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Chapter 3037 Application of Anti-Anti-Satellite Weapon Technology

In addition to the first two interception methods, we also have a third interception method, which is also the interception mode we mainly recommend.

Zhou Yonghui then continued to introduce Lin Jiaming to the two of them: "Have you noticed the four booster-style structures on the tail of the missile in the middle of the platform?"

Isn’t this a booster? Zhang Jun asked?

No. Zhou Yonghui shook his head and said: "This anti-missile intelligent penetration missile is actually a cluster bomb. These four small rockets similar to boosters are actually a missile, but a high-speed interceptor missile.

.

These four missiles are mounted on the mother bomb, and together they form a complete anti-missile intelligent penetration missile. The number of high-speed interceptor missiles can also be continuously adjusted according to mission needs. It can be four or two.

.

These four high-speed interceptor missiles will not play any role when the mother bomb is flying. When an anti-aircraft missile strikes, the missile-borne anti-aircraft missile incoming warning and sensing system will guide and control the four high-speed interceptor missiles to intercept the incoming air defense missile.

Anti-aircraft missile attack.

Compared with the previous two interception methods, this interception method is more convenient, faster, more accurate, and has a higher interception success rate.

Even these high-speed interceptors can confuse the enemy's air defense and anti-missile systems and cover the penetration of anti-missile and intelligent penetration missiles.

When the missile-borne anti-aircraft missile incoming early warning sensing system detects the incoming air defense missiles, it will release the high-speed interceptor missile mounted on the missile body.

These high-speed interceptors will adopt special flight trajectories, and the high-temperature tail flames ejected from their tails can display very obvious infrared heat signals. As a result, some infrared-guided air defense missiles may change their targets to track these high-speed interceptors.

The missile is detonated, thereby providing cover for the anti-missile intelligent penetration missile, allowing it to take the opportunity to break through the enemy's air defense network and attack important targets protected by the enemy."

At this point, Zhou Yonghui paused and then continued: "In fact, it is not only active interception. When this missile-borne anti-aircraft missile incoming warning and sensing system detects an incoming anti-aircraft missile, it will control the missile to maneuver and avoid it."

Intercept these anti-aircraft missiles, and then look for air strikes from their air defense systems to penetrate them."

After hearing Zhou Yonghui's introduction, Wu Hao nodded slightly. This is also a good response measure. Conventional missiles do not have this function. They will only fly according to predetermined instructions and will not take the initiative to attack incoming missiles.

Avoid incoming missiles and avoid detecting incoming missiles.

The valuable thing about this system is that it allows the missile to detect incoming missiles and take corresponding countermeasures in advance, whether it is controlling the missile to maneuver to avoid interception by enemy anti-aircraft missiles.

Or use the interception weapon system of the missile's own thin belt to intercept the incoming air defense missiles. This is a very good response plan. It should be said that it has set a precedent in anti-anti-missile, anti-air defense and penetration. No, it should be

It is said that a new path has been opened up.

Such an anti-missile smart penetration missile would be very expensive, right? Zhang Jun asked at this time.

Zhou Yonghui smiled and nodded and responded: "Of course it is expensive. Missiles are expensive to begin with, and anti-radiation missiles that specifically deal with local air defense systems and radars are even more expensive, not to mention this kind of anti-missile intelligent penetration missile.

Because it is expensive, this kind of anti-missile smart penetration missile is destined to only be used for some important tasks, or to perform some special strike missions. For example, in the early stages of the war, this kind of anti-missile smart penetration missile was used to deal with the enemy.

A well-defended air defense network is specially designed to attack key protected radar stations, air defense missile sites, important command centers, communication centers, transportation hubs, material and ammunition warehouses, etc.

Or it can be used to penetrate the enemy's tight air defense system and attack its important and high-value targets.

It can also be used to equip some ammunition systems that are easily intercepted, such as unmanned aerial vehicle systems and cruise missile systems. Both unmanned aerial vehicles and cruise missiles are not very fast because they are not fast and their flight altitude is not high.

Easily intercepted.

If equipped with such an anti-aircraft missile incoming early warning and sensing system, it will greatly increase the battlefield survivability of these drones and cruise missiles and improve their strike efficiency."

Speaking of this, Zhou Yonghui paused for a moment, then looked at Wu Hao and Zhang Jun and lowered his tone and said: "In fact, there is another role, that is, we can consider equipping it on our strategic weapons in the future, thereby increasing the surprise of these missiles.

defense capabilities and enhance deterrence.

On the other hand, we can also consider equipping it on some important satellites to deal with enemy anti-satellite weapons, thereby increasing the wartime survivability of these important satellites."

This is a very good idea. Wu Hao's eyes lit up when he heard this, and he couldn't help but admire it.

Indeed, modern war is actually about informatization, and the role of satellites in war is obvious to all. Whether it is reconnaissance satellites, communication satellites, or navigation and positioning satellites, these are all modern weapons.

Equipment services. Once they have problems, no matter how advanced the weapons and equipment are, they will be useless.

For example, drones that rely on precision guidance, precision-guided bombs, glide bombs, cruise bombs, cruise missiles, etc., as well as other weapons and equipment, such as aircraft, tanks, ships, etc., will all be affected.

Therefore, in recent years, various countries have attached great importance to the research of anti-satellite weapons, and have increased investment and achieved very impressive results. It can be said that once some large-scale war breaks out, these various functions in space orbit

Satellites are definitely the primary target of attack.

Therefore, in recent years, while various countries are conducting research on anti-satellite weapons, they are also studying how to prevent attacks by anti-satellite weapons. In this field, the most mainstream response method is to increase the satellite's orbit change capability and use the satellite's orbit change capability.

Orbital capability to escape enemy tracking and avoid being hit by anti-satellite weapons.

However, it is still not enough to deal with the threat of anti-satellite weapons. Mainly because countries are currently closely monitoring satellites orbiting in space. Not to mention satellites, even a fragment of more than ten centimeters can be tracked and monitored.

, let alone those satellites that weigh several tens of tons.

Therefore, even if it changes orbit again, it will still not be able to avoid enemy tracking and surveillance, and naturally it will not be able to avoid enemy anti-satellite weapon attacks.

Therefore, how to deal with the threat of anti-satellite weapons to these high-value satellites is also a headache for all countries and a problem that they all want to solve.


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