Aglide bomb orstand-off bomb is astandoff weapon withflight control surfaces to give it a flatter,gliding flight path than that of a conventional bomb without such surfaces. This allows it to be released at a distance from the target rather than right over it, allowing a successful attack without exposing the launching aircraft toanti-aircraft defenses near the target.[1] Glide bombs can accurately deliverwarheads in a manner comparable tocruise missiles at a fraction of the cost—sometimes by installing flight control kits on simpleunguided bombs—and they are very difficult forsurface-to-air missiles to intercept due to their tinyradar signatures and short flight times. The only effective countermeasure in most cases is to shoot down enemy aircraft before they approach within launching range, making glide bombs very potent weapons where wartime exigencies prevent this.[2]
World War II-era glide bombs like the GermanFritz X andHenschel Hs 293 pioneered the use of remote control systems, allowing the controlling aircraft to direct the bomb to a pinpoint target as a pioneering form ofprecision-guided munition. Modern systems are generally self-guided or semi-automated, usingGPS orlaser designators to hit their target.
The term "glide bombing" does not refer to the use of glide bombs, but a style of shallow-angledive bombing.[3]
In October 1914,Wilhelm von Siemens suggested what became known as theSiemens torpedo glider, a wire-guided flying missile which would essentially have comprised a naval torpedo with an attached airframe. It was not intended to be flown into a target, but rather at a suitable altitude and position, a signal would be transmitted, causing the airframe components to detach from the torpedo which would then enter the water and continue towards its target. Guidance signals were to be transmitted through a thin copper wire, and guide flares were to be carried to help control.
Siemens-Schuckertwerke was already occupied with remote controlled boats (theFL-boats orFernlenkboote), and had some experience in this area. Flight testing was performed under the supervision of an engineer called Dorner from January 1915 onwards, using airships as carriers and different types of biplane and monoplane glider airframes to which a torpedo was fitted. The last test flight was performed on February 8, 1918.
It was planned to use theSiemens-Schuckert R.VIII bomber as a carrier craft, but theArmistice stopped the project.[4]
During World War II, the first operational glide bombs were developed by the Germans as an anti-shipping weapon. Ships are typically very difficult to attack: a direct hit or an extremely near miss is needed to do any serious damage, and hitting a target as small as a ship was difficult in this period. At firstdive bombers were used with some success in this role, but their successes were countered by ever-increasing anti-aircraft defenses on theRoyal Navy ships they were attacking. By 1941, accurate bombing was as difficult as ever, with the added problem of evading anti-aircraft fire.
The German solution was the development of a number of glide bombs employingradio control guidance. One was created by fitting a control package on the rear of an otherwise standard bomb, starting with their 1400 kgarmor-piercing bomb to create theRuhrstahl SD 1400, commonly referred to asFritz-X. This weapon was designed specifically to pierce the deck armor of heavy cruisers and battleships. The bomb aimer dropped the bomb from high altitude while the aircraft was still approaching the ship, and guided it to impact with the target by sending commands to spoilers attached to its rear. This proved to be difficult to do, because as the bomb dropped toward the target it fell further behind the launch aircraft, eventually becoming difficult to see. This problem was solved by having the launch aircraft slow down and enter a climb to avoid overtaking the bomb as it fell.
In addition it proved difficult to properly guide the bomb to impact as the angle of descent changed, and if the bomb was not aimed accurately so as to end up roughly right over the target, there was little that could be done at later stages to fix the problem. Nevertheless, the Fritz X proved useful with crews trained on its use. In test drops from 8,000 m (26,000 ft), experienced bomb aimers could place half the bombs within a 15 m (49 ft 3 in) radius and 90% within 30 m (98 ft 5 in).
Design work started as early as 1939, and a version of the guidance package mounted to standard 500 kg bombs was tested in September 1940. It was found that the bomb was unable to penetrate a ship's armor, so changes were made to fit an armor-piercing warhead before the system finally entered service in 1943. The basic A-1 model was the only one to be produced in any number, but developments included the B model with a custom armor-piercing warhead, and the C model with a conical warhead which was designed to hit the water short of the ship and then travel a short distance underwater to hit the ship below the waterline. The guidance system for the Hs 293 series was the same as the Fritz-X unpowered munition; it used aFunkgerät FuG 203Kehl radio control transmitter with a single two-axis joystick in the deploying bomber, and an FuG 230Straßburg receiver in the munition.
Following thecapitulation of Italy in 1943, Germany damaged the Italian battleshipItalia and sank theRoma with Fritz-X bombs. Attacks were also made on theUSS Savannah, causing much damage and loss of life.HMSWarspite was hit by three Fritz-X, and although casualties were few, the ship had to be towed toMalta for repairs and was out of action for six months. The cruiserUSS Philadelphia was very slightly damaged by several near misses from Fritz-X bombs. The light cruiserHMSUganda was also hit and put out of action for thirteen months as a result.
A more widely employed weapon was theHenschel Hs 293, which included wings and a rocket motor to allow the bomb to glide some distance away from the launch aircraft. This weapon was designed for use against thinly armored but highly defended targets such as convoy merchantmen or their escorting warships. When launched, a small liquid-fueled rocket fired to speed the weapon up and get it out in front of the releasing aircraft, which was flown to approach the target just off to one side. The bomb then dropped close to the water and glided in parallel to the launch aircraft, with the bomb aimer adjusting the flight left or right. As long as the bomb was dropped at roughly the right range so it did not run out of altitude while gliding in, the system was easy to use, at least against slow-moving targets.
The Hs 293 was first used operationally in theBay of Biscay against RN and RCN destroyers, sloops and frigates. Its combat debut was made on August 25, 1943, when the sloopHMSBideford was slightly damaged by a missile which failed to fully detonate, but killed one crewman. Another sloop,HMSLandguard, survived a near miss with slight damage. The Germans attacked again two days later, sinkingHMSEgret on August 27, 1943; they also seriously damagedHMCSAthabaskan. Over one-thousand Allied soldiers died on 25 November 1943 when a Hs 293 sank the troopshipHMT Rohna from Mediterraneanconvoy KMF 26.[5]
Several defensive measures were implemented right away. Ships capable of maneuvering at high speed were instructed to make tight turns across the weapon's flight path in order to complicate the missile operator's efforts. Attacking aircraft were interdicted with air patrols and heavy-caliberanti-aircraft weapons, disrupting either the visual or radio links to the guided weapons. Smoke was used to hide ships at anchor. Allied aircraft also attacked the home bases of the special German units equipped with these weapons, primarily (Gruppen II and III ofKampfgeschwader 100 andGruppe II ofKampfgeschwader 40).
American, British and Canadian scientists also developed sophisticatedradio jammers to disrupt the guidance signal. Ultimately nine different jamming systems were deployed in theEuropean theater against these weapons. While early models proved inadequate, by the time the Allies were preparing for the invasion of France in 1944 more capable systems were deployed, and the success rate of guided weapons declined considerably. Even more important to the defeat of the weapons was Allied command of the airspace and the interception of incoming bombers by Allied fighter aircraft.
The Hs 293 was also used in August 1944 to attack bridges over theSée andSélune at the southern end of the Cherbourg peninsula in an attempt to break US generalPatton's advance, but this mission was unsuccessful. A similar mission against bridges on theriver Oder, designed to slow the Soviet advance into Germany, was made in April 1945 but failed.
The Germans also experimented withtelevision guidance systems on theHs 293D models. The use was problematic – as the bomb approaches the target, even tiny amounts of control input would cause the target to jump around the TV display, so much of the difficulty was in developing control systems that would become progressively less sensitive as the pilot required. A wire-guided version was also developed, but this Hs 293B variant was never deployed.
In 1939 SirDennistoun Burney andNevil Shute Norway, worked together on an air-launched gliding torpedo, the "Toraplane", and a gliding bomb, "Doravane". Despite much work and many trials the Toraplane could not be launched with repeatable accuracy and it was abandoned in 1942.
TheUS Army Air Force started a wide-spanning development program of both glide bombs, known as "GB", and similar systems designed to fall more vertically, as "VG". Several models of both concepts were used in limited numbers during WWII.
The first to be used operationally was theAeroncaGB-1, essentially an autopilot attached to a small glider airframe carrying a bomb. It was intended to allow the8th Air Force bombers to drop their payloads far from their targets and thus avoid having to overfly the most concentrated areas ofanti-aircraft artillery fire. It was first used on 28 May 1944 against the Eifeltor marshalling yard inCologne, but only 42 of 113 bombs released reached anywhere near the target; most "spun in and exploded 15 miles from the target... many of the batteries failed to hold [their] charge").[6]
More advanced models in the GB series included thetelevision guidedGB-4,GB-5,GB-12, andGB-13, which usedcontrast-seekers for anti-ship use, and thecommand-guidedGB-8, 'Azon', 'Razon', as well as theinfrared-guided'Felix'.US Navy glide bombs included the'Bat' and its earlier variant, the'Pelican'. The longer-range Bat used an active radar seeker and was used in the Pacific on August 13, 1944, but could not distinguish between targets in a cluttered environment and could be easily spoofed by even simple radar countermeasures.[citation needed] Only four examples of an experimental glide bomb, the 'Pratt-Read LBE', were produced.
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After the war, the increasing sophistication of electronics allowed these systems to be developed as practical devices; from the 1960s air forces deployed a number of such systems, including the USAF'sAGM-62 Walleye. Contrast seekers were also steadily improved, becoming very effective in the widely usedAGM-65 Maverick missile. Both were standard systems until the 1980s when the development oflaser guidance andGPS based systems made them unnecessary for all but the most accurate of roles. Various TV-based systems remain in limited service for super-accurate uses, but have otherwise been removed.
In the anti-ship role, direct attack from an aircraft even at long range became more dangerous due to the deployment of anti-aircraft missiles on ships. Weapons such as the Bat had ranges too short to keep the attacking aircraft out of range, especially in a force provided with air cover. This was addressed with the introduction of small jet engines that greatly extended the range, producing theanti-shipping missile class that remains widely used today.
Similarly, the need to attack well-defended targets such as airbases and military command posts led to the development of newer generations of glide bombs. European air forces use a glide package with acluster bomb warhead for remotely attacking airbases.Laser andGPS guidance systems are used.
{{cite journal}}:Missing or empty|title= (help)[dubious –discuss]wings and a double-boom tail mounted on a two thousand-pound bomb... depended oninertial guidance for directional control after release. This consisted of a series ofgyroscopes driven by a battery. ...twelve foot wingspan... almost twelve feet long... The glide ratio of these bombs was an amazing five to one. ...many of the batteries failed to hold [their] charge... The date was May 28, 1944, not the 25th asMartin Caidin reports in his book, "The Forts." This same mistake appears in Polmer and Allen's encyclopedia, "World War II. America at War, 1941–1945."
Pakistan is fairly open about them having it, see one of their squadron's paintings below clearly depicting Raptor II being launched from one of their Mirages.
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