“Simply put, the biggest role or function of this intelligent image recognition system is to help the environment perception system know what the objects it sees are.
For example, when the environmental awareness system detects an incoming fighter plane, this intelligent image recognition system can quickly compare the data of the detected fighter with the data stored in its own database to learn the location of the opponent's fighter. Model, as well as the country it is equipped with, the troops it belongs to, and even if sufficient data is collected, it is possible to identify the pilot who is flying this fighter jet.
For another example, when our fighter planes are fighting with enemy fighter planes, then those planes are our friendly planes and those are enemy planes, which requires this intelligent image recognition system to process.
Being able to see the surrounding environment requires a smart processing system. We have equipped this intelligent unmanned robot with a very advanced intelligent control system.
This system has very powerful computing and processing capabilities. It can not only conduct self-learning through numerous data information, but also self-learn and optimize through missions and combat processes on the battlefield, thereby continuously improving its combat capabilities.
It can even learn the enemy's tactics and then imitate them and integrate them into its own combat tactics to improve its combat capabilities.
Of course, it has the ability to accept remote control from the rear. We have equipped it with a variety of communication modes to enable it to establish stable contact with the rear in real time.
The rear control center can operate this intelligent unmanned robot to control the traditional weapons and equipment it controls for combat. "
Is this a matryoshka doll? Zhang Jun complained after hearing this.
Haha, Lin Jiaming said with a smile: "It sounds a bit convoluted. To put it simply, it is a machine that controls traditional weapons and equipment. Our operators at the rear can use it to control those traditional weapons and equipment currently in service that cannot be controlled unmanned." , thereby replacing the personnel who drive and control these traditional weapons and equipment.
So from this aspect, it is not an exaggeration to call this intelligent unmanned control system a robot, but it is very appropriate. "
I understand what you said. Zhang Jun nodded, and then motioned to Lin Jiaming to continue.
Lin Jiaming understood and continued to introduce.
"In addition to the eyes and brain, the next step is the body of this intelligent unmanned control robot. It is mainly composed of a base and control tentacles.
The base, as the name suggests, is the part that equips these control tentacles, brain and glasses. Although it is just a base, it is actually very complex. The first thing it has to do is to support these control tentacles and other devices, so it must be very stable. However, considering its versatility, there are requirements for its weight, and it must be adaptable to various work positions. Therefore, the entire base must be able to adapt to various environmental positions and remain stable without affecting these smart tentacles and environmental perception. The central sensing module of the system works.
In addition, this base also integrates the brain of the entire intelligent unmanned control robot, as well as other electronic components, the control unit of the intelligent tentacles, etc., as well as the power module.
Although this set of intelligent unmanned controlled robots can be connected to the power supply system of traditional weapon systems to provide power to this set of intelligent unmanned controlled robots, considering some special combat environments, we have also equipped this set of intelligent unmanned controlled robots with An independent battery module can support the entire intelligent unmanned robot to work for more than eight hours.
Furthermore, there are numerous data interfaces on this base, which can be used to connect to weapons and equipment systems, so as to learn the real-time dynamics of weapons and equipment, and share the sensing systems of weapons and equipment, such as recording radar, synthetic aperture mirror radar, and lens modules. etc. In addition, these data interfaces can also be used to connect distributed sensing modules of the environment sensing system.
These distributed sensing modules can be equipped to various areas outside or inside traditional weapons and equipment as needed to monitor and sense the surrounding environment outside or inside the weapons and equipment, so that intelligent unmanned robots can know the outside of traditional weapons and equipment in real time. and internal environment.
From this aspect, we can think of this distributed sensing module as a distributed camera, which is a bit like the 360 surround view on modern cars. "
Speaking of this, Lin Jiaming paused for a moment, and then continued: "Next are the control tentacles on the base. These tentacles are mainly divided into two types, one is a more flexible intelligent manipulator, and our technology in this area is very It is mature and has been used in many fields. It is very safe and reliable.
This kind of smart manipulator is mainly used to control some buttons on traditional weapons and equipment, such as physical buttons, virtual buttons on the screen, etc. Used to control airborne equipment systems on traditional weapons and equipment.
The other type is a quick-response tentacle. This kind of tentacle is not as flexible and light as a smart manipulator, but its response is very sensitive and can be used to control traditional weapons and equipment, such as fighter joysticks, tank steering wheels, accelerators, brakes, and clutches. Controls of the handle, turret and gun steering gear, ship's steering wheel, valves, etc. "
“With these two types of manipulators, we can flexibly control these traditional weapons and equipment, turning them into advanced unmanned weapons and equipment in seconds.
For example, we can equip some of the current second-, third-, and fourth-generation fighters with such an intelligent unmanned control robot, and then they can turn into an unmanned fighter aircraft in seconds.
Our pilots can use VR glasses from behind to remotely control these fighters in an immersive manner to perform various combat missions. Of course, we can also issue combat instructions to the intelligent system of the intelligent unmanned control robot mounted on the fighter plane, and let it control the fighter plane to complete the mission according to the combat instructions issued by the rear command and control center.
And its biggest advantage is that it can be unmanned, without fear of danger or sacrifice, and without worrying about the safety of the pilot. Training an excellent pilot is very time-consuming, laborious and expensive, but making such an intelligent unmanned robot is very simple. As long as it is needed, it can be said to be endless.
Our military is currently equipped with a large number of second- and third-generation fighters. In addition, we have also retired many old second- and third-generation fighters. How can we use this intelligent unmanned control robot to control these second-, third-, and retired-generation fighters, then we can harvest a large number of drones.
These fighters that are no longer advanced or even outdated can become more advanced with this intelligent unmanned robot, and the cost is very cheap, only costing the price of an intelligent unmanned robot. "(End of chapter)
