(
BLU-109 warhead variant) strikes its target. Guided bombs carry a guidance system which is usually monitored and controlled from an external device. A guided bomb of a given weight must carry less explosives to accommodate the guidance mechanisms.
Radio The Germans were first to introduce precision guided munitions (PGMs) in combat, using the
MCLOS-guidance
Fritz X to successfully attack the Italian
battleship Roma in September 1943. The closest
Allied equivalents were the
AZON (azimuth only), used in both Europe and the
CBI Theater, and the
US Navy's
Bat, primarily used in the Pacific Theater of World War II which used autonomous, on-board radar guidance. In addition, the US tested the rocket-propelled
Gargoyle; it never entered service. No Japanese remotely guided PGMs ever saw service in World War II. The
United States Army Air Forces used similar techniques with
Operation Aphrodite, but had few successes; the German
Mistel (Mistletoe) "
parasite aircraft" was no more effective. The US programs restarted in the
Korean War. In the 1960s, the
electro-optical bomb (or
camera bomb) was reintroduced. They were equipped with
television cameras and flare sights, by which the bomb would be steered until the flare superimposed the target. The camera bombs transmitted a "bomb's eye view" of the target back to a controlling aircraft. An operator in this aircraft then transmitted control signals to steerable fins fitted to the bomb. Such weapons were used increasingly by the
USAF in the last few years of the
Vietnam War because the political climate was increasingly intolerant of civilian casualties, and because it was possible to strike difficult targets (such as bridges) effectively with a single mission; the
Thanh Hoa Bridge, for instance, was attacked repeatedly with gravity bombs, to no effect, only to be destroyed in one mission with PGMs. Although not as popular as the newer
JDAM and
JSOW weapons, or even the older
laser-guided bomb systems, weapons like the
AGM-62 Walleye TV-guided bomb are still being used, in conjunction with the
AAW-144 Data Link Pod, on
US Navy F/A-18 Hornets.
Infrared In World War II, the US
National Defense Research Committee developed the
VB-6 Felix, which used infrared to home on ships. While it entered production in 1945, it was never employed operationally.
Laser In 1962, the US Army began research into
laser guidance systems and by 1967 the USAF had conducted a competitive evaluation leading to full development of the world's first
laser-guided bomb, the
BOLT-117, in 1968. All such bombs work in much the same way, relying on the target being illuminated, or "painted," by a laser target designator on the ground or on an aircraft. They have the significant disadvantage of not being usable in poor weather where the target illumination cannot be seen, or where it is not possible to get a target designator near the target. The laser designator sends its beam in a series of
encrypted pulses so the bomb cannot be confused by an ordinary laser, and also so multiple designators can operate in reasonable proximity. Laser-guided weapons did not become commonplace until the advent of the microchip. They made their practical debut in Vietnam, where on 13 May 1972 when they were used in the second successful attack on the Thanh Hoa Bridge ("Dragon's Jaw"). This structure had previously been the target of 800 American sorties (using unguided weapons) and was partially destroyed in each of two successful attacks, the other being on 27 April 1972 using
Walleyes. That first mission also had laser-guided weapons, but bad weather prevented their use. They were used, though not on a large scale, by the British forces during the 1982
Falklands War. The first large-scale use of smart weapons came in 1991 during Operation
Desert Storm when they were used by coalition forces against
Iraq. Even so, most of the air-dropped ordnance used in that war was "dumb," although the percentages are biased by the large use of various (unguided)
cluster bombs. Laser-guided weapons were used in large numbers during the 1999
Kosovo War, but their effectiveness was often reduced by the poor weather conditions prevalent in the southern Balkans. There are two basic families of laser-guided bombs in American (and American-sphere) service: the
Paveway II and the Paveway III. The Paveway III guidance system is more aerodynamically efficient and so has a longer range, however it is more expensive. Paveway II LGBs (such as GBU-12) are a cheaper lightweight PGM suitable for use against vehicles and other small targets, while a Paveway III penetrator (such as GBU-24) is a more expensive weapon suitable for use against high-value targets. GBU-12s were used to great effect in the first
Gulf War, dropped from
F-111F aircraft to destroy Iraqi armored vehicles in a process referred to as "tank plinking."
Satellite releases a
JDAM from its center internal bay while flying at supersonic speed Lessons learned during the first Gulf War showed the value of precision munitions, yet they also highlighted the difficulties in employing them—specifically when visibility of the ground or target from the air was degraded. The problem of poor visibility does not affect satellite-guided weapons such as
Joint Direct Attack Munition (JDAM) and
Joint Stand-Off Weapon (JSOW), which make use of the United States'
GPS system for guidance. This weapon can be employed in all weather conditions, without any need for ground support. Because it is possible to
jam GPS, the guidance package reverts to
inertial navigation in the event of GPS signal loss. Inertial navigation is significantly less accurate; the JDAM achieves a published
circular error probable (CEP) of under GPS guidance, but typically only under inertial guidance (with free fall times of 100 seconds or less). of the
Luftwaffe with a combination of GPS/INS and electro-optical guidance The precision of these weapons is dependent both on the precision of the measurement system used for location determination and the precision in setting the coordinates of the target. The latter critically depends on intelligence information, not all of which is accurate. According to a CIA report, the accidental
bombing of the Chinese embassy in Belgrade during
Operation Allied Force by NATO aircraft was attributed to faulty target information. However, if the targeting information is accurate, satellite-guided weapons are significantly more likely to achieve a successful strike in any given weather conditions than any other type of precision-guided munition. Other military satellite guidance systems include: Russian
GLONASS, European
Galileo, Chinese
BeiDou, Indian
NavIC, Japanese
QZSS. == History ==