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ARMY RESEARCH LABORATORY —^—
«\4 Special Operations Command and Control Element (SOCCE) Preliminary Analysis of
Equipment and Personnel Requirements for the Digitized Battlefield
Frank J. Malkin Stephen Graybill
ARL-TN-136 APRIL 1999
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Army Research Laboratory Aberdeen Proving Ground, MD 21005-5425
ARL-TN-136 April 1999
Special Operations Command and Control Element (SOCCE) Preliminary Analysis of Equipment and Personnel Requirements for the Digitized Battlefield
Frank J. Malkin Human Research & Engineering Directorate, ARL
Stephen Graybill Deputy Chief of Staff Requirements Integration U.S. Army Special Operations Command
Approved for public release; distribution is unlimited.
Abstract
When Army special operations forces (SOF) operate in conjunction with or close to conventional Army forces, a special operations command and control element (SOCCE) is established to synchronize operations and harmonize actions between the SOF and conventional force elements. A SOCCE is usually co-located with an Army corps tactical operations center (TOC). On the emerging digitized battlefield, the corps TOC will be equipped with the Army Tactical Command and Control System (ATCCS) to provide a seamless flow of tactical information to commanders, corps, and below. A SOCCE will also require an ATCCS capability in order to exchange information with the conventional force and successfully perform its mission. A preliminary mission and task analysis was conducted to assist in identifying initial equipment and personnel requirements for a digitized SOCCE employing ATCCS. The outcome of the analysis indicates that if assumptions regarding SOF message format compatibility with ATCCS software are met, the SOCCE will be able to operate with two maneuver control systems (MCS), which is the integration component of ATCCS. The analysis also indicates that, in addition to the existing operations center, the SOCCE will require a signal center to link the operations center with other headquarters within the electronic battlefield command and control architecture. Personnel augmentation will be necessary to fully staff the SOCCE operations center S2 (intelligence) and S3 (operations) functions for 24-hour operations. Recommendations are that the equipment and personnel requirements identified by this analysis be verified during field training exercises and by simulation and modeling, a van or vehicular mounted shelter configuration be considered to house a SOCCE, and documentation be initiated to establish requirements for a system acquisition program.
ACKNOWLEDGMENTS
CPT John Downey and SFC Donny Lynch, U.S. Army Special Operations Command (USASOC), spent numerous laborious hours with the authors conducting the task analysis
leading to the findings of this report. Dave Durbin and Kate Dettmann, U.S. Army Research Laboratory (ARL), George Person and James Reale, USASOC, provided insightful reviews of the report. Nancy Nicholas (ARL) technically edited and enhanced the quality of the manuscript to
meet publication standards.
HI
CONTENTS
BACKGROUND 3
PURPOSE 3
SPECIAL OPERATIONS COMMAND AND CONTROL ELEMENT (SOCCE) 3
ARMY TACTICAL COMMAND AND CONTROL SYSTEM (ATCCS) 5
ANALYSIS 6
Assumptions 7 Operations Center Analysis 8 Signal Center Analysis 12
SUMMARY AND CONCLUSIONS 14
RECOMMENDATIONS 14
REFERENCES 17
APPENDICES
A. SOCCE Operations Center Tasks, Equipment, and Personnel 19 B. SOCCE Signal Center Tasks and Personnel 35 C. Acronym List 41
DISTRIBUTION LIST 45
REPORT DOCUMENTATION PAGE 51
FIGURE
1. Analytical Process 6
TABLES
1. Operational Detachment B (ODB) 4 2. SOCCE Daily Recurring MCS/P Tasks 10 3. Mission-Dependent Non-Recurring MCS/P Tasks 10
SPECIAL OPERATIONS COMMAND AND CONTROL ELEMENT (SOCCE) PRELIMINARY ANALYSIS OF EQUIPMENT AND PERSONNEL
REQUIREMENTS FOR THE DIGITIZED BATTLEFIELD
BACKGROUND
When Army special operations forces (SOF) operate in conjunction with or close to
conventional Army forces, a special operations command and control element (SOCCE) is
established to synchronize operations and harmonize actions between the SOF and conventional
force elements. Most commonly, a SOCCE is established to support an Army corps and is co-
located with the corps tactical operations center (TOC). On the emerging digitized battlefield,
Corps TOCs will be equipped with the Army Tactical Command and Control System (ATCCS)
to electronically provide a seamless flow of battlefield information to tactical commanders, corps,
and below. To provide timely and effective coordination of operations between SOF and
conventional forces, a SOCCE requires command, control, and communications systems and
digital message formats that are compatible with ATCCS. This is currently not the case. In
response to this need, the U.S. Army Special Operations Command (USASOC) has initiated a
cooperative effort with the Training and Doctrine Command (TRADOC) and acquisition
program managers to work toward SOF compatibility with ATCCS. In conjunction with this
effort, USASOC requested the Human Research and Engineering Directorate of the U.S. Army
Research Laboratory (ARL) to assist in identifying the equipment and personnel requirements
for a SOCCE employed on the digitized battlefield.
PURPOSE
This report describes a preliminary mission and task analysis conducted to assist in
identifying equipment and personnel requirements for a SOCCE using ATCCS on the digitized
battlefield. The outcome of the analysis is discussed and recommendations are provided. The
outcome of the analysis will provide initial data to support the development of concept of
operations and operational requirements document (ORD) for a digitized SOCCE.
SPECIAL OPERATIONS COMMAND AND CONTROL ELEMENT (SOCCE)
A SOCCE is a command and control element that operates in a manner similar to a TOC
(U.S. Army JFK Special Warfare Center and School, 1994). A SOCCE does not perform mission
planning for SOF operational elements, nor does it launch or recover operational elements. These
are functions performed by either a forward operational base (FOB) or a special forces operational
base (SFOB), depending on the tactical situation. A SOCCE does, however, coordinate these
special forces operational base activities as part of its mission to synchronize and harmonize
operations between SOF and conventional forces. SOCCE functions include
1. Keeping higher SOF commander and conventional force commander informed of each
other's current and future operations, intelligence data, fire support coordination measures, unit
locations, communications procedures, and situation status;
2. Planning and coordinating linkup between SOF and the conventional force;
3. Exercising operational control or tactical control of deployed SOF, when tasked by
higher headquarters; and
4. Advising the conventional force commander and staff of the mission capabilities,
limitations, and employment of SOF.
When a decision is made to establish a SOCCE, a special forces Operational Detachment B
(ODB) is tasked to organize and operate the SOCCE. The ODB consists of the personnel shown
in Table 1.
Table 1
Operational Detachment B (ODB)
Grade MOSa
Commander 04 Executive officer 03 Warrant officer W4 Detachment NCOb E9 Operations NCO E8 Communications NCO E7 Assistant operations NCO E6 Medical NCO E6 Communications NCO E6 Supply sergeant E6
18A00 18A00 180AO 18Z50 18Z50 18E40 18B30 18D3D 18E30 92Y3S
aMOS = military occupational specialty ^NCO = noncommissioned officer
When tasked to operate a SOCCE, the ODB may be augmented with an enhanced
communications capability.
ARMY TACTICAL COMMAND AND CONTROL SYSTEM (ATCCS)
As mentioned previously, ATCCS will provide a seamless flow of information to Army
tactical commanders on the digitized battlefield (U.S. Army TRADOC Program Integration
Office, Army Battle Command System, 1 July 1996). Common hardware is used to share data
pertaining to plans, troop movements, re-supply points, and other battlefield information.
ATCCS is comprised of six battlefield automated system products:
1. All-Source Analysis System (ASAS) - The intelligence and electronic warfare (IEW)
component used to plan and analyze intelligence operations and to process intelligence messages
and reports.
2. Forward Area Air Defense Command, Control Communications, and Intelligence
(FAADC3I) - Integrates air defense, fire units, sensors, and C2 centers to defeat low altitude air
threats.
3. Combat Service Support Control System (CSSCS) - The logistics component.
4. Advanced Field Artillery Tactical Data System (AFATDS) - The fire support
component, which coordinates fire support and processes call for fire messages.
5. Maneuver Control System (MCS) - The integration component of ATCCS, which
provides a mapping capability and the common battlefield picture depicting friendly and threat
locations and situational awareness to commanders. Provides a message-handling capability as
well as commercial office tools software.
6. Force XXI Battle Command Brigade and Below (FBCB2) - Distributes information
from above Corps level down to the platform and provides feedback up the chain of command.
An issue for SOF is that in the current stage of development, message formats for one
ATCCS product may not be compatible with another. Among the messages that deployed SOF
commonly sends are intelligence spot reports, calls for fire, and situation reports. The result is
that a SOCCE could conceivably need an ASAS, AFATDS, and MCS to receive and pass SOF
messages to the Corps. The typical SOCCE has neither the physical space nor personnel to
support all three systems.
USASOC intends to develop software that will allow deployed SOF to send digital messages in a format that is compatible with MCS. Also, the Army is initiating efforts toward compatibility of message formats among all ATCCS products. This will permit a SOCCE to receive and forward digitized messages with only one type system, the MCS.
ANALYSIS
In order to identify the equipment and personnel needed to operate a SOCCE on the digitized battlefield, a mission and task analysis was conducted using the process represented in
Figure 1 and described in the following paragraphs.
Figure 1. Analytical process.
Specifically, the analysis addressed the following issues for a digitized SOCCE:
1. How many MCS are required?
2. Is ASAS required for intelligence tasks?
3. What type of command, control, communications, and computers are required?
4. What ancillary equipment is required?
5. What is the MOS and quantity of personnel required?
To answer these questions, the SOCCE was divided into two sections: An operations center staffed by the ODB, which is responsible for performing the SOCCE mission, and a signal center responsible for providing the communications link for SOCCE. A list of tasks performed
within each of the sections was developed for the analysis. Three special forces subject matter
experts (SMEs) (one captain, 18AOO; one CW4,180AO; and one sergeant first class, 18E)
participated in the analysis. The analysis was accomplished by answering the following questions
for each task:
1. What is the purpose of the task?
2. How is the task accomplished (process, equipment)?
3. If information is passed, to whom and how is it passed?
4. How often is the task performed?
5. How much time is required to perform the task?
6. Who accomplishes the task?
7. Is the MOS appropriate?
8. Is the number of assigned personnel adequate?
Assumptions
The following assumptions were made in order to conduct the analysis:
1. The SOCCE is co-located with an Army corps TOC equipped with ATCCS.
2. SOCCE operates 24 hours per day and employs two 12-hour shifts.
3. All messages arriving at a SOCCE from deployed SOF can be reviewed and then, if
required, can be passed to the corps via the MCS.
4. The deployed SOF supported by the SOCCE consists of six special forces
Operational Detachments A (ODA).
5. The FOB or SFOB launches the six ODAs. The ODAs conduct a special reconnaissance
mission and are re-tasked to conduct an ensuing direct action mission. SOCCE coordinates ODA
linkups with conventional forces and at the completion of the mission, coordinates ODA
exfiltration.
Operations Center Analysis
Operations Center Tasks
The list of tasks for the operations center was derived from the draft SOCCE
handbook and a set of SOCCE critical tasks provided by the JFK Special Warfare Center and School. The list includes tasks performed during mission planning before deployment, during deployment, and during operation of the SOCCE. The analysis encompassed the complete list of tasks. The focus and emphasis of the analysis and this report, however, are the tasks performed
by the SOCCE once it is established and operating with the corps TOC.
The matrix in Appendix A was developed to assist in the process of assigning
equipment and staff positions to each task. Blocks with an "X" indicate the corresponding
equipment or staff position assigned each task. Some tasks are performed using multiple items of
equipment or by multiple staff positions. Certain tasks do not require the use of any equipment and are performed by thought processes, face-to-face conversations, or other means.
Operations Center Equipment
The SOCCE equipment requirements were identified by addressing the questions in the analytical process described earlier. The outcome of the analysis indicates that the SOCCE operations center will require the following types of equipment to perform its mission on the digitized battlefield:
1. Office automation hardware and software, for example, a laptop computer with
standard commercial software.
2. Mission planning hardware and software.
3. MCS—message handling, tactical situation awareness map with threat and
friendly force information, Microsoft (MS) Office® software.
4. E-mail capability
5. Secure wide area network (WAN)—wire link between SOCCE and other elements on the digitized battlefield.
6. Secure local area network (LAN)—wire link inside SOCCE.
7. SOCCE communications—radio links.
8. Projection TV
9. Copy machine
10. Facsimile machine
11. Printer
12. Telephones—including secure line capability.
As mentioned earlier, one of the issues addressed by the analysis is whether
ASAS is required to accomplish intelligence tasks. The analysis indicates that an ASAS is not
required in the SOCCE operations center. ASAS is used to conduct intelligence analysis and
planning at the FOB or SFOB or supported conventional force intelligence assets. A SOCCE
does not plan operations to the extent that would justify a need for ASAS. The level of
intelligence information needed at a SOCCE is primarily battlefield situational awareness,
including the status and location of friendly and enemy forces. This information can be obtained
using MCS. Again, the mission of a SOCCE is only to provide command and control to
deployed elements and to synchronize and coordinate SOF operations.
An MCS capability is required for a SOCCE to synchronize and coordinate SOF
and conventional force operations on the digitized battlefield. The analysis identified 32 tasks
requiring the use of MCS, once a SOCCE is established and operating with the corps TOC (see
Appendix A, page 29, Operate SOCCE). In order to determine the number of MCS required, the
frequency of tasks and the time to perform MCS tasks were assessed. Of the 32 tasks, 27 are
recurring and are performed on a daily basis. The five remaining tasks are non-recurring and are
accomplished only during particular phases of the mission. The five non-recurring tasks are (a)
coordinate exfiltration operations, (b) issue fragmentary orders, (c) plan and coordinate link
operations, (d) prepare a synchronization matrix, and (e) coordinate maps.
The three special forces SMEs categorized tasks by staff position and then
estimated the time required to perform each MCS task. The time each staff position performs
daily, recurring MCS tasks during a 12-hour shift, is shown in Table 2. For example, during a
typical 12-hour shift, the S2 spends 8.5 hours on tasks using MCS.
The estimated time to complete each non-recurring task is shown in Table 3. For
example, the time to perform the task of planning and coordinating one linkup operation is 6
hours. With six ODAs deployed, it is conceivable that over the course of the SOCCE mission,
six separate linkup operations could be coordinated. It is important to note, though, that non-
recurring tasks are not normally accomplished within the confines of one 12-hour shift. As
shown in Table 3, the S3 is the primary staff element responsible for performing the non-
recurring tasks.
Table 2
SOCCE Daily Recurring MCS Tasks
Position Hours per 12-hour shift
Commander XO/shift leader SI S2 S3 S4
Total
1 1.5 2.5 8.5 3.5 0.1 17.1
Table 3
Mission-Dependent Non-Recurring MCS Tasks
Position and task Hours per one event
S3: S3 and CMDR: S3: S3: S2andS3:
Coordinate exfiltration Issue fragmentary orders Plan and coordinate linkup Prepare synchronization matrix Coordinate maps, charts, imagery
Total
3 2 6 1 02
12.2
As indicated in Tables 2 and 3, the time spent by the S2 and S3 in performing
MCS tasks justifies each having an MCS. Other staff positions occasionally use MCS. These
positions could share the S2 and S3 systems when needed while relying primarily on laptop
computers to conduct most of their tasks.
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Operations Center Personnel
As mentioned earlier, a SOCCE is staffed by the ODB. In order to identify who
performs each task, it was useful to categorize staff positions by function as well as MOS. Tasks
were assigned to the following staff positions or functions, as appropriate:
Command Group—Commander and Executive Officer
Shift Leaders—Executive Officer and Warrant officer
Sergeant Major—Detachment NCO
SI— Medical NCO
S2—Operations NCO
S3—Operations NCO and Assistant Operations NCO
S4—Supply Sergeant
Communications—Senior Communications NCO and Junior Communications NCO.
The analysis indicates that the ODB does not have sufficient personnel with the
necessary qualifications to staff the S2 and S3 functions for 24-hour SOCCE operations. The S3
function can be performed by either the Operations NCO or the assistant Operations NCO. The
S2 function requires someone who has completed operations and intelligence training that is
currently obtained by attending the Advanced Noncommissioned Officers' Course. Referring to
Table 1, only the detachment NCO and the Operations NCO are qualified to perform S2 functions.
The detachment NCO normally is not available to perform dedicated S2 or S3 functions because of
other responsibilities. The Operations NCO is qualified to perform both S3 an S2 functions.
However, in view of the workload associated with these staff positions as indicated in Tables 2
and 3, time may not always permit the Operations NCO to perform both functions. Therefore,
additional personnel qualified to perform either the S2 or S3 functions are required in order to
provide adequate staffing for 24-hour operations. For example, if we assume that the Operations
NCO and the assistant Operations NCO split the S3 responsibility for each 12-hour shift, then the
ODB will require augmentation of two additional personnel to fulfill the S2 responsibility for each
shift. Personnel augmentation is not a new issue resulting from digitizing the SOCCE. Currently,
when non-digitized SOCCEs are established, the ODB is usually assigned personnel on a
temporary basis to assist in operating a SOCCE. Some units augment the ODB with personnel
from the Military Intelligence Detachment to fulfill the S2 function.
ODB appears to have sufficient personnel to fill the other SOCCE staff positions
for 24-hour operations.
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Signal Center Analysis
Signal Center Tasks
The tasks performed in the signal center were developed by analyzing the mission command, control, and communications requirements. This analysis began with defining the type of information flowing in and out of a SOCCE and identifying the communication nets needed to
provide this information flow on the digitized battlefield.
It was determined that the communication nets and peripheral equipment needed
for a SOCCE are similar to those in the joint base station (JBS) recently developed for SOF. JBS
is a communications shelter designed to serve as a signal center for FOBs and SFOBs (Malkin,
Allender, Kelley, O'Brien, & Graybill, 1997). The list of tasks used in the development of JBS
was adapted and tailored for use in the SOCCE analysis. SOCCE signal center tasks and the
MOSs of the personnel identified to perform those tasks are listed in Appendix B.
Signal Center Equipment
When an ODB is tasked to establish a SOCCE, it is supported with communications systems and personnel to operate the systems. A SOCCE normally shares information and maintains communications links with deployed SOF, FOBs, or SFOBs, the joint task force, and conventional forces. To link with these headquarters on the digitized battlefield, the following communications and computer nets are needed.
1. To net with deployed operational elements, the SOCCE will need the following
communications systems.
a. Two high frequency (HF) nets (secure voice, data, International Morse Code)
b. Two ultra high frequency (UHF) nets (one voice, one data)
c. One very high frequency-frequency modulated (VHF-FM) net (single
channel ground and airborne radio system [SINCGARS])
d. Lightweight video reconnaissance system (LVRS) base station (could be
located either in the signal center or the operations center)
e. One HF low probability of interception/low probability of detection (LPI/LPD) net
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2. The special operations communications assemblage (SOCA) is currently
provided to a SOCCE for communications with the FOB or SFOB. The improved SOCA will be
fielded soon and consists of (a) one HF radio net, and (b) one UHF radio net.
3. The following connectivity is required for a SOCCE to digitally link with the
Army corps TOC and other headquarters within the seamless electronic command and control
architecture:
a. Automation system - joint base station type capability (communication
gateway system [CGS] 100, automated message system [AMS], matrix switch)
b. LAN
c. WAN (access provided by corps TOC)
d. Router—route messages by IP address.
e. Four wires—secure telephone, multiple subscriber equipment (MSE)
Signal Center Personnel
Operators, identified by MOS, were assigned to perform each of the signal center
tasks as shown in Appendix B. SOF has previously identified three radio operator-maintainer 3 lCs
to operate the SOCA kit on a 24-hour basis. In addition to the 31Cs who operate the SOCA kit,
one 31C and one 18E per 12-hour shift will be needed to operate the other SOCCE communications
systems. One information system operator-analyst, 74B, per 12-hour shift will be needed to
perform the automation and network management tasks. Therefore, two 18Es, two 31Cs, and two
74Bs are needed for 24-hour operations employing two 12-hour shifts, not including the SOCA kit
operators. This number of personnel will require supervision. One solution would be for the ODB
communication NCOs to provide staff supervision for the signal center
A SOCCE signal center of the size and with the equipment proposed in this
analysis does not currently exist. Except for the three 31Cs for the SOCA, there is no
organization in place to provide the personnel needed to operate this proposed signal center.
18E, 31C, and 74B personnel are assigned to special forces group headquarters signal
detachments. These personnel are identified to operate the JBS. However, as a result of funding
shortages, the JBS will not be fielded at the group headquarters level. If a decision is made to
develop and field a digitized SOCCE system, group headquarters personnel may be available to
staff the SOCCE signal center.
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SUMMARY AND CONCLUSIONS
Army corps TOCs soon will be equipped with ATCCS. SOCCEs that coordinate battlefield information with Army corps require ATCCS-compatible hardware and software. A
preliminary analysis was conducted to identify initial equipment and personnel requirements for
a future SOCCE using ATCCS on the digitized battlefield.
The outcome of the analysis indicates that if assumptions regarding SOF message format compatibility with ATCCS software are met, the SOCCE can operate with two MCS systems
and an ASAS will not be needed. The MCS systems will be used primarily to support S2 and S3
coordination functions. Using MCS to perform these functions will provide timely and effective
synchronization of SOF and conventional force operations with the goal of harmonizing actions
and avoiding fratricide. ASAS is not needed because a SOCCE does not normally conduct a level
of tactical mission planning and intelligence analysis that requires a capability beyond that
provided by the MCS.
As with current, non-digitized SOCCEs, the ODB will have to be augmented with additional personnel when tasked to operate the digitized SOCCE to staff both the S2 and S3
functions for 24-hour operations.
In order for a SOCCE to link with other headquarters in the command and control architecture of the electronic battlefield, a signal center similar to that of JBS will be required. Staffing for the signal center needs to be resolved. It is suggested that individuals with the appropriate MOS, who are currently assigned to SF group headquarters, be employed to operate
the signal center.
RECOMMENDATIONS
Recommend that the preliminary requirements for equipment and personnel identified in this analysis be validated during SOCCE field training exercises using MCS and through simulation
and modeling. During training exercises, data should be collected about how frequently tasks are performed, the time to perform tasks, the quantity and MOSs of personnel who perform the tasks, and the workload associated with each task. These data could then be placed in a model such as the improved performance research integration tool (IMPRINT) designed to assess levels of soldier and system performance. The model can assist in verifying the appropriateness of assigned personnel and predicting workload associated with operating or maintaining SOCCE equipment.
14
An analysis of how the equipment should be packaged must be completed. The Army is developing a command and control vehicle for use by the corps TOC. As a result, the corps will be highly mobile. The SOCCE will need to be equally mobile. Recommend that vehicular options such
as vans or vehicular mounted shelters be investigated for effective packaging and configuration of the
SOCCE operations and signal centers.
An ORD for a digitized SOCCE system needs to be developed as soon as practical. If SOF and conventional forces are to support each other on the future electronic battlefield, then SOCCE technology must keep pace and be compatible with that of the conventional Army corps TOC.
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REFERENCES
Malkin, F.J., Allender, L.E., Kelley, T.D., O'Brien, P., & Graybill, S.(1997). Joint base station variant 1 MOS-workload-skill requirements analysis (ARL-TR-1441). Aberdeen Proving Ground, MD: U.S. Army Research Laboratory.
U.S. Army JFK Special Warfare Center and School (1 February 1994). Draft special operations command and control element f SOCCER handbook. Fort Bragg, NC: Author.
U.S. Army TRADOC Program Integration Office, Army Battle Command System (1 July 1996). Draft Armv tactical command and control system staff users guide. Fort Leavenworth, KS: Author.
17
APPENDIX A
SOCCE OPERATIONS CENTER TASKS, EQUIPMENT, AND PERSONNEL
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** Acronym List
BN
CCIR
CMDR
COIN
COMMSTAT
CP
CS
CSS
Exfil
FRAGO
GP
GPF
HQ
IAW
ICW
Infil
Intel
IPB
IR
JSOA
LAN
LNO
LOGSTAT
OPLAN
OPSEC
PERSTAT
PIR
POV
SITREP
SOC
SOCOORD
TASOSC
WAN
battalion
commander's critical intelligence requirements
commander
counter insurgency
communications status
command post
combat support
combat service support
exfiltration
fragmentary order
group
general purpose force
headquarters
in accordance with
in coordination with
infiltration
Intelligence
intelligence preparation of the battlefield
intelligence requirements
Joint Special Operations Area
local area network
liaison officer
logistics status
operation order
operations security
personnel status
priority intelligence requirements
privately owned vehicle
situation report
Special Operations Command
Special Operations Coordination Element
Theater Army Special Operations support Command
wide area network
APPENDIX B
SOCCE SIGNAL CENTER TASKS AND PERSONNEL
35
SOCCE SIGNAL CENTER TASKS AND PERSONNEL
Function Task MOS(s) Setup Tasks Shelter Setup Position shelter on site 18E
Set up/install ISOCA radios ISOCA Tm Ground system 18E Connect power cables 31C Set up tent extension 18E,31C,&74B Set up camouflage nets 18E,74C,&74B Run pre-op checks on ECU and generator 31C Power up generator 31C Power up ECU 31C Remote terminal equipment into tent 74B Perform shelter power-up procedures 31C
General System Setup Remote & power up RCCs 74B Erect HF antenna #1 (ISOCA) ISOCA Tm Erect HF antenna #2 18E&31C Erect HF antenna #3 18E&31C Erect HF LPI/D antenna 18E&31C Erect UHF TACSAT antenna #1 (ISOCA) ISOCA Tm Erect UHF TACSAT antenna #2 18E&31C Erect UHF TACSAT antenna #3 18E&31C Erect VHF/FM antenna 18E&31C Install SOCCE LAN 74B Set up/install MCS workstations 74B Perform built-in tests 18E,31C&74B Perform op checks 18E,31C&74B Setup/install LAN & wire interfaces with supported unit 74B&31C
37
Function Task MOS(s) Programming Tasks
Configure CGS 100 Perform station setup 74B Create a configuration set 74B Select routing methods & devices 74B Create RI routing tables 74B Create PLA/RI database 74B Setup networking 74B Create user accounts 74B
Configure Matrix Switch Select input/output connections 74B
Program COMSEC Equipment
Load keying material 18E
Select mode of operation 18E
Configure Audio Monitoring System
Select audio or data mode of operation 18E
Program RCCs 18E Enable/disable RCC functions 18E Configure RCC data port 18E
Program Radio Parameters
Program HF radios 31C
Program UHF TACSAT radios 31C Program VHF/FM radio 31C Program HF LPI/D radio 31C
Program Data Controllers
Configure input/output ports 74B
Set configuration parameters 74B
Program Ethernet router Configure input/output ports 74B Program TCP/IP protocols 74B
Program MCS workstations
Tasks TBD 74B
38
Function Task MOS(s) Operations
Checks & Services Perform PMCS shelter 18E Perform PMCS ECU and generator 31C Perform PMCS on communications equipment 18E&31C Perform PMCS on automation equipment 74B
Radio Communications Monitor power 31C Listen for incoming voice 31C Respond to incoming voice 31C Route incoming voice traffic 31C Initiate voice call 31C Listen for incoming IMC traffic 31C Recognize incoming IMC traffic 31C Copy incoming IMC traffic 18E Respond to incoming IMC traffic 18E Troubleshoot radio communications 18E
Digital Message Processing
Monitor incoming message traffic 74B
Respond to incoming message errors 74B Print incoming message traffic 74B Deliver incoming message traffic 18E Archive incoming message traffic 74B Log outgoing messages 74B Prepare/load outgoing messages 18E&74B Troubleshoot digital message processing 74B
Automation & Network Management
Back up system logs and files 74B
Add new hosts/addresses 74B Establish user privileges 74B Change user privileges 74B Troubleshoot automation & networking 74B
Function Task MOS(s) Tear Down
General System Tear- down
Zeroize COMSEC equipment 18E
Print logs and archive files, as required 74B Power down subsystems 18E,31C,&74B Power down ECU & generator 31C Disconnect antenna & power cables 18E Remove ISOCA radios ISOCA Tm Disassemble antennas & stow 18E&31C Disconnect & package RCCs 74B
Shelter System Teardown Disconnect & stow terminal and MCS equipment 74B Dismantle & stow camouflage nets 18E&31C Dismantle & stow tent extension 18E,31C&74B Disconnect & stow power cables 31C Remove & stow grounding equipment 18E
CGS COMSEC ECU HF
IMC ISOCA LAN
LPI/D MCS PLA/RI PMCS
RCC TACSAT
TCP/IP UHF VHF/FM
communications gateway system communications security environmental control unit high frequency international morse code improved special operations communications assemblage
local area network low probability of interception/deception
maneuver control system plain language address/routing indicators preventive maintenance checks and services
remote control console tactical satellite transport control protocol/internet protocol
ultra high frequency very high frequency/frequency modulation
40
APPENDIX C
ACRONYM LIST
41
ACRONYM LIST
AFATDS
AMS
ASAS
ATCCS
CGS
CSSCS
FAADC3I
FBCB2
FOB
IEW
IMC
IMPRINT
JBS
LAN
LPI/LPD
LVRS
MCS
MOS
MSE
NCO
ODA
ODB
ORD
SFOB
SINCGARS
SME
SOCA
SOCCE
SOF
TOC
TRADOC
USASOC
WAN
advanced field artillery tactical data system
automated message system
all-source analysis system
Army Tactical Command and Control System
communications gateway system
combat service support control system
forward area air defense command, control communications, and intelligence
Force XXI Battle Command Brigade and Below
forward operational base
intelligence and electronic warfare
International Morse Code
improved performance research integration tool
joint base station
local area network
low probability of interception/low probability of detection
lightweight video reconnaissance system
maneuver control system
military occupational specialty
multiple subscriber equipment
noncommissioned officer
Operational Detachment A
Operational Detachment B
operational requirements document
special forces operational base
single channel ground and airborne radio system
subject matter expert
special operations communications assemblage
special operations command and control element
special operations forces
tactical operations center
Training and Doctrine Command
U.S. Army Special Operations Command
wide area network
43
NO. OF COPIES ORGANIZATION
NO. OF COPIES ORGANIZATION
ADMINISTRATOR DEFENSE TECHNICAL INFO CENTER ATTN DTIC OCP 8725 JOHN J KINGMAN RD STE 0944 FTBELVOIR VA 22060-6218
DIRECTOR US ARMY RESEARCH LABORATORY ATTN AMSRLCSALTA REC MGMT 2800 POWDER MILL RD ADELPHIMD 20783-1197
DIRECTOR US ARMY RESEARCH LABORATORY ATTN AMSRLCILL TECH LIB 2800 POWDER MILL RD ADELPHIMD 207830-1197
DIR FOR PERSONNEL TECHNOLOGIES DEPUTY CHIEF OF STAFF PERSONNEL 300 ARMY PENTAGON 2C733 WASHINGTON DC 20310-0300
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REPORT DOCUMENTATION Form Approved OMB No. 0704-0188
Public reporting burden for this collection of information is estimated to average 1 hour per response, including the time for reviewing instructions, searching existing data sources, gathering and maintaining the data needed, and completing and reviewing the collection of information. Send comments regarding this burden estimate or any other aspect of this collection of information, including suggestions for reducing this burden, to Washington Headquarters Services, Directorate for Information Operations and Reports, 1215 Jefferson Davis Highway, Suite 1204, Arlington, VA 22202-4302, and to the Office of Management and Budget, Paperwork Reduction Project (0704-0188), Washington, DC 20503.
1. AGENCY USE ONLY (Leave blank) 2. REPORT DATE
April 1999 3. REPORT TYPE AND DATES COVERED
Final
4. TITLE AND SUBTITLE
Special Operations Command and Control Element (SOCCE) Preliminary Analysis of Equipment and Personnel Requirements for the Digitized Battlefield
6. AUTHOR(S)
Malkin, F.J. (ARL); Graybill, S. (USASOC)
5. FUNDING NUMBERS
AMS: 622716.H700011 PR: 1L161102B74A PE: 6.11.02
7. PERFORMING ORGANIZATION NAME(S) AND ADDRESS(ES)
U.S. Army Research Laboratory (HRED) ATTN AMSRLHRMN HQ USASOC BldgE2929 Fort Bragg NC 28307-5000
8. PERFORMING ORGANIZATION REPORT NUMBER
9. SPONSORING/MONITORING AGENCY NAME(S) AND ADDRESS(ES)
U.S. Army Research Laboratory Human Research & Engineering Directorate Aberdeen Proving Ground, MD 21005-5425
10. SPONSORING/MONITORING AGENCY REPORT NUMBER
ARL-TN-136
11. SUPPLEMENTARY NOTES
12a. DISTRIBUTION/AVAILABILITY STATEMENT
Approved for public release; distribution is unlimited.
12b. DISTRIBUTION CODE
13. ABSTRACT (Maximum 200 words)
When Army special operations forces (SOF) operate in conjunction with or close to conventional Army forces, a special operations command and control element (SOCCE) is established to synchronize operations and harmonize actions between the SOF and conventional force elements. A SOCCE is usually co-located with an Army corps tactical operations center (TOC). On the emerging digitized battlefield, the corps TOC will be equipped with the Army Tactical Command and Control System (ATCCS) to provide a seamless flow of tactical information to commanders, corps, and below. A SOCCE will also require an ATCCS capability in order to exchange information with the conventional force and successfully perform its mission. A preliminary mission and task analysis was conducted to assist in identifying initial equipment and personnel requirements for a digitized SOCCE employing ATCCS. The outcome of the analysis indicates that if assumptions regarding SOF message format compatibility with ATCCS software are met, the SOCCE will be able to operate with two maneuver control systems (MCS), which is the integration component of ATCCS. The analysis also indicates that, in addition to the existing operations center, the SOCCE will require a signal center to link the operations center with other headquarters within the electronic battlefield command and control architecture. Personnel augmentation will be necessary to fully staff the SOCCE operations center S2 (intelligence) and S3 (operations) functions for 24-hour operations. Recommendations are that the equipment and personnel requirements identified by this analysis be verified during field training exercises and by simulation and modeling, a van or vehicular mounted shelter configuration be considered to house a SOCCE, and documentation be initiated to establish requirements for a system acquisition program.
14. SUBJECT TERMS
command and control digitized battlefield
personnel special forces
15. NUMBER OF PAGES
55 16. PRICE CODE
17. SECURITY CLASSIFICATION OF REPORT
Unclassified
18. SECURITY CLASSIFICATION OF THIS PAGE
Unclassified
19. SECURITY CLASSIFICATION OF ABSTRACT
Unclassified
20. LIMITATION OF ABSTRACT
NSN 7540-01-280-5500 51 Standard Form 298 (Rev. 2-89) Prescribed by ANSI Std. Z39-18 298-102