C3I-ISR: Difference between revisions

From Citizendium
Jump to navigation Jump to search
imported>Howard C. Berkowitz
(Spiral 2 and 3)
imported>Howard C. Berkowitz
(linked to surveillance and reconnaissance, command and control)
Line 2: Line 2:
'''Command, control, communications and intelligence (C3I)''' and '''intelligence, surveillance and reconnaissance''', are two concepts that show the interplay of intelligence and operations in modern warfare.  There are variants of both, such as '''C4I''', which adds "computers", and '''ISRTA''' or '''RSTA''', in which the '''TA'''  stands for [[target acquisition]].
'''Command, control, communications and intelligence (C3I)''' and '''intelligence, surveillance and reconnaissance''', are two concepts that show the interplay of intelligence and operations in modern warfare.  There are variants of both, such as '''C4I''', which adds "computers", and '''ISRTA''' or '''RSTA''', in which the '''TA'''  stands for [[target acquisition]].


Whatever the particular set of initials, the key message is that in modern warfare, the interaction of these functions need to be considered in building tools, techniques, and units. The various functions need to use communications protocols that will allow sharing of information.
[[Command]] is the authority over, and responsibility for, subordinate personnel, units, or other resources. A commander may also direct the actions of those resources through the functions of [[control (military)|control]], or can delegate various levels of control.
 
[[Surveillance]] and [[reconnaissance]] are both means of collecting information, surveillance being a continuous process while reconnaissance is carried out by specific missions. In this context, intelligence processes and analyzed the information generated from surveillance and reconnaissance, combining it with information already known,
 
Whatever the particular set of initials, the key message is that in modern warfare, the interaction of these functions need to be considered in building tools, techniques, and units. The various functions need to use compatible [[Protocol (computer)|communications protocols]], [[data base]] organization, etc., which will allow sharing of information.


While the initial examples here will be from the United States, many of the definitions, and even the specific systems, are common in [[NATO]], as well as with allied states such as Australia.
While the initial examples here will be from the United States, many of the definitions, and even the specific systems, are common in [[NATO]], as well as with allied states such as Australia.

Revision as of 21:55, 23 June 2008

This article is a stub and thus not approved.
Main Article
Discussion
Related Articles  [?]
Bibliography  [?]
External Links  [?]
Citable Version  [?]
 
This editable Main Article is under development and subject to a disclaimer.

Command, control, communications and intelligence (C3I) and intelligence, surveillance and reconnaissance, are two concepts that show the interplay of intelligence and operations in modern warfare. There are variants of both, such as C4I, which adds "computers", and ISRTA or RSTA, in which the TA stands for target acquisition.

Command is the authority over, and responsibility for, subordinate personnel, units, or other resources. A commander may also direct the actions of those resources through the functions of control, or can delegate various levels of control.

Surveillance and reconnaissance are both means of collecting information, surveillance being a continuous process while reconnaissance is carried out by specific missions. In this context, intelligence processes and analyzed the information generated from surveillance and reconnaissance, combining it with information already known,

Whatever the particular set of initials, the key message is that in modern warfare, the interaction of these functions need to be considered in building tools, techniques, and units. The various functions need to use compatible communications protocols, data base organization, etc., which will allow sharing of information.

While the initial examples here will be from the United States, many of the definitions, and even the specific systems, are common in NATO, as well as with allied states such as Australia.

Evolution of C3I-ISR aircraft

At present, there are a great many types, which, in part, derives from a problem of physics: intelligence collection systems that listen for faint signals are apt to interfere with their own systems if they also generate powerful radar or radio signals.

Current generation of strategic aircraft

Aircraft Command function Intelligence functions
E-3 Sentry Air combat Airborne battle management and early warning radar
E-6 TACAMO Nuclear warfare None
E-8 Joint STARS No Ground surveillance imaging radar
EC-130 COMPASS CALL No ELINT and COMINT in support of electronic attack (e.g., jamming)
EP-3 ARIES II No ELINT and COMINT
P-3 Orion Possibly anti-submarine warfare Radar, MASINT
P-8 Poseidon Possibly anti-submarine warfare Radar, MASINT
RC-135 COBRA BALL No MASINT on ballistic missiles
RC-135 COMBAT SENT No Radar ELINT
RC-135 RIVET JOINT No command, but often warns pilots COMINT

Challenging assumptions in a new generation of aircraft

U.S. Navy EPX replacement

The U.S. Navy is soliciting industry for a new "EPX" aircraft to replace the EP-3 ARIES II. [1] Teams from Boeing, Lockheed Martin and Northrop Grumman are working on technical approaches.

Some new technologies may provide a way to challenge the self-interference problem:

It's safe to say it will be a flying antenna — Ted Klapka, L-3 Communications liaison to Northrop Grumman

The conformal antennas need not be hidden inside the edges of the wing and tail, as they are on a F-22 Raptor or F-35, because those aircraft need to be stealthy and the EPX does not.

Air Force

The United States Air Force had planned the E-10 aircraft, to combine sensors and command & control. Although the project had its budget cut, the operational concept was to have an AESA radar that could do electronic intercept, but also disable "air-to-air and surface-to-air missiles with bursts of high-power microwaves as a self-defense capability. It would have the offensive capability of similarly disabling stealthy cruise missiles, as well, which it was capable of detecting at tactically useful ranges. The combination was dropped because it was deemed impossible due to cost and improbable due to technology restraints.[1]

Another version, proposed, in 2001, by Air Force Chief of Staff John Jumper, was the MC2A, which could replace 33 E-3 Sentry, 17 E-8 Joint STARS and 14 RC-135 RIVET JOINT aircraft, with a single aircraft on a Boeing 767 airframe. This soon evolved to a less ambitious plan, in which two active radar functions, air surveillance on the E-3 and ground surveillance of the E-8, might be combined. Funding was obtained,however, only to try a ground surveillance aircraft, called Spiral 1, with the potential for growth. [2]

Spiral 1, however, would offer advances over the E-8, especially the Multi-Platform Radar Technology Insertion, a "Ground Moving Target Indicator (GMTI)" radar that was not limited to ground targets, as is the E-8, but could also detect low-level cruise missiles. Spiral 2 is the AWACS mission and Spiral 3 is the RIVET JOINT mission.

RSTA and related functions in new ground units

References

  1. 1.0 1.1 Fulghum, David A. (22 February 2008), "U.S. Navy Plans EPX Intel-Gathering Aircraft", Aviation Week & Space Technology
  2. Erwin, Sandra I. (July 2003), "Air Force to Run Wars From Sensor-Packed Jets", National Defense Magazine