Category Archives: UAV

Israel’s Military Occupation: Fighting a weak for far too long

Israel’s growing security needs and recent moves is drawing harsh conclusions and asking difficult questions. Growing security concerns – dealing with Iran nuclear power, growing arsenal of Hamas and hizbollah, recent over throw of Egypt’s hosni Mubarak-1979 peace treaty between Israel and Egypt.

Furthermore, Arrival of Iranian war ships in Mediterranean since 1979, has sowed signs of Tehran’s determination to expand it’s influence within the Mediterranean region.

Recently Israel Air force has ordered 20 American F-35 fighter jets most advanced jets, navy will receive two new submarines, and Israel pouring money into missile defence systems (with Arrow 3 on it’s way) and spurring up the land force capabilities.

In years in israelis the army has lost some of it’s lustre after a string of scandals involving it’s leaders (example of some incidents major of all was the Attack on gaza aid flotilla. Some argue the threat today to israel is not invasion or battlefield defeat instead it’s a long term erosion of Israel legitimacy

Combination of conventional and non conventional warfare, new approach combination of political and military elements has made Israel to think differently which is forcing the nation to think aggressively. Military personnel are constantly engaged in deep thoughts and argument to extend military power within the region to address the nature of war Israel is about to face. So what exactly is in those mind, may be the following:

– Estimate of hizbollah’s rocket arsenal
– their target strength and Israel cities
– fighting a weak for far too long
– what is there to loose and to gain
– IDF room of manoeuvre is shrinking (fighting against weak)

So how effective is this fighter jets and submarines contracts If the threat is to the cities? One thing to look in things contracts and extent of Israel’s military budget is best taken by Comparing the military spending of Israel against it’s neighbours Egypt, Syria, Jordan, Iran lebanon. Best here is too have an Insight into the politics and the military -sheer number of former military leaders in politics, you will be surprised by the inclusion of high profile military officers in what’s called a typical civilian Market.

The Israel Navy is making advanced preparations to absorb two new German-made Dolphin-class submarines, IDF journal Bamachaneh reported in its latest issue. The number of soldiers selected for submarine warfare has grown by 30% in the latest IDF recruitment batches, in order to man the additional submarines.

The Navy currently has three submarines, also of the Dolphin class, so the addition of two subs means that the force is growing 66% bigger. “We are in mid-process and are slowly adding more crews to be trained for service in the submarines,” explained Naval Instruction Base Commander Col. Ronen Nimni. “We are also taking care to add crew commanders who closely mentor the soldiers.”

More officers are being trained for submarine posts as well. The number of cadets who will be trained for submarine command positions is rising by 35%.

“The missiles, part of Israel’s estimated 100-strong nuclear arsenal, reportedly have a range of up to 800 miles. The subs probably cannot hit Iran without passing through the Suez into the Red Sea and ultimately the Indian Ocean. The Red Sea is also the best route to the Gulf of Oman, where Israeli ships and submarines might enforce a blockade of Iran, during wartime.”

In November 2005, it was announced that Germany would allow the sale of two new Dolphin Class submarines to Israel. In July 2006, Israel placed a contract for two additional Dolphin submarines with an option on a third. The new submarines will have air-independent propulsion (AIP) systems, which allow them to stay submerged for a much longer period. Delivery of the first vessel is expected in 2012.

Dolphin Class Submarines

Based at Haifa, the Israeli Navy (IN) currently operates three modern, diesel-electric, Dolphin-class submarines. Two additional Dolphin-class submarines have also been ordered and are scheduled to be delivered before 2012. In December 2003, two of Israel’s three decommissioned Gal-class submarines arrived in Kiel for refits and modernization at Germany’s Howaldtswerke-Deutsche Werft. Although the original plan was to recommission the Gal-class, it was later decided to search for a potential buyer.

Israel in world’s Politics

Israel has never acknowledged publicly that it is a nuclear-weapons state, but it has also never signed the Nuclear Non-Proliferation Treaty (NPT). Now the Arabs, led by Egypt, are demanding that Israel do so or they will sabotage the future of the NPT regime

It is also abundantly clear that Israel’s nuclear capability has not kept its enemies from attacking. Iranian-backed terrorist groups Hezbollah in Lebanon and Hamas in Gaza and the West Bank have both fired rockets into Israel in two recent wars despite the country’s possession of nuclear weapons that could obliterate them all. This too is no surprise. Other atomic-weapons states, including America, have found that their nuclear deterrents do not prevent conventional war or terrorism. But they can prevent massive retaliation.

ISRAEL SEES its nuclear monopoly as a key factor in its security. Successive Israeli governments have thus ensured that no other state in the Middle East becomes nuclear armed.

The only exception to the rule is Pakistan—the one Muslim state which has developed a nuclear arsenal. But in this case we are talking about a geographically distant country, and one that has never participated in military operations against Israel. Islamabad developed its bomb primarily during the era of Mohammad Zia ul-Haq’s dictatorship in the 1980s, when it was closely allied with the United States and fighting the Soviets in Afghanistan. A. Q. Khan, the father of the Pakistani bomb, has claimed that Zia warned Israel that if it tried to interfere with Pakistan’s program he would destroy Tel Aviv. When Islamabad did test its bombs in 1998, it tried to argue that Israel was on the verge of attacking its nuclear facilities and the tests were in self-defense. The charade of blaming Israel fooled no one.

ISRAEL NOW faces the biggest-ever challenge to its monopoly on the bomb in the Middle East from Iran. For Israel, Tehran is a dangerous opponent, close and threatening. There is a virtually unanimous consensus in Israel that Iran cannot be allowed to acquire nuclear weapons. From left to right, Israelis see an existential threat to their very survival. Current Prime Minister Benjamin Netanyahu argued at the Brookings Institution’s Saban Forum in Jerusalem in 2007 that Iran is a “crazy,” even suicidal, state that will be prepared to sacrifice millions of its own citizens in a nuclear exchange with Israel.

It is clear from statements of Israeli military and intelligence officials and numerous press leaks that planning for a military operation to prevent Iran from acquiring nuclear weapons is well under way in Israel

It is certainly a challenging one. Distance alone makes Iran a much more difficult target than Iraq or Syria. The most direct route from Israel to Iran’s Natanz facility is roughly 1,750 kilometers across Jordan and Iraq. The alternatives via Turkish airspace (over 2,200 kilometers) or Saudi airspace (over 2,400 kilometers) would also put the attack force into the skies of American allies equipped with American fighter aircraft. Moreover, unlike Iraq and Syria, but like Pakistan, the Iranian program is dispersed throughout several facilities and sites around the country, some of which are underground and hardened

Iran will almost certainly retaliate against both U.S. and Israeli targets. To demonstrate its retaliatory prowess, Iran has already fired salvos of test missiles (some of which are capable of striking Israel), and Iranian leaders have warned they would respond to an attack by either Israel or the United States with attacks against Tel Aviv, U.S. ships and facilities in the Persian Gulf, and other targets. Even if Iran chooses to retaliate in less risky ways, it could respond indirectly by encouraging Hezbollah attacks against Israel and Shia militia attacks against U.S. forces in Iraq, as well as terrorist attacks against American and Israeli targets in the Middle East and beyond.

America’s greatest vulnerability would be in Afghanistan. Iran could easily increase its assistance to the Taliban and make the already-difficult Afghan mission much more complicated. Western Afghanistan is especially vulnerable to Iranian mischief, and NATO has few troops there to cover a vast area. President Obama would have to send more, not fewer, troops to fight that war.

Making matters worse, considering the likely violent ramifications, even a successful Israeli raid would only delay Iran’s nuclear program, not eliminate it entirely. In fact, some Israeli intelligence officials suspect that delay would only be a year or so. Thus the United States would still need a strategy to deal with the basic problem of Iran’s capabilities after an attack, but in a much more complicated diplomatic context since Tehran would be able to argue it was the victim of aggression and probably would renounce its NPT commitments. Support for the existing sanctions on Iran after a strike would likely evaporate.

Of course, Israel’s own nuclear arsenal should be sufficient to deter Iran, but an American nuclear guarantee would add an extra measure of assurance to Israelis. If the United States guarantees Israel a nuclear umbrella, then Iran knows no matter what damage it may inflict on Israel, Washington will be able to retaliate with overwhelming force. Iran would have no delivery system capable of striking back at the U.S. homeland. It would be the target of both whatever residual capability Israel retained and the vast American nuclear arsenal. That is a deterrent indeed.

Already the United States has been deeply involved in building Israel’s defense against an Iranian missile strike. For almost two decades the Pentagon has been working closely with Israel to perfect the Arrow anti-tactical ballistic-missile (ATBM) system. The two countries have shared extensive technology on the question of ATBMs, including integrating Israel into the most advanced American early-warning radar systems to provide the earliest possible alert of an incoming attack. This defensive cooperation should be continued and enhanced

How active USA needs to be?

The next step would be to ensure Israel has the delivery systems that would safeguard a second-strike capability. The F-15I probably already does so for the immediate future, but it is worth examining the wisdom of providing the F-22 stealth aircraft to the IDF as an even-more-sophisticated attack system that would be able to assure Israel’s deterrence far into the future. Prime Minister Barak raised this issue with President Clinton at the Camp David summit in 2000, and it too should be reexamined. We might look at providing Israel with advanced cruise-missile technology or even nuclear-powered submarines with missile capabilities to enhance its capacity to launch from platforms at sea.

THE ERA of Israel’s monopoly on nuclear weapons in the Middle East is probably coming to an end. Israel will still have a larger arsenal than any of its neighbors, including Iran, for years if not decades. It will face threats of terror and conventional attack, but it already faces those. With American help it can enhance its deterrence capabilities considerably. It has no reason to lose its self-confidence. But to avoid the potential for all-out war not only between Israel and Iran but also between the United States and the Islamic Republic, Washington needs to act now. Only by enhancing Israel’s nuclear capability will America be able to strongly and credibly deter an Israeli attack on Tehran’s facilities.

References

U.S. Central Intelligence Agency, Special National Intelligence Estimate: Prospects for Further Proliferation of Nuclear Weapons, SNIE Number 4-1-74, August 23, 1974, declassified DocID: 1472492.

This argument was made by the expert the London Sunday Times called in to debrief Vanunu, Frank Barnaby, in his book The Invisible Bomb: The Nuclear Arms Race in the Middle East (London: Taurus, 1989).

See Avi Shlaim, Lion Of Jordan: The Life of King Hussein in War and Peace (London: Penguin, 2007): 508.

Barton Gellman, “Israel Gave Key Help to UN Team in Iraq,” Washington Post, September 29, 1998.

Adaption (Bruce Riedel – a senior fellow in the Saban Center for Middle East Policy at the Brookings Institution. A career CIA officer, he has advised four presidents on Middle East and South Asian issues in the White House on the staff of the NSC.)

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Iran: Prioritizing Sky Defences

Don’t listen to those who speak of democracy. They all are against Islam. They want to take the nation away from its mission. We will break all the poison pens of those who speak of nationalism, democracy, and such things. [Ayatollah Ruhollah Khomeini]

Before the 1979 Islamic Revolution, Iran’s air forces were considered second only to Israel in the Middle East, built up by aid from the country’s then-ally the United States.

GENEVA: World powers held their first meeting in 14 months with Iran over its disputed nuclear programme on Monday (today), sounding out Tehran’s intentions after it claimed to have taken a new step in making fissile material. Just a day ahead of the talks, Tehran raised the stakes by revealing that it had mined and produced its first home-grown batch of uranium yellowcake instead of seeking to import new supplies. On the other hand, In military maneuvers and air shows, Iran has been proudly touting advances in its air forces and defenses, including radar systems, anti-aircraft batteries and new attack and reconnaissance drones. Air superiority is seems to be a new priority for Iran, who is trying to quickly bolster its ability to patrol its skies in the belief that US or Israeli warplanes or missiles could strike its nuclear facilities. For the most part, Iran’s air attack capabilities still depend heavily on domestically modified versions of long-outdated warplanes, including former Soviet MiGs and American F14A Tomcats from the 1970s, and its anti-aircraft batteries and drones.

Taking the air defences further, It was not a long ago when Iran kicked off one of its periodic air defense exercise, in order to protect their nuclear sites. Started on 16th November, the exercise lasted five days and featured Iran’s elite Islamic Revolutionary Guards Corps (IRGC) and its paramilitary Basij forces joining in. Interestingly, The monitoring network of Iran’s air defense forces has discovered 194 previously unknown flying routes outside the country’s airspace, not only that Iranian Air Defense Forces has identified 1,612 flying routes (4 unknowns within the countary) inside the country, some are currently used by countary’s civilian airline industry. This identification resulted, during Iran’s Air Defence and Missile System tests, conducted same week. This air defence exercise was named Defenders of the Sky of Vellayat III. More about S-300 missiles and defence of Islamic skies can be read HERE .

This photo released by the Iranian army, claims to show the launching of a Shahin missile in armed forces war games, outside the city of Semnan about 140 miles (240 kilometers) east of the capital Tehran, Iran, Thursday, Nov. 18, 2010

Still, Iran clearly is trying to close security gaps around nuclear sites – including Iran’s main uranium enrichment lab – and blunt the edge that the Pentagon and Israel gain from drone technology. Iranian commanders now view drones as a critical tool, including to monitor the US 5th Fleet based across the Gulf in Bahrain. Iran’s other military emphasis has been improving its long-range missile program. Washington believes Iran may have obtained advanced missiles from North Korea, known as BM-25, which could extend the strike range for Iran from the known 1,200 miles (1,900 kilometers) to up to 2,400 miles (4,000 kilometers), according to State Department cables obtained by the website WikiLeaks and made public Sunday. Such missiles could hit well beyond Iran’s top regional enemy Israel and into Europe or Russia. Iran restructured its military last year in an effort to improve its air defenses. Supreme Leader Ayatollah Ali Khamenei ordered a new branch to be split off from the air force to deal exclusively with threats to the country’s airspace. Since then, Iran has invested heavily in advances in surveillance and attack drones.

In August, Iranian President Mahmoud Ahmadinejad unveiled the latest addition to the country’s drone fleet: a 13-foot-long (four-meter-long) unmanned aircraft — called the “ambassador of death” — which can carry up to four cruise missiles with a claimed range of 620 miles (1,000 kilometers). At least two other Iranian nuclear scientists have been killed in recent years, one of them in an attack similar to the recent one. Iranian officials said they suspected the assassination was part of a covert campaign aimed at damaging the country’s nuclear program, which the United States and its allies says is intended to build a weapon, a claim Tehran denies. President Mahmoud Ahmadinejad told a press conference that ”undoubtedly, the hand of the Zionist regime and Western governments is involved in the assassination.” But he said the attack would not hamper the nuclear program and vowed that one day Iran would take retribution. ”The day in the near future when time will come for taking them into account, their file will be very thick,” he said.

As far as drones are concerned Iranians has seen what USA has done iin Pakistan and Afghanistan. Many analysts believe a longer-range drone is the logical next step of Iran – who is investing heavily in advances in surveillance and attack drones. What is the purpose of these activities and advances, while still holding onto the outdated militray technology, or is it political to show that they can defend themselves, exert power in the region?

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Boeing A160 – VTOL UAVs Comes to Age

FARNBOROUGH 2010: Boeing A160 Hummingbird

Farnborough 2010 (July.10) Boeing – A US aerospace company’s massive showing, included its own unmanned air vehicle pavilion. With an 11m (36ft) rotor diameter nearly as wide as the 10.7m autonomous helicopter is long, it is larger than other vertical take-off UAVs. But weighing in at 1,135kg (2,500lb), with its largely composite frame, it is also lighter, making up for the fact that it carries 45kg more than its weight in fuel. However, what makes the A160 unique is not something visible in its low-drag, reduced radar profile silhouette.

In conventional helicopters, the revolutions per minute of the rotors is normally locked in for a maximum forward speed, given weight and altitude considerations. At maximum forward speed, the tip of the advancing blade moves at speeds slightly under Mach 1, avoiding the drag and vibration seen at higher speeds. But being locked into a constant maximum rotor RPM also means that anything less that maximum forward speed – a hover, low-speed forward flight – the rotor is moving far faster than actually necessary, wasting fuel and creating drag, shortening the helicopter’s range. Humming Bird so far managed to fly at the speed of 165kt (305km/h) – with a service ceiling of between 20,000ft and 30,000ft and a range of around 2,500nm (4,620km). It is its blades that makes it unique, for range and speed compared to other in its class. For A160, the stiffness and cross-section of the rotor blades vary along their length. The low-loading hingeless design allows for changing RPMs to optimise efficiency at different speeds and altitudes. The Hummingbird has come a long way since the diesel-powered, variable-speed rotor experiment that was awarded a 30-month technology demonstration contract in March 1998. The first true Hummingbird prototype, a three-bladed design, debuted in December 2001 and had its first forward flight the following month at former US Air Force base at Victorville, California, using a Subaru engine.

In September 2003, DARPA awarded Frontier a $75 million contract for the design, development and testing of four A160s. By May 2004, Boeing had purchased Frontier from Karem. In August 2005, Frontier Systems – now a Boeing subsidiary – received a $50 million contract from the Naval Air Warfare Center Aircraft Division to examine the affordability of long-range VTOL UAVs for payload delivery. With no orders on the books, Boeing made the decision in late 2009 to put the helicopter into production, an unusual move in a business where manufacturers usually wait for a contract award or at least a military requirement before opening production. The A160 has already demonstrated its ISR capabilities to the US Army, as far back as 2008, at an annual C4ISR exercise at Fort Dix in New Jersey. Operating at the army’s Class IV UAV for the exercise, the Hummingbird integrated five different payloads for the event, Lavoranda says, including a 380mm (15in) Wescam electro-optical/infrared sensor ball and two mini tactical common datalink transceivers used to downlink full motion video from the EO/IR sensor Rover terminals to both mounted and dismounted troops with Rover terminals. The Hummingbird also proved its role as a communications relay, keeping two Humvees in contact when they moved out of the line of sight. In March, during six flights in two days, the A160 demonstrated its autonomous cargo delivery capabilities to the Marines, Wattam says, consistently delivering sling-loaded cargo within 1.2m of the target drop site. Furthermore, the A160’s proprietary, portable ground control system makes it possible to deliver cargo without a trained UAV pilot at the delivery site. After the UAV flies its pre-planned route, it stops and orbits until someone at the forward delivery location instructs it, with the touch of a button, to proceed to the inbound delivery point. Once there, another click tells it to hover over the delivery point. Adjustments can be made within a 1km range of the original delivery site before instructing the Hummingbird to lower its load, release the cable and head home on its predetermined path.

Unmanned Cargo Resupply Contract

K-MAX unmanned aircraft

According to the Sources Lockheed, together with manufacturer Kaman Aerospace, will get $45.8 million to operate the K-Max – who is copable of carrying 2721.6kg (6,000lbs) of cargo at sea level and more than 1,814.3kg (4,000lbs) at 10,000ft – while Boeing will receive $29.2 million to use its A160T Hummingbird to deliver cargo to Marines in Afghanistan. The Hummingbird, designated the YMQ-18A by the Pentagon, with its patented adjustable rotor speed technology, holds the record for endurance in its class, at 18.7h. In August 2010 the A160T Hummingbird underwent jungle test flights in Belize to test the ability of DARPA FORESTER foliage-penetrating radar to penetrate jungle cover. What makes this UAV unique is the incorporation of many new technologies – such as advance composite materials, Optimum Speed technology, ability to shift to another gear, and finally fthe uselage’s two large, stiff monocoque skins which help keep the frequency ranges of the structure outside the frequency ranges of the rotor as it changes its speeds.

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E-Bomb – Direct Energy Warfare

6th Generation Aircraft - Airforces to End the Desire for Pilots

The rules of battle have changed over the entirety of military history. Tools such as technology, strategy, tactics and weapons have been the principal elements determining what kind of rules apply to the battlefield. What can consititute to a sixth generation fighter jets – Thats the question I am asking myself since past week. Although it might be too early to think of these questions, when even planes like JSf, PAK-FA or F-22 are not even fully opertional. The contemporary military rivalry is driven mostly by the ongoing military technical revolution. In particular, the weapons used on the future battlefield will play an important role in military affairs. Which weapons can play a key role in the future? I will try not to be too technical, such that the article is applicable to general public as well, however, I have included the research papers and appropriate links for those intending to explore more about E-Bombs or Electromagnetic Weapon Systems.

Sixth generation jet fighters are currently conceptual and expected to enter service in the United States Air Force and United States Navy in 2025-2030 timeframe. The technological characteristics may include the combination of fifth generation aircraft capabilities with unmanned capibility, unrefueled combat radius greater than 1000 nm and Direct Energy Weapon. It is latter which is a subject of this article. One form of this energy is Electronic Bomb (E-Bomb). This article aim to explore the technical aspects and potential capabilities of this type of bomb, target measurements and its comparison with other form of electromagnectic weaponry.

Research has shown that it is possible to develop such kind of device. Directed Energy research originated with research work done to determine the impact to important military systems operating in harsh electromagnetic environments. One of the most threatening and pervasive of all electromagnetic threats is that due to electromagnetic pulse.

These pulses can burst of electromagnetic radiation that results from an explosion (usually from the detonation of a nuclear weapon) and/or a suddenly fluctuating magnetic field. However, its not only the nuclear weapon who generates these pulses, Non-nuclear electromagnetic pulse (NNEMP) is an electromagnetic pulse generated without use of nuclear weapons. There are a number of devices that can achieve this objective, ranging from a large low-inductance capacitor bank discharged into a single-loop antenna or a microwave generator to an explosively pumped flux compression generator. To achieve the frequency characteristics of the pulse needed for optimal coupling into the target, wave-shaping circuits and/or microwave generators are added between the pulse source and the antenna. A vacuum tube particularly suitable for microwave conversion of high energy pulses is the vircator. These HEMP induced stresses can damage or severely disrupt some electronic systems, which are sensitive to transient disturbance. Significant potential damaging effects can occur at long ranges to virtually all systems located within line-of-sight of the detonation point. Thus it is feasible to say, that NNEMP generators can be carried as a payload of bombs and cruise missiles, allowing construction of electromagnetic bombs with diminished mechanical, thermal and ionizing radiation effects and without the political consequences of deploying nuclear weapons.

The fact that an electromagnetic pulse is produced by a nuclear explosion was known since the earliest days of nuclear weapons testing, but the magnitude of the EMP and the significance of its effects were not realized for some time. As a result of the test, a very short but extremely intense electromagnetic pulse was observed. This pulse propagated away from its source with a decreasing intensity, which is also to be expected according to the theory of electromagnetism.

According to the CBS reports dated March 2003 stated the application of experimental EM Pulse:

The U.S. Air Force hit Iraqi TV with an experimental electromagnetic pulse device called the “E-Bomb” in an attempt to knock it off the air and shut down Saddam Hussein’s propaganda machine. The highly classified bomb created a brief pulse of microwaves powerful enough to fry computers, blind radar, silence radios, trigger crippling power outages and disable the electronic ignitions in vehicles and aircraft. Officially, the Pentagon does not acknowledge the weapon’s existence.

Direct Energy Warfare

Military action involving the use of directed-energy weapons, devices, and countermeasures to either cause direct damage or destruction of enemy equipment, facilities, and personnel, or to determine, exploit, reduce, or prevent hostile use of the electromagnetic spectrum through damage, destruction, and disruption. The defensive part of Electronic Warfare includes the offensive actions such as preventing the enemy’s use of the electromagnetic spectrum through counter measures such as damaging, disrupting, or destructing the enemy’s electromagnetic capability. Such weaponry (DEW) is an evolving addition to the EW.

Characteristics of Direct Energy Weapons

The most common characteristics of the direct energy weapons is that they attack at the Speed of Light. This pose some advantage over conventional weaponry, This helps in defeating targets
such as theater and ballistic missiles before they can deploy defense-saturating sub-munitions. Another advantage of such weapons is that they can be used against multiple targets at the same time. The direct energy weapons are classified into four catagories; High Power Microwave (HPM), Charged Particle Beams (CPB), Neutral Particle Beams (NPB) and High Energy Laser (HEL). It is the latter which is highly potential for military applications (both stratagic and tactical missions). However, for E-Bomb it is HPM is a base. But offcourse when compared to Laser technology, the microwave technology lags in terms of research. HPM – use electromagnetic radiation to deliver heat, mechanical, or electrical energy to a target to cause various, sometimes very subtle, effects. When used against equipment, directed electromagnetic energy weapons can operate similarly to omnidirectional electromagnetic pulse (EMP) devices, by inducing destructive voltage within electronic wiring. The difference is that they are directional and can be focused on a specific target using a parabolic reflector. High-energy radio frequency weapons (HERF) or high-power radio frequency weapons (HPRF) use high intensity radio waves to disrupt electronics. However, High and low power, Pulsed Microwave devices use low-frequency microwave radiation which can be made to closely mimic and interact with normal human brain waves having similar frequencies. Although belong to the same family of technology, the E-Bomb deployment differes from that of HPM.

Potential for Aircraft Operations

Scleher, D. Curtis in Electronic warfare in the information age, has defined the potential of these kind of weapons for Aircraft Operations. DEWs have great potential for aircraft operations since crews can enhance their own survivability in the battlefield, where the aircrafts are susceptible and vulnerable to missile threats, by protecting themselves with electromagnetic shields. In such environment, DEW systems may prevent the aircraft from threats by decreasing the detection and targeting capability of enemy. They may also aid in hit avoidance by deflecting, blinding, or causing the incoming missile to break lock and finally, where necessary, to destroy the missile itself before it reaches its target. An additional approach might be to defeat the fusing system of the incoming missile. However, when deploying these bombs, getting the projectile successfully right is the key, such that useful damage can be produced. Further information about the deployment of these DEWs can be accessed from Electronic warfare in the information age. By this stage one difference between HPM and E-bomb is apparanet, despite belonging to same technological family, and this difference is their deployment. HEMP – High Altitude Electromagnetic Pulse is not a directed energy weapon. The reason why HEMP is defined as an electromagnetic weapon is that it produces similar effects in electromagnetic spectrum and can cause similar impacts on electronic devices. The potential effects of a designed HPM weapon strongly depends on the electromagnetic properties of the target. Since it is difficult to get the required intelligence, the complexity of real systems poses technical difficulties. A typical HPM weapon system basically includes a prime source that generates the intended power, an RF generator, a system that shapes and forms the wave into the intended form, a waveguide through which the generated wave travel, an antenna that propagated the wave, and the control unit that manages all the steps.

AGM-154 Joint Standoff Weapon l

Delivery system considerations for E-bombs are very important. The massed application of such electromagnetic weapons in the opening phase of an electronic battle delivered at the proper instant or location can quickly lead the superiority in the electromagnetic spectrum. This package might mean a major shift from physically lethal weaponry to electronically lethal attacks (via e-bombs) as a preferred mode of operation. Potential platforms for such weapons delivery systems are AGM-154 JSOW (Joint Stand Off Weapon) glidebomb (shown above) and the B-2 bomber (shown below). The attractiveness of glidebombs delivering HPM warheads is that the weapon can be released from outside the effective radius of target air defenses, minimizing the risk to the launch aircraft, which can stay clear of the bomb’s electromagnetic effects.

B2-Bomber refueling

Another delivery method of e-bomb may be the use of UAVs. The technology of UAVs is still developing and partly immature; however, improvements can be expected in the next decade.

The e-bomb targets mission essential electronic systems such as the computers used in data processing systems, communications systems, displays, industrial control applications, including road and rail signaling, and those embedded in military equipment, such as signal processors, electronic flight controls and digital engine control systems. I must point out that when e-bomb outputs are too weak to destroy these systems but strong enough to disrupt their operations, system performance can be degraded. The relation between the altitude (shown below) where the e-bomb is detonated and a representation of the lethality range. Target information (to include location and vulnerability) becomes an important issue.

E-Bomb Footprint: Source <a href="http://cryptome.org/ebomb.htm/">Carlo Kopp</a>

E-Bomb – Science Fiction or a Fact?

Sor, can this hypothetical e-bomb be a significant weapon for the future battlefield? Theoratically, the military advantage obtainable with e-bombs is related mostly to their operational significance. Will future battlefields will be won by the countries that best manage the revolution in military affairs or technological revolution? If latter is the case, then one has to remind himself that technology is not a winner on its own, but it has been, and it will continue to be, a critical enabler. If everything else is equal, the side with better technology will win. Finally, can the country that first develops this new weapon have a significant and exploitable military advantage against other powers? Is is feasible for a nation to invest in this kind of bomb ? – The Debate Continues

As I have mentioned earlier, this piece is not research but infact just collection of some work, to explore the potential of EM technology in modern warfare as well as extending our previous discussion of Electronic Warfare For further reading about the subject I strongly suggest to read the following researches

References
Kopp, C. 1993. A doctrine for the use of electromagnetic pulse bombs. Air Power Studies Centre. Paper No. 15.
Kopp, C. 1996. An introduction to the technical and operational aspects of the electromagnetic bomb. Air Power Studies Centre. Paper No. 50.
Kopp, C. 2006. Directed Energy Weapons-Part 1. Defense Today May/June Publication.
Mazarr, Michael J. 1993. Military Technical Revolution-A Structural Framework. Center for Strategic and International Studies. Washington, D.C.
Scleher, D. Curtis. 1999. Electronic warfare in the information age. Boston: Artech House.

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Electronic Warfare Operations – Part I

O divine art of subtlety and secrecy! Through you we learn to be invisible, through you inaudible; and hence hold the enemy’s fate in our hands. – Sun Tzu (The Art of War)

Wedgetail Flares Test

The advant of technology and understanding the control of electronmagnetic specturm (EM) has taken the description of warfare to another level. Modern military forces rely heavily on a variety of complex, high technology, electronic offensive and defensive capabilities. EW is a specialized tool that enhances many air and space functions at multiple levels of conflict. Modern weapons and support systems employ radio, RADAR, infrared, laser, optical and electro-optical technologies. Modern military systems, such as the E-8C joint surveillance, target attack radar system (JSTARS), rely on access to the electromagnetic spectrum to accomplish their missions. So what exactly Electronic Warfare is?

EW is any military action involving the use of the EM spectrum to include directed energy (DE) to control the EM spectrum or to attack an enemy. This is not limited to radio or radar frequencies but includes IR, visible, ultraviolet, and other less used portions of the EM spectrum. As giving air and ground forces a superiority – the application of EW was seen in Operation Desert Storm (Gulf War) – Where self-protection, standoff, and escort jamming, and antiradiation attacks, significantly contributed to the Air Force’s success. Within the information operations (IO) construct, EW is an element of information warfare; more specifically, it is an element of offensive and defensive counterinformation. Electronic Warfare comprises of three main components: Electronic Attack – Electronic Protection – and finally Electronic Warfare Support, all includes the integrated Information Operations (IO).

Key to Electronic Warfare success is the control of Electromagnetic Spectrum Control. This is usually achieved by protecting friendly systems and attacking adversary systems. In reference to above mentioned three components of EW – Electronic Attack, limits adversary use of the electronic spectrum; – Electronic Protection – protects the use of the electronic spectrum for friendly forces, and Electronic Warfare Support – enables the commander’s accurate estimate of the situation in the operational area. All three must be carefully integrated to be effective. Friendly forces must prepare to operate in a nonpermissive EM environment and understand EW’s potential to increase force effectiveness.

Electronic Warfare for Air Forces

Air Force electronic warfare strategy embodies the art and science of employing military assets to improve operations through control of the EM spectrum. An effective EW strategy requires an integrated mix of passive, disruptive, and destructive systems to protect friendly weapon systems, components, and communications-electronics systems from the enemy’s threat systems. During the Gulf War, EF-111 RAVENS were used successfully against Iraqi radars and communications facilities. Conflicts in Vietnam and the Middle East provided deadly reminders of the necessity for effective EW against advanced threats and of the intense effort required to counter these threats. Current technology has given rise to new enemy capabilities, which includes the use of microwave and millimeter wave technologies, lasers, electro-optics, digital signal processing, and programmable and adaptable modes of operation.

Douglas B-66 Destroyer during Vietnam War

During the Vietnam War EB-66 was used against terminal threat radars, surface to air missiles (SAM) and anti aircraft artillery (AAA) as well as used as stand-off jamming platforms. EB-66 modified version of U.S light bomber B-66 Destroyer (shown above). The RB-66C was a specialized electronic reconnaissance and ECM aircraft with an expanded crew of seven, including additional electronics warfare experts. A total of 36 of these aircraft were built with the additional crew members housed in what was the camera/bomb bay of other variants. RB-66C aircraft had distinctive wingtip pods and were used in the vicinity of Cuba during the Cuban Missile Crisis and later over Vietnam. In 1966, these were redesignated EB-66C. After the retirement of B-66, General Dynamics/Grumman EF-111A (shown below) Raven came to play the role. EF-111A Raven was an electronic warfare aircraft designed to replace the obsolete B-66 Destroyer in the United States Air Force. Its crews and maintainers often called it the “Spark-Vark”, a play on the F-111’s “Aardvark” then nickname.

An EF-111A Raven aircraft supplies radar jamming support while enroute to Eglin Air Force Base during the multi-service Exercise SOLID SHIELD '87.

EF-111A achieved initial operational capability, in 1983 EF-111s first saw combat use with the 20th Tactical Fighter Wing at RAF Upper Heyford during Operation El Dorado Canyon in 1986 (retaliatory attack on Libya), Operation Just Cause in 1989. The EF-111A served in Operation Desert Storm in 1991. On 17 January 1991, a USAF EF-111 crew: Captain James Denton and Captain Brent Brandon (“Brandini”) archived an unofficial kill against an Iraqi Dassault Mirage F1, which they managed to maneuver into the ground, making it the only member of the F-111/FB-111/EF-111 family to achieve an aerial victory over another aircraft.

Operational Concepts

The effective application of electronic warfare in support of mission objectives is critical to the ability to find, fix, track, target, engage, and assess the adversary, while denying that adversary the same ability. Planners, operators, acquisition specialists, and others involved with Air Force EW must understand the technological advances and proliferation of threat systems in order to enable friendly use of the EM spectrum. To control is to dominate the EM spectrum, directly or indirectly, so that friendly forces may exploit or attack the adversary and protect themselves from exploitation or attack. Electronic warfare has offensive and defensive aspects that work in a “movecountermove” fashion. To exploit is to use the electromagnetic spectrum to the advantage of friendly forces. Friendly forces can use detection, denial, disruption, deception, and destruction in varying degrees to impede the adversary’s decision loop. For instance, one may use electromagnetic deception to convey misleading information to an enemy or use an enemy’s electromagnetic emissions to locate and identify the enemy. To enhance is to use EW as a force multiplier. Careful integration of EW into air and space operations will detect, deny, disrupt, deceive, or destroy enemy forces in varying degrees to enhance overall mission effectiveness. Through proper control and exploitation of the EM spectrum, EW functions as a force multiplier and improves the likelihood of mission success.

Billion Dollar Market For Electronic Warfare

Forecast International’s “The Market for Electronic Warfare Systems” projects an estimated $28.4 billion will be spent over the next 10 years on the development and production of the major EW systems. Some 44,807 units of leading Electronic Countermeasures (ECM), Radar Warning Receivers (RWRs), Electronic Support Measures (ESM), and other EW systems that make up this analysis will be produced. The top-ranked EW producers cited in the analysis (out of a total of 22 companies considered) are Northrop Grumman, BAE Systems, Raytheon, ITT, and Lockheed Martin. While production of leading missile countermeasures systems has helped position some of these companies at the top of the ranking, others are leading the development of all-important, next-generation technology. It is important to add that today’s EW market leaders are firmly established because of their ability to provide much-needed EW systems for immediate deployment to the battlefield. To cite just one example, despite some defense budget tightening, the Pentagon is expected to spend over $560 million through FY13 on procurement of Northrop Grumman’s Large Aircraft Infrared Countermeasures (LAIRCM) system for various Air Force aircraft. The service has declared that its long-range desire is to equip a total of 444 aircraft with the system. The market for systems to defeat improvised explosive devices (IEDs) will also warrant close monitoring in the years ahead. With the recent surge of U.S. troops into Afghanistan, there has also been an increase in the occurrence of IED attacks. To counter these attacks, a competition is currently under way for development of a Counter Radio-Controlled Improvised Explosive Device (RCIED) Electronic Warfare (CREW) 3.3 system of systems. The U.S. Naval Sea Systems Command in October 2009 awarded firm-fixed-price contracts to two companies for CREW 3.3 System of Systems development. ITT Force Protection Systems was awarded $16 million, while Northrop Grumman Space and Mission Systems, Network Communication Systems was awarded $24.3 million. International ventures will also have a significant impact on the EW market through the new decade. The primary platform for ITT’s ALQ-214 Radio Frequency Countermeasures (RFCM) system is the U.S. Navy’s F/A-18E/F Super Hornet. Through its association with the jet fighter, a potentially growing export market for the ALQ-214 has begun to emerge. For example, the system will equip the F/A-18Fs purchased by Australia a stopgap measure until its F-35 fleet is ready for service.

I will continue the implementation and integration of three major components of Electronic Warfare in my next post. Please do check back

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Between Threats and War – Living in a World Addicted to UAVs

The New America Foundation and Terror Free Tomorrow have conducted the first comprehensive public opinion SURVEY covering sensitive political issues in the Federally Administered Tribal Areas (FATA) of Pakistan. According to these polls people in tribal areas strongly oppose the US military pursuing al-Queda and Taliban fighters based in their region; American drone attacks deeply unpopular. The report concludes that nearly nine out every ten people in FATA oppose the U.S. military pursuing al-Qaeda and the Taliban in their region. Nearly 70 percent of FATA residents instead want the Pakistani military alone to fight Taliban and al- Qaeda militants in the tribal areas. This strongly suggests the high intensity opposition to the U.S military operations. For civilian officials, the military’s ability to find and destroy things from a safe distance never ceases to amaze. The CIA’s ongoing drone strike campaign is a particularly redoubtable example, with drone operators in the United States taking out targets in Pakistan’s tribal areas.

UAV – A New Way to Wage War

UAV – Unmanned Arial Vehicle, will only exist if they offer advantage compared with manned aircraft. Contrary to advantages, disadvantages are obvious to some of us as we see and hear every day. An old military adage (which also applies to civilian use) links the use of UAVs to roles which are dull, dirty or dangerous (DDD). To DDD add covert, diplomatic, research and environmentally critical roles.
Recently (as per 27 Oct 2010) Raytheon – major American defence contractor and industrial corporation with core manufacturing concentrations in defence systems and defence and commercial electronics, who has tested a new UAV weapon Small Tactical Munitions (STM) (0.6m-long (2ft), 13lb (5.9kg) bomb) at the Yuma Proving Ground in Arizona. The dual-mode, semi-active laser seeker and GPS inertial navigation system enable it to engage fixed and moving targets in all weather conditions.

With US army moving its concentration from Iraq to Afghanistan and continuous use of UAVs in Pakistan tribal areas by USA the demand for small unmanned air vehicles is moving into higher gear as well. US Army plans to buy 3,000 Raven small UAVs with already 2,000 in hand.

From the CIA’s silent war in Pakistan – two UAVs extensively used, the Predator and the Reaper, both made by General Atomics, a San Diego defence contractor. The Predator is the older of the two; the first one was delivered to the Air Force in 1994. By the end of the 1990s, the CIA was using it to track bin Laden. Capable of flying for up to 40 hours without refuelling, the drone was a “brilliant intelligence tool,” recalls Hank Crumpton, then the CIA’s top covert-operations man in Afghanistan. Although the CIA was keen to weaponize the drone early on, the Air Force resisted the idea until 2000. Even then, firing the weapons was another matter. The Predator’s firepower is limited, but the Reaper can deliver laser-guided 500-lb. bombs like those commonly found on the F-16 jet, together with Hellfire missiles. Marc Herold, in looking at casualties in Afghanistan, quotes an ‘effective casualty radius’ for the Mk82 of 200 feet: this is radius inside which 50% of those exposed will die. Quite often the target is taking cover or lying down and the effect is reduced, but if you can catch people standing up or running then the full effective casualty radius will apply.

But why use UAV; Times (CNN) published a report in June 2009, The CIA’s Silent War in Pakistan saying:

“If we were sending F-16s into FATA–American pilots in Pakistani airspace–they might have felt very differently,” says James Currie, a military historian at the U.S.’s National Defence University.

“The basic problem with all aerial reconnaissance is that it’s subject to error,” says George Friedman, who heads the security firm Stratfor. “But in a place like Pakistan, errors have enormous political consequences.”

Critics of the drones ask if it makes sense for the U.S. to use them when every strike inflames Pakistani public opinion against a pro-U.S. government that is at the point of collapse. And yet Pakistani leaders like army Chief of Staff General Ashfaq Kayani seem to have concluded that using drones to kill terrorists in FATA is generally a good thing. This is a major change in direction; although former President Pervez Musharraf allowed drones to operate, he placed severe limits on where and when they could strike. After Musharraf resigned last summer, the shackles came off. The U.S. struck a tacit bargain with the new administration in Islamabad: Zardari and Kayani would quietly enable more drone operations while publicly criticizing the U.S. after each strike. The arrangement has worked well for the U.S.

PlayStation Mentality

We are now more facinated with War Games then before, even COD now includes Karachi and Kabul in their Missions

Warning that the technology is making target killings much easier and more frequent, a report issued by New York Times raised concerns that drone operators based more than thousand miles away from the battlefield, risk developing a PlayStation mentality towards killing. Target killing outside the war zone, never likely to be legal but US administration argues their legality after September 11-2001. Inaccurate and unprofessional attitude by military drone operators from remote locations, do indeed led to civilian killings. CIA so far has carried out more than 80 drone attacks in 2010 alone, according to The Long War Journal, which tracks these strikes. Surprisingly of vast majority of the attacks involved firing multiple missiles or bombs.

Pakistan’s Latest Military Gadgets

Pakistani officials were fortunate to be greeted with a fresh offer of military hardware – possibly totalling as much as $2 billion over the next five years. This latest gear includes (likely to include) night vision goggles, and helicopter spare parts. This is not new for Pakistanis, since 9/11 Pakistan’s gotten lots of big-ticket items from the U.S. military. According to the Congressional Research Service’s tally, that includes eight P-3C Orion maritime patrol aircraft; six C-130 cargo planes; over 5000 TOW anti-armor missiles; 100 Harpoon anti-ship missiles; and even an Oliver Hazard Perry-class missile frigate. And by next year, Pakistan will receive 18 new F-16 combat jets from the U.S. — fighters capable of carrying a nuclear payload. Considering the latest gear what options does Pakistan have? According the Spencer Ackerman of Wired MAGAZINE

“Unless al-Qaeda and the Pakistani Taliban have developed an armor corps and a submarine-heavy Navy while no one was looking, these weapons have more utility against the Indians than the terrorists.”

This gear is either a treat from US for Pakistan to use against terrorists or U.S. military seeks to prevent a deepening erosion of a relationship that US can’t live with. This especially true after recent wikileaks suggesting a strong ties between Pakistan and Insurgents. WikiLeaks has freaked out the White House, though, by clearly raising questions about whether Pakistani aid to the Afghan insurgency is far deeper than typically acknowledged. How much truth is in it, I think it will be too early to say anything. However, it’s not a surprising news that the Pakistani ISI has ties to the Afghan Taliban, the Haqqani network and Gulbuddin Hekmatyar’s Hezb-e-Islami. How much of this money or gear will go to Afgan pockets no one knows, it is only a time who will show a true motivation behind these large spendings on US non-NATO ally. But Is there a silver lining to Pakistan’s relationship with the insurgents? Not known, at least to me. Are things still Koran, Kalashnikov and laptop or do I have to add heat seeker missiles to it as well? I am not so sure.

A Silent War in Waziristan

The wilds of Waziristan, an unlikely showcase for the future of warfare

The Council on Foreign Relations has just released a new report on U.S. policy on Afghanistan and Pakistan, the report is based on the study conducted by former national security advisor and former Deputy Secretary of State. As far as Pakistan is concerned, the report broadly endorses U.S. policy of trying to build a long-term partnership, while also aiming to persuade it to turn convincingly against all militant groups. It reiterates a U.S. complaint that while Pakistan is ready to act against militants that threaten the Pakistani state. Reuters cited, that the report’s endorsement of U.S. support for Pakistan comes with a hard edge, warning that failure to achieve results, or an attack on the United States traced back to Pakistan-based militants, could lead to a much more aggressive U.S. policy:

“There are several strategic options available to the United States if the administration concludes that the current strategy is not working. In Pakistan, Washington could turn away from its present emphasis on rewarding and encouraging long-term bilateral cooperation. Instead, it could undertake increasingly aggressive, unilateral U.S. military strikes against Pakistan-based terrorists deeper into Pakistani territory, coercive diplomacy and sanctions, or a range of financial, diplomatic, and legal restrictions to control the flow of people, money, goods, and information to and from Pakistan. This strategy of containment and coercion could be coupled with a distinct diplomatic ’tilt’ toward India, with New Delhi serving as Washington’s main strategic and counterterror partner in the region.”

Almost week after the report was published US showed its interest to expand the operations for drone within Pakistan up to Quetta, which Pakistan has rejected, with an agreement to practise more modest measures. US intend to expand the boundaries where CIA drones can fly. The unmanned aircraft may patrol designated flight boxes over the country’s tribal belt but not other provinces such as Baluchistan. In reference to the arguments put forward by both countries, it is evident that the disagreement over the scope of drone programme underscores broader tensions between the US and Pakistan, who are increasingly pointing fingers at one another over the rising level of insurgent violence on both sides of the Pakistan-Afghanistan border. Pakistan officials stressed that Quetta is densely populated city where strike is more likely to result in civilian causalities, however US officials have long suspected that there are other reasons for Pakistan’s aversion including the surveillance of Pakistan nuclear facilities based in Baluchistan.

The subject is quite intrinsic and needs a historical background to understand and reach the root cause. But to take the current situation only in account, in my opinion this is a reaction to the US Obama-Led administrations cohesive gesture and voices of triumphs for India, has shunned the Pakistan’s political and military regimes expectations as Pakistani’s are engaged in a large scale war on terror in alliance with the United States.

On the very other side, it may be taken into account the tribesmen residing on the western borders of Pakistan, have been so badly hit by their own army in alliance with the foreign intervention that the Pakistani military and government is now thinking of changing their footprints towards a dialogue to settle the area down, which indeed is a good option not good for the United States to continue with its military voyage to hunt down the terrorists.

Now when NATO summit concludes that the foreign forces shall handover the military command of Afghanistan to the National Afghan Army, they plan to flee this place till 2014. I also wonder role played by the Pakistani intelligence by supporting the pro-Pakistani Taliban likewise the silent war fought against the USSR 3 decades back.

This may be taken into consideration that the public opinion against the American intrusion has crossed the limits, and the Pakistani- Government now fear that this may not burst up and may not be end of its times.

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The Buzz on China’s Drones

Chinease Ajain - Dark Sword

Since UAV (or Drones, as known to Asia Pacific) are very much in main-stream these days. So, I had to dedicate some more space within my blog to these unmannes vehicles. In an ongoing Chinease 8th International Airshow – Zhuhai 2010, Chinese commercial and defense aviation companies are exhibiting more than 25 UAV models. That is a record number of UAVs, according to show officials, and continuing evidence of China’s growing interest in unmanned technology. So Chinease are not only competing western industry for civilian or military jets, but UAVs also, as the show reveals. Some of the UAVs will serve as combat and battlefield reconnaissance roles. In one video, a UAV locates a U.S. aircraft carrier and relays the information for a follow-on attack by Chinese anti-ship missiles. Three Chinese companies – ASN Technology Group, China Aerospace Science and Industry Corp. (CASIC), and China Aerospace Science and Technology Corp. (CASC) produced most of the UAVs on display.

ASN Technology is the largest UAV production company in China, with a history of developing unmanned aerial platforms, including drones, since 1958, said a company press release. The primary customer is the Chinese military and the company controls more than 90 percent of the UAV market in China. ASN showed off 10 different UAVs, including the new ASN-211 Flapping Wing Aircraft System, which simulates a bird in flight. The prototype on display has a take-off weight of only 220 grams with a maximum speed of six-to-10 meters a second and an altitude ranging from 20-200 meters, primarily for low-altitude reconnaissance missions.

The largest UAV on display by the company was the ASN-229A Reconnaissance and Precise Attack UAV. Equipped with a satellite data link, it can perform aerial reconnaissance, battlefield surveys, target location and artillery fire adjustment during the day or night. It has a take-off weight of 800 kilograms and a cruising speed of 160-180 kilometers per hour with an endurance of 20 hours. Weighing in at 800 kg, ASN’s largest system was the armed ASN-229A Reconnaissance and Precise Attack UAV, which is still under development. Able to cruise at 180 km/h, the 5.5 m-long ASN-229A can perform reconnaissance, target location or artillery observation missions via a satellite data-link. Also among the 600 exhibitors were China Aerospace Science and Industry Corporation (CASIC) and China Aerospace Science and Technology Corporation (CASC). Both state-owned companies showcased sophisticated missile-armed UAVs. CASC displayed the CH-3 carrying two air-to-ground missiles akin to the AGM-114 Hellfire. This 640 kg medium-range craft with 220 km/h cruising speed is optimised for reconnaissance, intelligence gathering, artillery fire adjustment and electronic warfare, as well as the depicted attack platform.

CASC displayed the CH-3 multipurpose medium-range UAV system suitable for battlefield reconnaissance, artillery fire adjustment, data relay and electronic warfare. A company official said the CH-3 could be modified as an attack platform carrying small precision-guided weapons. Weapons outfitted on the display included two air-to-ground missiles similar in configuration to the U.S.-built Hellfire. CASIC took the prize for UAVs capable of intimidating the U.S. military. These included the jet-powered WJ-600. Aerospace Science and Industry Group, according to the material, WJ-600 can be mounted opto-electronic reconnaissance, synthetic aperture radar, electronic surveillance and other mission equipment, with fast response, and strong penetration ability, and can all-time effect of all-weather reconnaissance and damage assessmenttask, you can also load other types of equipment to achieve the task of ground attack, electronic warfare, information relay, and target simulation and other military tasks. Moreover, this means that WJ-600 drone is capable of trabelling faster than both U.S Predator and Reaper, currently opnerational in Afghanistan and Pakistan. The general speed of the UAV flying only about 30 m/s (58.3 knots), while the WJ-600 can be up to 200 m/s (389 knots – about 100knots greater than U.S MQ-9 Reaper who is equipped with turboprop engine), better on the flight altitude, up to ten thousand meters altitude – thanks to its jet engine. At this stage the project look rather ambitious

Other UAVs displays included a little-known company called Zhuhai X.Y. Aviation, which exhibited two new reconnaissance platforms, the 200-kilogram Blue Arrow (UR-J1-001) and 40 kilogram Sky Eyes (UR-C2-008). A company spokesperson said there were three prototypes of the Blue Arrow now being test-flown and that the prop-driven engine was from an unidentified “German company.”

Closing the UAV Gap

The recent display of 25 UAVs at the Zhuhai was not only the surprise for westeran but also flet by Japan, North and South Korea, and the Taiwanese officials.Drone technology, thus far, has been led by the U.S. and Israel. China now has UAVs that are comparable, although not equal, to the American Predator and Global Hawk. most of the ASN models in use by the Chinese military are older, more like the 1990s technology found in the U.S. Army Shadow 200 (now being replaced by the Predator-like, 1.2 ton Gray Eagle). One of the most numerous Chinese army models, the ASN-206/207, is a 222 kg (488 pound) aircraft, with a 50 kg (110 pound) payload. The 207 model has a max endurance of eight hours, but more common is an endurance of four hours. Max range from the control van is 150 kilometers and cruising speed is about 180 kilometers an hour. A UAV unit consists of one control van and 6-10 trucks, each carrying a UAV and its catapult launch equipment. The UAV lands via parachute, so the aircraft get banged up a lot. A UAV battalion, with ten aircraft, would not be able to provide round the clock surveillance for more than a week, at best. But Chinese planners believe this is adequate.

Sources suggests that many of the Chinese UAVs demonstrate an American influence, some appear to be using Israeli technology. That’s no accident, as four years ago, Israeli UAV manufacturer EMIT got busted after it was caught shipping UAV technology to China. EMIT was not a major player in the UAV industry, having only three models; the 450 kg Butterfly, 182 kg (400 pound) Blue Horizon, the 48 kg (hundred pound) Sparrow. The twenty year old firm has been scrambling to stay in business. The Chinese helped set up a phony cooperative deal in a Southeast Asian country, to provide cover for the transfer of EMIT UAV technology to China. Most of EMIT’s production is for export, but Israel has agreed to consult with the United States about transfers of technology to China. This is because Israel has been caught exporting military equipment, containing American technology, to China (in violation of agreements with the United States.) China tends to get technology wherever, and whenever, it can.

Chinease Xianglong

Two years ago, China revealed that it was developing a new UAV, similar to the U.S. RQ-4 Global Hawk. Called Xianglong (Soaring Dragon – shown above), it is about half the size of the Global Hawk (shown below), at 7.5 tons, with a 14.5 meter (45 foot) wingspan and a .65 ton payload. Max altitude will be 18.4 kilometers (57,000 feet) and range will be 7,000 kilometers. It has a faster cruising speed (750 kilometers an hour) than the RQ-4. The Chinese Xianglong is intended for maritime patrol, as is a U.S. Navy model of the RQ-4. The shorter range of the Xianglong is apparently attributable to the lower capabilities of the Chinese aircraft engine industry.

U.S Global Hawk

Interestingly, This year’s models in Zhuhai included several designed to fire missiles, and one powered by a jet engine, meaning it could in theory fly faster than the propeller-powered Predator and Reaper drones that the U.S. has used in Iraq, Afghanistan, and Pakistan. The large number of UAVs on display illustrates clearly that China is investing considerable time and money to develop drone technology, not only that the equation is equally balanced by promoting these products to international market. The implications of this is not only China’s internal security, also this is also an opportunity for nations alike China or Pakistan who have sought in vain to acquire drones either for military purposes or for police surveillance and antiterrorist operations. However, this is of particular concern to the U.S. and Israel, whose drones are unrivalled in the world today, and could worry China’s neighbors. A further details about Chinease buzz on drone technology can be read at the Wall Street Journal who has recently published a detailed resarch about the Chinease catch-up to U.S and Israel.

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