Military Technology - Vol 5 Chapter 2636
As experts who often deal with weapons and equipment, they can tell the performance of a weapon at a glance.
They have seen too many examples of letting others make hype, but when pulling out the weapon to display it, it is stretched.
But this intelligent fire control system really performs very well. The rapid-fire cannon was just such a shuttle, and it probably fired hundreds of rounds, but it intercepted a supersonic cruise missile. I have to say that this record is really remarkable.
And as Wu Hao introduced, the entire interception process was very clean and quick, with the first hit. Unlike conventional rapid-fire guns when intercepting, the interception efficiency is very low. Thousands of rounds of tungsten-core shell-piercing armor-piercing shells may not be able to intercept successfully.
The interception of rapid-fire guns is not to use artillery shells to hit incoming missiles in the conventional sense, but to use the advantages of high-speed fire of rapid-fire guns to prepare a dense barrage in the air in advance, so that the missiles can hit this barrage, so as to approach the enemy in advance. empty detonation.
At this time, there are very high requirements for the compilation position, density, and time of the entire barrage, and it must be accurate enough.
And Wu Hao’s intelligent fire control system performed very well. It can accurately calculate the flight trajectory, position, and time of the missile, so that it can accurately fire and create a barrage in the air, waiting for the missile to hit the barrage. Detonate.
“Next, we will conduct a supersonic interception experiment of shore-based anti-ship missiles. This time we will launch four anti-ship missiles at one time and attack them at the same time to see if our intelligent fire control system can handle it. .”
Four! After hearing Wu Hao’s words, everyone present couldn’t help but exclaimed.
The end of the anti-ship missile is still flying at supersonic speed, and to some extent, the maneuverability of the anti-ship missile may be stronger than that of the cruise missile.
Moreover, for close-in defense systems, the difficulty of intercepting one missile is different from intercepting four missiles. If the difficulty of intercepting one missile is 10, then the difficulty of intercepting two missiles is twenty, the difficulty of intercepting three missiles is forty, and the difficulty of intercepting four missiles is eighty. Every time one is added, the difficulty doubles, and this is a conservative estimate. In fact, in many cases, the real difficulty should be multiplied by two on this basis.
Within a range of 5,000 meters, if you want to intercept four supersonic missile attacks at the same time, this means that the response time of the rapid-fire gun in these few seconds must be evenly distributed among these four missiles, and the average response of each missile The processing time is only about a second. In other words, the rapid-fire gun has only one second chance, and if it misses it, it means the interception fails.
In Wu Hao’s introduction, the four anti-ship missiles in the big screen have been launched from the launch site. It can be seen from the radar screen that the missiles are coming from all directions, not from one direction, which greatly increases the difficulty of intercepting this drone.
But that’s it, when the four missiles entered the interception range, the rapid-fire guns immediately opened fire.
buzz buzz…
Following four clear bursts of firing, four strings of barrages flew out, and then four fireballs appeared in the sky, and four missiles were concentrated and detonated in the air.
good!
Everyone at the scene applauded. This interception process really made everyone amazed. Such a high interception success rate is probably far beyond the reach of other similar weapons and equipment.
As for Wu Hao, he gave everyone a little time to react and digest, and then continued to introduce: “In addition to intercepting missiles, our intelligent fire control system can also intercept various types of rockets, such as long-range rockets, short-range Rockets, maybe even one of those individual soldier rockets.
Relatively speaking, the difficulty of intercepting rockets is lower than that of missiles, because the trajectory of rockets is relatively fixed. Even for variable-orbit rockets, its trajectory is relatively simple, so it is easier to intercept.
Relatively speaking, large numbers are the most difficult and troublesome problem in intercepting rockets. However, with this intelligent fire control system, we can greatly improve its interception success rate and guard the last line of defense.
Of course, if necessary, we can also replace the anti-aircraft gun with a longer range for this intelligent fire control system, so that we can buy more reaction time for the entire system.
In addition to rockets, our intelligent fire control system can also intercept some mortar attacks. Using its intelligent control system, we can let this intelligent fire control system operate autonomously, and alert the air. When mortar shells are detected, this intelligent fire control system will automatically control the rapid-fire gun or anti-aircraft gun. Shoot and intercept.
In addition to mortar shells, this system can also undertake regional air defense tasks and intercept various incoming threats at any time.
For example, we have seen that on many battlefields, drones are popular, and even dominate the entire war.
Many soldiers did not notice that they were being targeted by drones at an altitude of hundreds of meters or thousands of meters. What awaited them was either enemy artillery or rocket launchers, or these drones dropped bombs. Or a suicide attack.
Now that we have this intelligent fire control system, we can monitor the airspace of the entire region in real time. When some unidentified targets appear in the airspace, this intelligent fire control system will identify them and actively to intercept.
In this way, we can keep soldiers safe overhead and protect them from enemy precision strikes.
Even when encountering enemy shelling, our intelligent fire control system can intercept enemy shells to a certain extent. ”
Speaking of this, UU Reading www.uukanshu.com Wu Hao paused for a moment, then glanced at Li Weiguo and said with a smile: “In addition to active defense, our intelligent fire control system can also carry out precise attacks.
For example, in air combat, or in ground strikes. Our intelligent fire control system can accurately calculate the position and speed of the enemy fighter, so as to control the cannon on our fighter, or guide the missiles on our fighter to attack the enemy precisely.
Even from this aspect, we can change the existing air combat tactics to a certain extent.
In the past, when our fighter planes were chased by enemy fighter planes, we usually sought high-mobility relief to avoid being bitten by enemy fighter planes, and then took the opportunity to escape and maneuver to the back of the enemy fighter plane to bite the enemy fighter plane and attack.
But now, even if our fighter is bitten by others, we can use an automatic cannon installed under its belly to attack the trailing target. It has been able to intercept incoming missiles and protect our fighter. safety. ”
(end of this chapter)