Smart Weapon is referred to as, missile or steerable bomb outfitted with a laser, television, or satellite steerage system. Smart weapons, which use steerage methods that depend on exterior help, are distinguished from brilliant weapons, that is completely self-guided.
The smart weapons market research contains weapons, missiles, and ammunition which might be in development and production, for their use within the military sector. Based on the product, the market is segmented into missiles, and ammunition and different products.
The missiles section contains varied surface-to-air missiles, air-to-ground missiles, anti-tank rockets, air-to-air rockets, air-to-surface rockets, and anti-submarine rockets. The ammunition and other product segment contain smart bullets, precision artillery ammunition, electromagnetic pulse weapons, sensor fused weapons, and smart bombs.
The Evolution of Smart Weapons:
- One of the first references to an autonomous weapon was a US patent application, filed in 1916, for an aerial torpedo. In trendy terminology, this may be referred to as a lock-before-launch guided bomb, and it was meant to be dropped from an aircraft straight over a ship.
- The design comprises of several features, such as a quadrant detector for target tracking, and electrical actuators for the fins, which had been reinvented a few years later. Like many good concepts, it was effectively ahead of the available technology.
- The following main steps in the direction of smart weapons had been taken during the Second World War, and of specific importance was the work carried out in Germany. The V1 and V2 weapons are well-known.
- However, these had comparatively inaccurate, inertial, and magnetic steerage methods, and were solely suitable for attacking very massive targets such as cities. To attack small targets, the Germans developed a variety of command-link weapons which had been flown onto the target by an operator by way of a radio or wire control link.
- These included the SD 1400X, a radio or wire-guided bomb which was used to sink the Italian battleship Roma in 1943 and the X4 and X7 wire-guided air-to-air and anti-tank missiles.
- A distinct type of command link weapon was Wasserfall, a ground-to-air rocket with radar beam rider steerage. In post-war years this was developed by the US as the Nike-Zeus weapon.
- The primary problem with command-link guidance, notably in opposition to shifting targets, is that the operator or an automatic tracker should judge and control very small angles within the remaining crucial part of the flight.
- One solution is to fit the missile with a small TV camera to provide the operator with a closing view of the goal. This principle was successfully demonstrated in the HS293D weapons.
- Towards the end of the warfare, the Germans began work on truly autonomous air-to-air missiles utilizing passive Infra-Red (IR) guidance.
- They developed appropriate lead sulphide detectors and had been experimenting with numerous target detection and tracking systems, utilizing rotating reticles when the work was brought to a halt by the end of hostilities.
- The work within the UK on IR and radar throughout the Second World War was directed more at the detection of hostile aircraft and ships than missile guidance.
- Nonetheless, experiments on the airborne detection of the plane with IR and the early radar work additionally helped to put the foundation for the post-war developments.
- The smart weapons market is projected to develop from USD 11.52 Billion in 2016 to USD 15.64 Billion till 2021, at a CAGR of 6.4% in the course of the period into consideration.
- Market size estimations for varied segments and sub-segments of this market had been arrived at by extensive secondary analysis and government sources, such as the U.S. Department of Defence (DoD), the U.S. Air Force web site, company web site, company filings, similar to annual reports, investor presentations, and monetary statements, and trade, enterprise, and professional associations, amongst others.
- Corroboration with primaries and further market triangulation with the assistance of statistical strategies utilizing econometric tools had been carried out. All proportion shares split, and breakdowns were decided using secondary sources and verified by primary sources.
- Change within the nature of warfare and demand for prime precision arms and ammunition are two main elements driving the smart weapons market through the forecast period.
- The rising military spending of the emerging countries helps the nations to spend money on the development of the latest and advanced smart weapons and modernize their tools. That is also propelling the expansion of the smart weapons market.
- Acquisition of smart weapons by the defence sector has elevated significantly in the past few years, primarily pushed by a rise in terrorist actions globally, particularly in North America and Europe.
- Smart weapons with laser and infrared technologies are being procured in large number.
- On the basis of technology, the infrared section is anticipated to guide the general smart weapons market in 2016.
- The laser segment is anticipated to develop at the highest rate within the coming years. This may be attributed to the rising demand for technologically advanced autonomous weapons.
- The North America area at present has the highest market share and is anticipated to have the very best development throughout the forecast interval.
- That is majorly because of the growing defence budget and government help, in addition to steady development and procurement of modern warfare equipment, consists of smart weapons, smart textiles, and advanced armament.
- The US Army placed an order BONUS, a 155-millimeter heat-seeking anti-tank shell, from BAE Systems Bofors and Nexter Systems. Similarly, the US Navy signed a contract value roughly USD 600 million to offer superior precision kill weapon system (APKWS) laser-guided rockets.
- This contract was supplied in October 2016 to satisfy the needs of the US Air Force, US Army, US Navy, US Marine Corps, and to the allied nations.
Industry Key Players:
The smart weapons market is highly disintegrated, owing to the presence of several players who provide different weapons based on various technologies.
Some of the prominent members in the smart weapons market are:
- The Boeing Company
- L3 Technologies Inc.
- BAE Systems PLC
- Raytheon Company
- Thales Group. Investments
The target audience for the Smart Weapons Market is as follows-
- Regulatory Bodies
- Component Suppliers
- Original Equipment Manufacturers (OEMs)
- Technology Providers
Categories of Smart Weapons:
- By Platform–
- By Technology–
- By Product–
Anti-tank Missiles & Standoff Missiles
Air-to-Air & Air-to-Surface Missiles
Anti-Ship & Anti-Submarine Missiles
• Guided Projectiles
• Guided Rockets
Anti-tank & Tactical rockets
Air-to-Air & Air-to-Surface
• Precision Guided Firearms
Small Smart Weapons
Shoulder Fired Weapons
1. What is inertially guided bomb?
The CBU-107 Passive Attack Weapon is an air-dropped guided bomb containing metal penetrator rods of various sizes. It was designed to attack targets where an explosive effect may be undesirable, such as fuel storage tanks or chemical weapon stockpiles in civilian areas.
2. Do missiles spin?
Missiles are self-propelled units, so they don’t need to have an airtight fit inside their launch tubes. As such, they can have fins, which enables them to fly reliably without spinning. They do spin, but not necessarily at the same speed as a bullet, nor for very long. As to air-to air missiles, not much spin at all.
3. Why does rocket spin?
The pitch axis is perpendicular to the yaw and roll axes origin at the centre of gravity. A pitch motions is an up or down movement of the nose of the rocket. We let the rocket spin as soon as it leaves the launch pad, so that it has the greatest effect at preventing weather-cocking.
4. What is the best angle to launch a rocket?
That means that the best way to launch a high-altitude projectile is to send it flying at a 90-degree angle to the ground, straight up.