuvers, combat commands replaced brigades and division trains used to provide logistics and personnel were introduced as well.  Establishing COMZs complete with airfields, railheads, and a road network afforded quartermaster units combined training with their ground force counterparts.  Newly assigned ground and service staff officers too had the opportunities to train with their opposite number in both the employment and sustainment of large units.  PattonÂ’s efforts at the Desert Training Center would not only prepare forces for the upcoming North Africa invasion, but also ensured that an additional 20 divisions received large-scale unit training until the Spring of 1944. 

Operation TORCH

      On 8 November 1942, the first ever Anglo-American amphibious invasion landed three separate task forces and quickly seized key parts of French North Africa.  Once ashore, troops linked up with the westward advancing British Eighth Army, ultimately forcing the Afrika Korps off the continent.  Five months of hard fighting against RommelÂ’s desert veterans awaited inexperienced American troops.  Quartermasters too encountered difficult conditions but garnered valuable logistics “seasoning” applicable to future operations; especially Operation OVERLORD, the invasion of Normandy.

      From the beginning, TORCH faced logistical hurdles, including inexperienced Combat Service Support (CSS) troops and ill-trained staff officers.  An operation of this scope and size had never been attempted, with American planners facing competing demands for shipping and equipment.  Convoy size was limited due to escort availability and thereby decreased the number of vehicles available for operations once ashore.  Forces were also staged from the United States and Great Britain, complicating an already complex coordination cycle.  Merchant ships were loaded based on expediency or peacetime practices, ignoring the immediate requirements of combat forces.  Poor supply marking and record keeping resulted in duplicate orders of Class II and IV supplies.  CSS troops exercised sloppy blackout, concealment, camouflage, and dispersal and truck convoy procedures, which added, further losses to an already diminished truck fleet.  American infantrymen used to riding into battle “soon realized that a truck or vehicle in North Africa was worth ten times its value in the United States, and must not be abandoned until there was no hope of recovery.”27  After the poor employment of American combat arms at Kasserine Pass and continuing logistical deficiencies, TORCH commander Lieutenant General Dwight D. Eisenhower, replaced the corps commander Major General Lloyd R. Fredendall with Patton.  The latterÂ’s “buoyant leadership and strict insistence upon discipline rapidly rejuvenated the II Corps and brought it up to a fighting pitch”28Â-just in time for the pivotal battle at Al-Guettar.

      The Patton trademark of infusing a fighting spirit into all his soldiers including the CSS elements proved instrumental during Al-Guettar.  Patton biographer Blumenson captures both his attention to fighting and commitment to logistics: “He [Patton] had to be ruthless, for he had only eleven days to shake his troops out of slovenly habits and into a state of alertness.  At the same time he expedited the arrival of new equipment, clothing, and mail.  He improved living conditions by insisting on better food and well-cooked meals.”29  Observing the poor state of many of his soldierÂ’s footwear, Patton requested the immediate requisition and delivery of 80,000 pairs of boots, with most arriving within 24 hours.  PattonÂ’s attention to both warfighting and logistical issues proved decisive at Al-Guettar, but more importantly, the battle reinforced his keen understanding of both combat and sustainment.  The battle also provided American ground and service forces valuable logistics lessons as well.  Innovations such as the use of mules to move supplies, establishing forward supply points, evacuating damaged vehicles in the far forward combat areas, and thinking as soldiers first then as logisticians greatly enhanced the logistics capability within PattonÂ’s divisions and throughout his II Corps.

      Haphazard at first, the North African campaign reaffirmed American reliance on the weight of materiel as opposed to manpower.  The official Army Historian James A. Huston noted:

The invasion of North Africa was a graduate school in logistics when too many officers had not yet completed elementary school in that subject, but on the whole the officers learned their lessons well.  More importantly, “the operation impressed upon everyone a fact they already knewÂ…the necessity for close co-ordination between tactical and logistical planning.  The invasion served as a proving ground for developing data for supply replenishment, for service troops, for troop replacements, for casualty estimates, and for amphibious assault planning and support.30   

Now assigned to lead the Seventh Army, Patton and the quartermasters would apply the hard earned lessons of the North African campaign against enemy forces on the island of Sicily.

Operation HUSKY

      Leading an army of over 160,000, Patton along with Field Marshal Bernard L. MontgomeryÂ’s Eighth Army began the invasion of Sicily on 10 July 1943.  In many respects HUSKY was a rehearsal for OVERLORD.  Improved and in-depth logistical planning prior to the invasion, better equipment, and tested logisticians accompanied the assault elements.  In addition, the invasion convoys originated within theater; easing coordination, command, and control of numerous ships and assault craft prior.  The invasion would “also be a landmark in the development of amphibious logistics support, both in far-shore organization and equipment.”31

      Lacking adequate seaports and reliance on over-the-shore resupply, Patton hoped recently developed equipment would improve logistical sustainment.  The new amphibious truck known as the DUKW or “duck” received its baptism of fire and performed magnificently.  In Logistical Support of the Armies, Volume I, Dr. Ruppenthal describes the crucial role DUKWÂ’s played in Sicily and their impact on subsequent amphibious operations:

The amphibians were used for many purposes, including some not intended.  They carried stores far inland to forward dumps, evacuated casualties and prisoners, and in at least one emergency were used to transfer a Ranger battalion to meet a sudden enemy counterattackÂ…but they demonstrated their usefulness in a hundred ways and proved themselves one of the most valuable “weapons” in the Allied arsenal.  From HUSKY on no landing operation was to be attempted without them.32   

Additional logistics lessons learned from TORCH, included “perfecting the methods of moving supply over the assault beaches, of decreasing the soldier’s load, of weighing and balancing Quartermaster troops lists, and of using new Quartermaster packaging, crating, loading and marking techniques,”33 were incorporated into the Sicily campaign.

      Improving immediate availability of POL, water, and rations during the initial landing a palletized load (unit load) was introduced during HUSKY.  Unit loads were, “water and gasoline packaged in 5-gallon cans, with 56 cans on each pallet; oil, in boxes of 24 quart cans, 30 boxes per pallet; and 5-in-1 rations in boxes, 60 fiber boxes per pallet and varied in weight from two to three thousand pounds.”34  Upon delivery to the assault area (usually by a DUKW), the pallet would be torn down, contents distributed for consumption, and the platform used to move nonpalletized materiel.  Another item used for the first time during the Sicily campaign was the assault pack.  Containing individual equipment for one soldier, these haversacks weighed fifty pounds and combined items ranging from clothing, rations, and cigarettes to toilet paper.  For every 100 soldiers assaulting the beach, five assault packs were authorized.  Equipment and new materiel resupply methods proved valuable, and the increasingly experienced logisticians and their staffs were proving their flexibility during combat operations. 

      Incorporating another lesson learned from the Tunisian campaign, a third echelon (supply) was established.  Located not far from the forward battle areas, the G-4 commanded the assigned six sections.  These logisticians were better able to monitor, forecast, and adapt logistics support as necessary.  Ordnance, maintenance and medical evacuation improved when the corps G-4 staffs assumed these responsibilities from the army level G-4.  However, by D+ 13 and with stiffening enemy resistance, the divisions and corps troops had outrun their supply lines.  To deal with this problem corps and army level G-3 and G-4 staffs quickly met and cobbled together a temporary solution to maintain the flow of fuel, ammunition, and other supplies.  From this the forerunner of the famed “Red Ball” express debuted during the Sicily campaign.  Merging both corps and army level transportation units and executing round trips covering up to 200 miles, the logisticians were able to resupply forward ammunition, fuel, and supply transfer points and keep the Seventh Army on the march.  With adequate logistical support, Patton continued advancing against collapsing German resistance and liberated the final stronghold of Messina just ahead of MontgomeryÂ’s Eighth Army. 

      Both the Tunisian and Sicily campaigns highlighted PattonÂ’s skill at rapidly moving his forces and logistics to sustain them in order to engage and defeat the enemy.  In his book Crusade in Europe, Eisenhower praises PattonÂ’s mobility: “Speed requires training, fitness, confidence, morale, suitable transport, and skillful leadership.  Patton employed these tactics relentlessly, and thus not only minimized casualties but shook the whole Italian Government so forcibly that Mussolini toppled from his position in late July.”35  Also in a letter to Marshall, Eisenhower praised PattonÂ’s “native shrewdness about logisticsÂ…and as a truly aggressive commander with brains.”36  PattonÂ’s combat and logistics units plus his staff elements constantly improved their abilities to fight and sustain their formations in the tactical environment.  Now with the invasion of Europe quickly approaching, the logistics lessons learned from the Tunisian and Sicilian operations would be put to good useÂ-as well as Patton and his Third Army.

Third Army Prepares for France

      On 22 Jan 1944, Patton received word of his selection to lead the Third Army.  Planned as an exploiting element once the initial lodgment had been established ashore in Normandy, the Third Army barely existed as a fighting force.  With many of the divisions untried and staff echelons inexperienced, Patton again had to start from scratch and mold his army into a “hell on wheels” outfit.  Luckily, he was able to keep his principal Seventh Army staff officers including his G-4, Walter J. Muller, who “functioned with such efficiency that Patton rarely inquired into his methods.”37  With operations in France expected to last considerably longer than PattonÂ’s two previous campaigns (Tunisia and Sicily at 30 and 38 days respectively), the Third Army had to quickly plan and prepare for logistics support on a much larger scale.

      In mid-March, Patton greeted the remainder of his staff officers at Peover Hall near Knutsford, England to outline his plans for bringing Third Army up to fighting shape in the few remaining months before its commitment to combat.  Finding suitable maneuver areas and planning training regimens were at the top of the list, but the whole gamut of logistics occupied the staff as well.  Preliminary efforts focused on identifying new equipment requirements and requisitioning authorized TO&E.  American divisions arriving in the United Kingdom possessed their personal kit and a few limited equipment items, but required “marrying up” with previously shipped gear.  This ensured units received the latest in field equipment.  Additionally, the Signal Section identified required radio nets, mapped circuits and obtained applicable supplies.  The Engineers busily conducted “analyses of bridge requirements, road studies, traffic circulation plans, computation of supply requirements, and survey and mapping plans.”38  Patton even read The Norman Conquest by Edward A. Freeman, “paying particular attention to the roads William the Conqueror used in his operations in Normandy and Brittany.”39  In addition, the need to address the ongoing Quartermaster Troop shortage to support operations haunted initial planning. According to Colonel Everett Busch, Third Army Quartermaster General, “this question was the most difficult in many respects of any encountered during the preliminary phase.”40  It also underscored the strategic and operational concerns logistics was playing in EuropeÂ’s liberation and indirectly the combat ability of Third Army.  Nowhere was this more evident than PattonÂ’s role in Operation BODYGUARD

      Besides leading the Third Army, Patton also “commanded” the fictitious First U. S. Army Group (FUSAG).  As part of the FORTITUDE SOUTH component of BODYGUARD, Patton and FUSAG were created to deceive German intelligence into believing the Pas de Calais would be the actual landing areas for D-Day.  The German High Command (OKW) determined Patton would lead the invasion force and his billeting in Southeastern England plus the combination of real and fake units added to the deception.  Adding to the plausibility were both Allied and German strategic and operations logistics concerns:

What made the story particularly believable to OKW was the terrain associated with the Pas de Calais.  It was the closest to England, providing the shortest invasion route.  It provided the most direct route to the Ruhr, the industrial heart of Germany and the anticipated objective of any invasion.  The area boasted an excellent road and rail network to the interior and finally the port of Le Havre, France, would provide the Allies with a superb facility to sustain any drive on the continent.41   

Patton and FUSAG kept up “appearances” even after the invasion.  Deception operations continued until the first week in August, but with PattonÂ’s quiet deployment to France on 4 July, BODYGUARD continued to diminish in effectiveness.  Trading his comfortable English manor for a canvas tent in a Norman orchard, Patton prepared to activate his headquarters known as “Lucky Forward.”  En route, or already in France, were five hundred units of the Third Army awaiting orders to attack.

Race to the Siegfried Line

      Officially activated on 1 August 1944 (but not publicly acknowledged until 15 August), Third Army spent the preceding two months transiting from England, bivouacking within the narrow Cotentin Peninsula, and scrounging available Class I, III, and V supplies.  Colonel Muller and the remainder of his small G-4 staff (nineteen officers, three warrant officers, and forty enlisted men) began the campaign “adapting and improvising” to an ever-changing logistics situation.  First, almost all supplies were still arriving at Omaha and Utah beaches instead of the anticipated Cherbourg port, causing substantial problems in distribution and storage.  Initial tonnages delivered approached planned figures, but due to a heavy gale (19-22 June) and damage to the MULBERRY artificial harbors, the logistics buildup schedule fell behind.  Eventually only the British MULBERRY remained in operation.  Secondly, Montgomery requested a faster buildup of combat forces with a proportionate delay in their accompanying service and support troops.  With more “tooth” and less “tail,” “some shortages occurred in supplies, but with the exception of artillery ammunition these were not serious because casualties and materiel consumption were less than anticipated.”42  Thirdly, the planned COMZ organizational structure did not become operational as scheduled.  The Advance Section Communications Zone (ADSEC) was present in France, but Colonel Busch was concerned that there was “no opportunity for a warming up, smoothing out period either for Third ArmyÂ’s Quartermaster section or ADSEC...”43  Finally, rapid changes in the strategic and operational situation would play havoc as the Third Army roared through Avranches, Brittany and across France to the Siegfried Line.

      Operation COBRA and the breakout from Normandy brought Patton and his Third Army finally into action.  The rapid rate of march and overwhelming of enemy forces, immediately affected ADSEC and COMZs ability to supply PattonÂ’s voracious appetite for fuel and other supplies.  Eminent British historian John Keegan describes the initial breakout through Avranches and PattonÂ’s logistical common sense:

Sending clusters of senior officers out to the feeder routes which led to it with orders to keep the vehicles rolling without regard for strict sequence of units; at the other end, the bunched columns were unscrambled by the simple means of marking each of the roads which fanned from it for a separated division.  In this way, which defied every rule of staff college logistics, his seven divisions were got into the new theater of operations in seventy-two hours.44 

Keeping pace to support Patton and Lieutenant General Courtney HodgesÂ’ First Army, ADSEC moved forward three times in as many weeks.  However, as the administrative elements moved forward, accompanying depots and supply points could not keep pace.  At the end of August, “90 to 95 percent of continental supplies still lay on the beaches, 300 miles behind the army dumps.”45  With enemy forces retreating towards Paris or French ports still under German control, Twelfth Army Group commander, Lieutenant General Omar Bradley changed PattonÂ’s original battle plan to reflect a quick drive towards the Seine, and not the all-out effort mopping up resistance throughout the Brittany Peninsula.  Splitting the Third Army in two, only the VIII Corps remained behind to secure Brest and St. Malo and their accompanying port facilities.  This partition furthered strained resupply efforts within Third Army and the remainder of Allied Forces in France.

      During August 1944, supply support for Major General Troy MiddletonÂ’s VIII Corps emphasized not only the adaptability and dedication of the quartermaster corps, but also the impending logistical difficulties Patton would face as he approached the German frontier.  As a tactical headquarters, MiddletonÂ’s VIII Corps assumed many administrative and tactical responsibilities normally associated with higher echelons.  William M. King of the 44th Armored Infantry Battalion, 6th Armored Division described the logistical situation during the breakout:

Supplies were secured on the basis of expediencyÂ…permanent supply dumps were out of the question because the breakthrough had never stopped.  Within a couple of days [we] were passing out rations like Santa Clause on his sleigh, with both giver and receiver on the moveÂ…The trucks were like a band of stage-coaches making a run through Indian country.  We got used to keeping the wheels rolling, disregarding the snipers, and hoping we wouldnÂ’t get lost or hit.46 

The quartermasters certainly could perform logistical feats of magic, but the VIII Corps attack revealed “the normal difficulty of satisfying even the minimum requirements in a period when the logistic organization is over-taxed by the pressure of pursuit operations.”47  Shortages in all supply classes, especially ammunition, afflicted the VIII Corps throughout the 40-day operation. These limitations were not only due to an allocation problem, but a shortage of available transportation throughout France proved the limiting factor. 

      As Patton continued focusing his main energies eastward towards Germany, Third Army quartermasters struggled to keep his spearheads fueled and supplied.  Just six days into battle, the Third Army daily combat diary recorded that “supply lines were lengthening rapidly and putting a strain on the truck companies.”48  Dipping into emergency ration reserves began almost immediately, with corresponding “acquisition” (also known as stealing or liberating) of available fuel stocks from other units.  The advance moved so rapidly, that communication wire soon was in short supply as were medical supplies.  Third Army G-4 requested additional truck companies and aviation groups to increase medical evacuation and resupply efforts.  In late August, over 1,000 aircraft delivered rations and fuel to PattonÂ’s forward elementsÂ-averting a complete halt for a few more days.  Captured German food, medical supplies, POL, and communications wire were also reallocated for immediate use.  Eventually, German POWs contributed to the repair and refurbishment of materiel.  At Depot Q-256 near Reims, France, the commanding officer Colonel Albert Barden formed “an elaborate German officer staff, which handled practically all details of POW administration, both in the prison compound and in the shopsÂ…Incidentally, one couldnÂ’t ask for better personnel.”49  Significant amounts of materiel were repaired and the workload continued increasing up until the German surrender.  “At the close of 1944, the depot had processed nine million items and in March 1945 was handling 160,000 pieces per day.”50  Host nation support played an important role as well.  French rail lines were used but due to significant damage caused by the pre-invasion interdiction campaign and French underground sabotage efforts, supply tonnage transported was small when compared to that delivered by truck (up until October 1944).  The reopening of mines, industrial shops for repair and reclamation efforts, plus the supply of limited food stuffs supported Third Army efforts; especially in the Civil Affairs arena.  With the Third Army and other Allied armies rapidly approaching the German frontier, COMZ logisticians endeavored to keep all Allied Forces fed, fueled, and armed, but faced a continuing shortage of trucks and misplaced allocation priorities.  COMZÂ’s answer to expedite supply deliveries would be the Red Ball Express.

      Activated on 25 August 1944, the Red Ball Express was intended as a temporary measure to keep the American First and Third armies supplied across ever-widening LOCs originating in Normandy.  The Express relied on 67 Transportation Corps truck companies, vehicles from other combat support units (for example, artillery and anti-aircraft units) and the trucks from three infantry divisions.  At its peak, Red Ball operated 6,000 vehicles and moved 12,000 tons of supplies daily.  A calculated tactical decision by Allied leaders, “the scale of these motorized operations was a complete surprise to the enemy and upset his calculations.”51  Unfortunately, short-term battlefield advantages attributed to the Red Ball brought with them accelerated wear and tear on personnel and equipment plus poor shipment documentation and control.  Driver fatigue contributed to a large number of accidents.  There were also significant increases in malingering and black marketing.  Required truck maintenance suffered as untrained provisional units kept the trucks rolling literally until the wheels fell off the vehicles.  Tire replacement and stockage figures “rose from an average of 29,142 in preceding months to 55,059 in September, and in mid-September 40,000 of that type awaited repair.”52  By mid-September, 135,000 tons of supplies were moved forward but due to haste and inattentiveness much of the materiel delivered was not what the armies had requisitioned.  Poised to enter Germany, Third Army watched its supply situation steadily deteriorate even with the Red Ball ExpressÂ’ Herculean efforts.

      In action for just 30 days, Third Army units had dashed across France, liberated the Brittany Peninsula, seized bridgeheads east of the Meuse River and occupied “forward positions at the phase line set for 2 April 1945 (D+300).”53  With the Rhine River just over 100 miles distant, Patton now had to halt his “cavalry,” and watch his supplies and fuel dry up.  German units were able to reorganize within the Siegfried Line or withdrawal for refitting or reconstitution (for the Ardennes Counteroffensive).  Previously accustomed to tactically oriented operations in North Africa and Sicily, Patton now had to compete for logistics with other Allied armies and within the context of General EisenhowerÂ’s overall strategic plan.  The strategic situation in early September mandated logistics support towards the upcoming MARKET-GARDEN operation in HollandÂ-especially gasoline and cargo aircraft.  Operationally, HodgesÂ’ American First Army received the lionÂ’s share of what limited supplies trickled in via the Red Ball Express to support an impending drive to the Rhine and MontgomeryÂ’s Holland venture.  At least 14,000 tons of supplies per day were required to support both the First and Third Armies though the amount arriving barely approached 7,000 tons; with two-thirds going to HodgesÂ’ troops.  Civil affairs requirements also affected COMZÂ’s logistical flow to the Allied armies.  German occupied territory was liberated at a much faster rate than envisioned in the original OVERLORD plan; causing reallocation of supplies and POL originally destined for front line forces.  Twelfth Army Group chief of civil affairs “found that the French capital needed 2,400 tons of supplies daily and proposed that they be brought in by air.”54  This further diversion of aircraft occurred at the same time as Third Army gasoline deliveries halted in late August.  Unable to advance, PattonÂ’s troops paused to regroup, conduct limited operations in the Lorraine Valley, and prepare for the eventual invasion of Germany.

The Lorraine Campaign

      At the bottom of the supply priority list from September to November 1944, the Third Army could only mount infantry assaults against the Metz fortifications and other local German strong points.  Continually plagued by fuel, munitions, and other supply shortages, PattonÂ’s logisticians pulled every rabbit out of the hat to sustain the troops.  Patton did authorize “three-day passes for those soldiers who could steal the most gasoline drums, full or emptyÂ-American or enemy,”55 but his forces actually relied more on strict rationing of fuel and ammunition.  A gasoline rationing board consisting of one officer and three enlisted men determined a daily allotment of “five thousand gallons for the infantry divisions; twenty-five thousand gallons for the armored formations; ten thousand gallons for the corps troops, and eighty-four thousand gallons for the Army troops.”56  Military policemen were kept busy “apprehending jeeps and command cars without authorized trip tickets.”57  Third Army artillerymen “stressed observed fires and held unobserved fires to a minimum to conserve ammunition.”58  Even liaison aircraft were used to curtail enemy fire.  German artillery refrained from firing when spotter planes were airborne, thus minimizing American counter battery fire.  Adapting these aircraft to a combat support role, “liaison pilots of the 80th Division artillery, dropped over 20,000 rounds of small arms ammunition to the 3rd Battalion, 318th Infantry, isolated for three days near St. Genivieve, France.”59  PattonÂ’s quartermasters also used enemy parts and equipment to assist with maintenance and equipment repair and to provide additional mobility.

      Due to the static tactical situation, units were now able to forward reports of captured enemy materiel.  Obtaining a warehouse in Nancy, the Third Army QM “organized a captured enemy materiel guard and inventory detail within his Field Service Section.”60 Materiel inventories were circulated to all QM sections, technical services, and staff directors.  A veritable treasure trove for ordnance and maintenance personnel, items such as “14,000 German spark plugs were modified to refurbish Sherman tank engines and many German motorcycles were rebuilt with captured spare parts and reissued to U.S. troops.”61  The unexpected respite also provided time to prepare for winter campaigning and the impending invasion of Germany.

      Preparing for the expected cold and rainy European winter, Colonel Muller initiated winter clothing requisitions and pre-staging of Bailey bridging sets to prepare for the eventual crossings of German rivers.  Always concerned about the welfare of his troops, Patton raised his ire when he learned rubber overshoes were issued on a one pair for four men basisÂ-“complaining bitterly until a more reasonable issue was established.”62  He also wanted plenty of bridging available to quickly get his troops across the icy and rain swollen rivers.  Bailey bridges built during the pell-mell dash across France were disassembled and restaged forward in camouflaged positions, ready for immediate placement.  Though he was obviously anxious to get moving again, these three months of limited operations allowed Patton to refit weary troops, reconstitute available equipment, and buildup supply reserves.

      Many of the Allied armies on the go since D-Day were still engaged in heavy combat while Third Army conducted limited attacks in the Lorraine Valley.  Able to “stand fast” in one location for a brief period, Patton did not allow a “garrison” mentality to develop.  Along with the November attack against Metz, robust patrolling occurred when logistically feasible.  Husbanding of supplies, ordnance repair, additional training, and rest were the order of the day.  New railheads at Nancy, Chambley, Belleville, Dieulouard, Barancourt, Trieux, and Audun-le-Roman greatly improved daily delivery and establishment of supply dumps.  Tanks ridden hard since fighting began received long overdue maintenance; however, units such as the 4th Armored Division were continually kept in the line.  Ordnance and maintenance repair facilities were established or located in French and Belgian factories, greatly increasing efficiency and morale of the overburdened maintainers.  Equipment modifications such as welding additional tank armor or installing extended end connectors or “duck bills” on the treads of medium tanks improved both the protection and traction on mud and soft terrain.  Approximately 1 million of the plates were constructed in forty plants located near Paris and the Liege-Charleroi area.  Additional training for the impending West Wall assault, or attending a new floating Bailey bridge school occupied many Third Army troops.  Patton too could be seen “everywhere in his army area addressing his troops and radiating optimism.”63  Guaranteed mail deliveries, hot chow and showers, plus liberal distribution of passes and unit rotations out of the line all contributed to high morale despite miserable weather.  After capturing Metz on 13 December and with the logistics tail catching up with the frontline forces, Eisenhower gave Patton the go ahead to conduct a breakthrough to the Rhine River scheduled for 19 December.  Third Army forces were ready to get back on the move.  Fortunately for the Allies, Patton and his staff were prepared for other contingenciesÂ-such as the Ardennes Counteroffensive.

Battle of the Bulge

 Many in the Allied high command were caught off guard when German forces smashed into the thinly held Ardennes sector on the morning of 16 December.  Patton and his G-2, Colonel Oscar W. Koch, were not.  Anticipating an attack on 12 December, Patton directed “his Staff to make a study of what the Third Army would do if called upon to counterattack such a break-through.”64  Colonel Koch even sent a report to SHAEF on 13 December “warning of the continuing buildup of German forces east of First ArmyÂ’s VIII Corps area.”65  Third Army Staff members, especially the G-4 and other logistics related sections prepared to reorient the entire army 90 degrees, move it over 100 miles in the middle of winter in a period of 72 hours, and then attack with three divisions in the lead.  At the 19 December senior staff meeting at Verdun, Patton briefed Eisenhower, Bradley and other major Allied officers on his general plan of attack.  PattonÂ’s aide Colonel Charles R. Codman described the reaction from those present, “There was a stir, a shuffling of feet, as those present straightened up in their chairs.  In some faces skepticism.  But through the room the current of excitement leaped like a flame.”66  PattonÂ’s army and logisticians would now “be responsible for a major effort to knife into the German southern flank.”67

      Quickly preparing for the planned 23 December attack, Third Army quartermasters and transporters focused their initial efforts towards the vital road hub of Bastogne.  Colonel Busch, described the supply redeployment:

Longwy, France was selected from the map as the Quartermaster transfer point because of its good rail connections with Verdun and points in the new area, and by 182030 December, after a conference of the Quartermaster staff, the plan of supply was settled.  It was arranged by telephone to load rations aboard cars at Verdun and to have a locomotive ready, to load 100,000 gallons of gasoline aboard Army trucks at Briey and Manicieulles; and to alert railhead, gasoline and service troops at Supply Point Number 57, Koenigsmacker (near Thionville).  Officers were sent in jeeps with orders to lead and accompany the supplies and service units to the railway station at Longwy. 

The operations officer was to proceed from Nancy to Longwy, approximately 100 miles and take charge.  The operations officer arrived at Longwy at 190900, the rations from Verdun and the gasoline from Briey and Mancieulles arrived between 0900 and 0930 and the service units a few minutes later.  At 190945 the Quartermasters of the two leading divisions reported and before 1000 hours were drawing supplies.  This switch, concluded in less than fourteen hours, was blessed by an extraordinary amount of good luck.68 

Transportation sections were busy moving 11,800 vehicles over four troop movement routes “even though vehicles encountered a landslide, a weakened bridge, enemy bombing and strafing, and several wrecks which caused a number of detours.”69  Attacks still commenced as scheduled. In just three days elements of the 37th Tank Battalion, 4th Armored Division reached the beleaguered Bastogne garrison allowing much needed resupply and medical evacuations.  Described by PattonÂ’s superior, Bradley as “one of the most astonishing feats of generalship of our campaign in the West,” 70 Third ArmyÂ’s swift attack hit the rear echelons of the still advancing panzer spearheads, further weakening the German attack and ultimately preparing the battlefield for an Allied counterattack in early 1945.

      The Battle of the Bulge highlighted the agility and skill of the Allied logistics system and individual logistician.  The entire COMZ endeavored to sustain Allied forces by rapidly relocating supply and fuel dumps or forwarding critical items to the front.  Third Army ammunition trains moved an average of 4,500 tons of ammunition per day during the last half of December and consumed on the average, only 3,500 tons per day.  American fuel captured and used by enemy forces equaled no more than 100,000 gallons, but fuel successfully evacuated during the chaotic 17-19 December 1944 period equaled three million gallons.  Third Army requested fifty thousand yards of white muslin to fashion white tunics as winter camouflage.  COMZ did not have the material available but instead provided five thousand mattress covers which yielded ten thousand white snowsuits.  Though successful in almost all areas, quartermasters faced continuing problems providing effective winter footwear to American G.I.s.  Many of the overshoes issued to troops were discarded due to poor traction or a decrease in foot speed or worn without combat boots; substituting them with “cardboard insoles or Dutch felt slippers or in some cases several thicknesses of blanket.”71  Even with these field expedients, trench foot and frostbite cases would hospitalize “44,728 men by the end of April 1945.”72 

On to the Rhine

      Officially, the Battle of the Bulge concluded on 28 January 1945.  Again able to refocus on offensive operations, Patton continued pushing his forces eastward towards the Rhine.  Facing tough winter weather and favorable defensive geography, his Third Army endeavored to reach the Rhine first, only to be beaten by HodgesÂ’ First Army at the Ludendorff Bridge near the town of Remagen on 7 March.  Vigorously pursuing enemy forces, Patton linked up with Hodges by 11 March and began preparations to conduct the first assault crossings of the Rhine in modern history.

      Extensive logistical support as well as improvisation were crucial to continuing Third Army successes leading up to the Rhine crossing.  Restored rail lines and shorter truck hauling distances initially kept Third Army units well supplied.  As operations proceeded deeper into Germany, truck transit distances approached those of late August 1944, though German autobahns lessened actual delivery times.  Air Transport Service aircraft kept PattonÂ’s spearheads rolling with “approximately twenty-five percent of the gasoline provided by air.”73  Mobile tire repair teams also kept the Third Army on the move.  Patrolling all main and auxiliary supply routes, these teams “were equipped with hot patches, tubes, tires and air compressors.  When wheels were available, tires and tubes were premounted for direct exchange.”74  In addition, preplanned priority deliveries of bridging, pontoons, and treadways as well as the requisite buildup of supplies and POL preceded the planned 22 March 1945 Rhine assault.  Patton even considered mustering all Third Army L-5 liaison aircraft, “each carrying one infantryman, and making several trips an hourÂ…to transport several regiments over the river and behind the enemy fortifications.”75  After G-2 determined minimal opposition could be expected the ambitious air assault plan was dropped in favor of the planned river crossing.  Without a preparatory artillery bombardment, the 5th Infantry Division (XII Corps) crossed the Rhine at Oppenheim, ten miles south of Mainz.  So complete were Third Army Staff and quartermaster preparations that “within 36 hours of the initial crossing, a treadway and pontoon bridge had been erected, and by the 24th both the 26th Infantry and 6th Armored Divisions had crossed into the bridgehead area.”76  Encountering light and confused resistance, PattonÂ’s Third Army continued mopping up German forces east of the Rhine.  With the First Army wheeling left to seal off the Ruhr pocket, Eisenhower directed the Third Army towards the “National Redoubt” in the Bavarian Alps to prevent possible Nazi guerilla attacks and then onto the partial occupation of Czechoslovakia.  Patton and his beloved Third Army would not lead the final attack on Berlin.

Lessons for TodayÂ’s Joint Logistician

      An examination of both PattonÂ’s career and Third Army operations during 1944-45 provides many lessons for todayÂ’s joint logistician.  First was PattonÂ’s extraordinary knowledge of military history.  Studying the campaigns of Alexander, Caesar, and Napoleon provided Patton with more than lessons in leadership and commandÂ-their successes as great commanders relied on logistical prowess.  Today commanders and their joint logisticians too must maintain secure lines of communication, husband resources before campaigning, and rapidly reconstitute forces after battle to ensure continued success in the modern battlespace, although at a much faster pace and with considerably less resources available.  Applying a robust study regimen similar to that practiced by Patton is still practical in the twenty-first century.  Road networks, seaports, and topography have changed very little since antiquity (for example, both the Greeks/Spartans in 480 BC and British forces in 1941 defended the Thermopylae Pass) and understanding previous campaigns will greatly assist both the joint force commander and the joint logistician. 

      PattonÂ’s exposure to the beginnings of both motorization and mechanization did not change his approach to warfare but did increase the ability to sustain his forces.  A dominant figure in the evolution of armored warfare, he employed military forces successfully because of his ability to logistically support them over longer distances and at a much faster rate.  As the services “transform” to fight in the twenty-first century battlespace, commanders too will witness continual technological improvements in mobility, weapons platforms, and precision ordnance; however, mission accomplishment will depend upon their abilities to logistically sustain expeditionary forces.  With many overseas posts closed and “mountains of materiel” no longer available to maintain forces in combat, deployed units will be tethered to CONUS based lines of communication.  Joint logisticians will have to explore, adopt, and adapt current and future technology to assure timely and adequate support over much greater distances.

      Third ArmyÂ’s style of fighting mirrors much of Joint Vision 2020Â-especially relating to dominant maneuver, precision engagement, and focused logistics.  Patton relished the breakout, pursuit, and attacking of German forces in August 1944.  Similar to Nathan Bedford ForrestÂ’s cavalry raiding during the American Civil War, PattonÂ’s operations across France during that critical month relied on speed, maneuver and overwhelming strength at the right place to defeat the withdrawing Wehrmacht.  Patton seemed to be echoing ForrestÂ’s “advice associated with his name: ‘Git thar furst with the mostest,Â’ an astute, albeit homey, rewording of JominiÂ’s fundamental principle to be strong at the decisive point.”77  During the Lorraine campaign, Patton relied on his logisticians to maintain limited operations, but more importantly to stockpile resources for an eventual move into greater Germany.  Engaging the panzer spearheads during the Battle of the Bulge, Patton combined dominant maneuver, precision engagement, and focused logistics to move his Third Army into position, attack, and exploit the Allied counterstroke.  By analyzing Third Army operations and understanding PattonÂ’s style of fighting, the joint logistician has an impeccable “playbook” to combine with joint doctrine and ensure support to the warfighter.

      The most important lesson for todayÂ’s joint logistician is to make every effort to properly equip and support each individual soldier, sailor, airman, or marine.  Patton led from both the front and rear.  He strongly demanded additional gasoline and ammunition for his forces; however, requests for dry socks, hot chow, or replacement clothing would be worded in similarly strenuous terms.  Any source of supply was considered and the use of host nation support, local purchase, and enemy prisoners of war augmented the quartermasterÂ’s efforts to refurbish equipment and provide needed clothing.  He also expected his staff officers to spend time “up front” to gauge the battle and see what additional support the troops required.  His logisticians understood the importance of personal items in maintaining morale and overall fighting ability.

      Patton and the accomplishments of the Third Army will continue to be a testament to the bravery and adaptability of the American warrior. Their performance during the European fighting of 1944-45 highlights the central role logistics plays in any military operation.  In addition, PattonÂ’s knowledge of military history, understanding and incorporating the latest technology, employment of combined arms, and his genuine concern for the troops provides logisticians and leaders alike a worthy example to study and emulate.  His adage: “Gentlemen, the officer who doesnÂ’t know his communications and supply, as well as his tactics, is totally useless” is still applicable today, and is valuable advice to all who will fight AmericaÂ’s wars in the twenty-first century. 

 
 
 
 
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