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COMBAT SENT is an RC-135 aircraft employed as a Scientific and Technical ELINT Collection System. Two COMBAT SENT RC-135Us are assigned to the 55th Wg at Offutt AFB, and are flown by crews from the 38th RS, 343rd RS, and the 97th IS, also at Offutt AFB. USAF Rome Laboratory is using computers and expert systems as enabling technology to re-engineer and improve COMBAT SENT Mission Management.
The Expert Mission Manager operates in real-time on collected ELINT signals to
Rome Lab's Expert Mission Manager program is sponsored by the Air Force's Consolidated Cryptologic Program for ELINT Analysis Techniques. The objective of this Consolidated Cryptologic Program effort is to apply advanced processing techniques to the COMBAT SENT aircraft in order to improve COMBAT SENT mission collections by automatically processing all the knowns and usuals -- leaving the more difficult signals and unknowns to the on-board personnel.
The COMBAT
SENT Operator Workstation Upgrade procures and installs high resolution
operator displays to improve target detection and signal recognition. Wide
band fiber optic base audio distribution network to all operators. Wide
band, high capacity COTS audio recorders. High capacity, digital, reprogramable,
wideband demodulators and processors. Current display resolution is insufficient
to allow accurate signal detection and recognition of modern modulation
target signals. Several current target emitters exceed the bandwith of
the current audio distribution system, resulting in unintelligible audio
output. Several receiver outputs are routed to specific operator positions,
limiting flexibility in responding to theater driven dynamic target environments.
Bandwidth and capacity of current recorders is exceeded by an emerging
class of wideband modern modulation target emitters. Bandwidth and capacity
of current signal demodulators is exceeded by an emerging class of wideband
modern modulation target emitters. Current demodulators are not reprogramable.
It is expensive and time consuming to reconfigure them to process different
target emitters.
Re-engining
of RC-135 aircraft with CFM-56 engines modifies the airframes to support
re-engining. This effort decreases cost of ownership and increases operational
capability by installing new, fuel efficient engines. Reduces maintenance
manpower and logistics costs; the new is more reliable than the current
engine, and the engine is common with the AMC KC-135 fleet. Extends unrefueled
range and time-on-station, and permits operations at higher altitudes,
increasing airborne sensor field of view and effectiveness. Increased altitude
range provides flexibility to airspace planners integrating aircraft into
conjested airspace just behind the FEBA. Decreases dependency on tankers
for air refueling. Provides capability to takeoff on shorter runways at
increased gross weights. Facilitates two-level maintenance concept reducing
costs by 32%. Supports improved aircraft environmental system prolonging
sensitive sensor life.
COMBAT SENT
Cockpit Modernization includes the COMBAT SENT in the Air Force PACER CRAG
initiative to upgrade the C-135 fleet cockpit, and installs the GATM/FANS
avionics required to operate in the evolving civil air structure. PACER
CRAG installs new compasses, radar, multi-function displays, and global
positioning system/flight management system. New fuel panel, Mode S IFF,
TCAS, precision altimeters, and DAMA compliant, 8.333 KHz channel radios
are included in this upgrade. Provides COMBAT SENT aircraft commonality
with the C-135 fleet for training, logistics, and parts. Eliminated "vanishing
vendor" problems associated with diverging from the KC-135 avionics. Permits
aircraft to comply with ICAO navigation and communication standards to
operate in the trans-oceanic and European portions of the commercial air
structure. Improves safety, reliability, and maintainability of aircraft.
PACER CRAG kits/generic installation funds provided by AMC. Aircraft will
be denied access to increasing portions of civil air space without proper
navigation/communications equipment. Current avionics systems will become
unsupportable as KC-135 migrates to newer equipment. Commonality will be
lost with the rest of the C-135 fleet. Common parts supply base will not
be available.
COMBAT SENT
Calibration Systems replaces obsolete and unsupportable components of the
Emitter Source Van (ESV) and the Portable Calibration Van (PCV) used to
generate test signals to calibrate aircraft antenna and RF distribution
system. Provides modern modulation capability and millimeter wave frequency
calibration. Returns aircraft system calibration accuracy to required level.
It replaces failing components of the ESV and PCV. Modernizes computer
assets which have become obsolete and unsupportable. Provides modern modulation
capability to enable test and calibration of systems designed to exploit
frequency agile, coded pulse, and coherent radar weapon systems. Provides
high frequency millimeter wave calibration signals. COTS computer systems
used in both ESV and PCV will become unsupportable in the FY05-06 years.
Sensors designed to exploit modern weapon systems must be calibrated against
similar signals to ensure accurate measurements. Increasing use of millimeter
wave frequencies in direct threat systems makes calibration critical for
weapon system characterization.
COMBAT SENT
Wideband Acquisition/Frequency Hopping Receiver System (FHRS) provides
wideband acquisition and frequency hopping receiver system (FHRS) capability
for exploitation of frequency agile threat systems. Builds on previous
efforts to provide unique capability for precision measurement and exploitation
of modern, frequency agile radar. Uses shared antennas and pooled computer
assets with high speed, JASA compliant network to integrate existing reconnaissance
systems with wideband receiver and de-hopping systems. Allows real-time
acquisition and exploitation of frequency-agile threats. Enhances probability
of intercept for LPI systems and increases tip-off capability. Will enhance
the unique capability to intercept and exploit radar transmission characteristics
to include modern frequency-agile threats. Enables collection of data essential
for electronic warfare system reprogramming and design. Modern threats
are increasingly using frequency agility to counter fielded systems. These
threat systems cannot be adequately characterized by existing collection
systems. This increases the margin of error required to be used in mission
and route planning, as well as increasing the cost of LO, HARM, and electronic
warfare system design because of the inability to accurately characterize
the threat system.
COMBAT SENT
RF Distribution System Improvement procures and installs antennas and RF
distribution system capable of intercepting frequency agile radars. Redesigns
wing RF distribution system to permit installation of new RC-135 engines.
Enhances power, beam pattern, and polarization (P3) collection on narrowband
signals. Expands collection system field of view, increases sensitivity
and implements standard data links for increased cross-platform cueing,
near-real-time reporting, and tactical support capabilities. Installs industry
standard ID-1 wideband recorders. Implements common aperture RF distribution/fiber
optics (CARF) to allow re-engining and collection of frequency hopping
radars. Enhances P3 collection by adding improved near-real-time processing
and reporting along with narrowband collection capability. Allows near-real-time
reporting and cross-platform cueing through common data links (TADIL-J/TIBS).
Increases training and collection capacity through improved carry-on terminals.
Increases ability to exploit wideband threats through higher bandwidth
recorders. Cannot reinstall P3 collection system after re-engine without
common aperture RF distribution/fiber optics (CARF). CARF allows 360°
field-of-view and exploitation of frequency hopping radars. Improved processing
and communication provides enhanced cross-platform tip-off, and P3 information
in near-real-time for mission planning and threat avoidance. Operator workload
is reduced by enhanced P3 system automation, data management, and reduced
complexity allowing operation in more complex, more diverse threat environments.