Of course, video satellites are only one of the many applications of staring imaging systems. In other aspects, especially in the field of military equipment, the uses of this technology are truly widespread, because many missiles are equipped with a staring imaging system at the end. , the strike accuracy will be doubled.
Take the most widely used air-to-air combat missile as an example. In the past, the infrared seeker used a scanning component. Although it has a strong ability to capture targets, it is susceptible to interference.
Especially in dog fights, enemy fighters can easily avoid incoming air combat bombs by performing large overload maneuvers with the cooperation of thermal infrared decoy bombs.
This is not bad. If the performance of the infrared seeker is poor, when the weather is fine, the infrared combat bombs launched will not even chase the aircraft, but will be directed towards the largest source of thermal infrared in the solar system - the sun. Bumped into it.
The infrared combat bombs that use staring imaging system technology are different. Due to the use of extensive image collection of continuous points, they have higher definition and greater accuracy than the past scanning methods. Together with the task computer with greater redundancy, the infrared The seeker is just like the human eye, which can easily grasp the exact position of the target, thereby making the missile more reliable and further expanding the no-escape zone.
Because of this, as long as this type of missile catches the enemy aircraft and successfully shoots it out, no matter how difficult the enemy aircraft performs in the air, there is only one thing waiting for it, and that is to be shot down.
This is true for tactical-level air-to-air missiles, and strategic-level cruise missiles are also an important platform for the application of staring imaging system technology. As we all know, the guidance method of cruise missiles is never a single one, but a combination of multiple guidance methods. Only in this way can we ensure that the cruise missile Missile strike accuracy.
In order to ensure the strike accuracy of cruise missiles, all countries without exception have installed a guidance system called map matching on cruise missiles.
The simplest thing is to formulate the cruise missile's route according to the different contours of the terrain, and then set a few key nodes. When the missile flies to these nodes, use the radar echo to confirm the contours of these nodes, and then communicate with the program. Compare the data in and adjust the route based on the comparison results.
The "Tomahawk" cruise missile used by the US military in the Gulf War used this method.
It's all good, but the preparation time for this method is too long, usually between 16 and 26 hours. In addition, this method cannot be used in areas with too complex terrain, otherwise it will easily be affected by terrain survey. Accuracy issues lead to wandering and crashing.
But all this is not a problem at all in a desert like Iraq. The rivers, highlands, and hills on the flat desert are the best route nodes, not to mention that Americans have the GPS buff in the sky as an aid, so I really want to You can fight however you want, without any scruples.
The question is whether all countries are as capricious as the US military, so we explore better matching and comparison effects. The principle is not difficult. Even elementary school students can understand that just use the same photos.
Aerospace experts naturally know this truth. The problem is how to solve the autonomous comparison of cruise missiles.
? Collecting terrain data is simple. This is what remote sensing and surveying are usually done. The difficulty lies in the matching and comparison of the cruise missiles themselves.
In this regard, Ascendas Group, which has rich experience in the development and production of UAVs, is among the best in the first echelon in China, because a few years ago, Ascendas Group achieved initial success with the special target missile of the Target-5 cruise missile. Optimizing the layout of the entire cruise missile industry chain, and trying to make breakthroughs in terrain matching technology, it successfully developed a simple terrain matching technology that uses lidar imaging to match remote sensing terrain data.
Good results have been achieved in previous exercises and actual combat training of the troops.
However, lidar has its own limitations after all. For example, the entire system is too heavy, has poor anti-interference ability, and is greatly affected by weather.
Therefore, it is okay to use a special target missile for the target-5 cruise missile. If it is used as a cruise missile, it may hit the street before it reaches the target.
Because of this, Ascendas Group is not satisfied with the status quo of the Target-5 cruise missile special target missile category. After all, the times are developing and mankind is progressing. Although Ascendas Group's purpose is world peace and human development, it still wants to achieve How can this ultimate goal be achieved if there is no useful information in hand?
Besides, during Pakistan¡¯s recent visit to China, it visited the production workshop of the Ascendas Group¡¯s Target-5 cruise missile special target missile. The Pakistani military, which is working on the development of domestic cruise missiles, was immediately interested in this special target missile and hoped that Being able to purchase a batch of strategic chips to reinforce New Delhi Bah is to improve the training level of our own air defense forces.
But he made a request?, that is, it is hoped that the terrain matching technology of the Target-5 cruise missile's special target missile can be further optimized in order to increase its accuracy and response speed.
If this was done in the past, Ascendas Group really had no good solution. You must know that technological breakthroughs do not happen overnight. Do you want to see the results of investment and accumulation every three to five years? Unless it's a dream, but even so, sometimes the manpower and material resources invested in target shooting may not even make a splash.
This is the disadvantage of R&D. The input-output ratio is difficult to control, and the risks are frighteningly high. Naturally, there is no easy way to make quick money.
Although Ascendas Group has made rapid progress over the years, it has also encountered an insurmountable ceiling in technology. There are many factors causing this, the most important of which is the lag in domestic basic science.
Therefore, when encountering high-end customers such as Pakistan, the Ascendas Group a few years ago would most likely lose patience and eventually cancel the order due to long-term research and development.
Fortunately, the super furry bear in the north, the enemy of Western imperialism, the pioneer of the red flag of mankind, the master of the fighting nation, the torrent of awesome steel, the true man Soviet Union, actually turned itself into a waste.
With the sudden disintegration of the Soviet Union, the huge Soviet military-industrial system collapsed, and a large number of talented Soviet technical experts went their separate ways because of this largest geopolitical disaster in the twentieth century.
Some of them came to China, and among these people were outstanding Soviet experts who were in love with Ascendas Group.
Victor Bukharin, an academician of the Soviet Academy of Sciences, worked for the Lavochkin Design Bureau in his early years, participated in the joint astronomical deep space exploration project of the Soviet Union and France, and was responsible for the development of the most core optical equipment.
Later, he was transferred to the Soviet Southern Design Bureau in Ukraine to participate in the development of the Soviet Union's new generation of intercontinental ballistic missiles, and was responsible for the development of infrared optical guidance at the end of the distributed warhead.
As a result, before the entire project was completed, the Soviet Union disappeared. Bukharin traveled to many places in order to make a living, and finally came to China and was accepted by Ascendas Group. Then he used his unique skills for so many years - staring at imaging system technology. In Xiping, I changed to a big villa and a big luxury car, and started the second half of my life without shame.
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