Chapter 2145 Semi-automatic attack mode VS fully automatic attack mode
At this point, Zhou Yonghui slid the transparent folding screen on his hand, and the large screens behind the three medium-sized unmanned intelligent tanks displayed relevant data about this medium-sized unmanned intelligent tank.
Pointing to the data on the big screen, Zhou Yonghui continued to preach to the crowd.
"Similarly, our medium-sized unmanned intelligent combat vehicle is also divided into two control modes, one is semi-automatic mode and the other is fully automatic mode.
Of course, if there are special needs, you can also completely switch to manual mode. However, manual mode requires personnel to completely control it by themselves, which is very difficult to control. It is generally only used for emergency use in special environments."
As he spoke, Zhou Yonghui swiped the content on the screen, and then continued to speak to everyone: "Semi-automatic mode, as the name suggests, is controlled by personnel and system equipment.
The operator needs to issue combat instructions to the medium-sized unmanned intelligent combat vehicle based on the commander's combat intentions, such as giving instructions for it to move along a specific route or toward a designated target.
The operator can let the vehicle adjust its own traveling speed and specific traveling route according to the surrounding conditions during the entire traveling process, and can also control it by itself.
During the travel of the medium-sized unmanned intelligent tank, the intelligent combat subsystem in the vehicle-mounted intelligent unmanned control system will detect the surroundings of the medium-sized unmanned intelligent tank through the vehicle's new generation lidar, 4D millimeter wave radar, and compound eye lenses.
360-degree panoramic environmental situation.
Detect and scan all suspicious targets around the vehicle and perform intelligent identification. Use AI to identify false targets, our own, friendly targets, and enemy targets.
Then, the detected enemy targets will be scanned, identified and verified again to confirm their identity, and then locked and marked, so as to be displayed on the control terminal of the rear operator. The attack sequence will be sorted according to the danger level.
The rear operator can confirm whether to launch an attack based on the enemy target data sent back by the medium-sized unmanned intelligent combat vehicle.
The operator can terminate the attack, terminate the task, or change the attack information at any time.
For example, if some enemy personnel pretend to be our personnel and carry out operations, the intelligent combat system cannot identify the identity at this time. At this time, rear controllers need to identify. Once it is confirmed that the opponent is an enemy personnel, the controller can
Change the attack target, lock it in and launch the attack.
Similarly, on the battlefield, there will be many of our personnel wearing enemy uniforms called enemy vehicles to conduct reconnaissance or perform special operations missions. In semi-automatic mode, medium-sized unmanned intelligent combat vehicles will not take the initiative to launch attacks.
, wait for the rear operator to confirm the identity, and then mark it and add it to the trust whitelist.
In this way, even if the medium-sized unmanned intelligent combat vehicle encounters these people again, it will be able to identify them and avoid accidental injuries.
It can be seen that the semi-automatic combat mode is mainly used in some complex battlefields where enemy and friendly forces are intertwined. One benefit of this is that it can greatly avoid accidental damage and other launches, and improve the safety and reliability of the equipment.
Of course, it will also cause some problems. For example, this method of being controlled by remote control from behind is easily affected by the interference and influence of the complex electromagnetic environment, and may even cause link disconnection and other situations."
"As for the fully automatic mode, as the name suggests, the entire combat process is fully taken care of by the intelligent combat subsystem in the vehicle-mounted intelligent unmanned control system. The rear controller, or the accompanying combatants, only need to use the control terminal or other equipment to
Just issue relevant instructions.”
Zhou Yonghui changed his tone and introduced to everyone.
"In the fully automatic mode, the operator or commander only needs to issue relevant combat instructions, and everything else is left to the medium-sized unmanned intelligent combat vehicle to make independent decisions and fight independently.
For example, the on-site commander issues an order to order a medium-sized unmanned intelligent combat vehicle to advance from point A to the target point B. During the march, it needs to pass through points C and D, and eliminate and destroy all enemy personnel and vehicles during the march.
, fortifications, etc.
After receiving the order, the medium-sized unmanned intelligent combat vehicle immediately began to take action. It will travel along the relevant routes in accordance with the order requirements, and begin to eliminate and destroy the detected enemy personnel, vehicles, fortifications, etc.
After finally arriving at the target point B, they took cover on the spot and were on guard while waiting for subsequent combat instructions.
During the entire process, there is no need for rear operator intervention, and the vehicle performs combat tasks completely autonomously. It will use the 360-degree panoramic situational awareness system mounted on the vehicle to sense the surrounding environment and situational information, scan out nearby people, vehicles, and other information.
There is data information such as fortifications.
Then, among the scanned personnel, identification and analysis is performed to distinguish which ones are civilians, which ones are our personnel, which ones are enemy personnel and militants. Which ones are civilian vehicles, which ones are enemy armored vehicles, and which ones are enemy armored vehicles?
Or they are civilian vehicles that have been modified to mount weapons, or there are local military fortifications set up in those places, etc.
Then we will select and sort the attacks according to the danger level and importance level of enemy personnel, militants, armored combat vehicles and military fortifications, and prioritize those targets that pose the greatest threat to the medium-sized unmanned intelligent combat vehicle itself and our troops, as well as those targets
The most valuable enemy target.
Of course, this attack sequence can also be set manually, because different missions have different attack targets. Some missions may carry out operations while focusing on their own safety, while other missions are to destroy enemy targets at all costs.
.
The performance of the two in unmanned combat systems is different. The former will give priority to saving itself, and then perform related combat tasks. In other words, protecting itself is the first priority.
As for the latter, they put the mission first and destroy the target at all costs, even if they die together with the target. On a cruel battlefield, you need the wisdom to protect your own safety, and even more the courage to risk your own life.
Of course, this has no effect on medium-sized unmanned intelligent combat vehicles. The choice depends entirely on the commander's choice. If the commander believes that the target to be attacked is very important and valuable enough to sacrifice medium-sized unmanned intelligent combat vehicles.
vehicles to destroy the enemy, then you can choose the mission priority."
Having said this, Zhou Yonghui took a breath and then continued speaking to everyone.
In addition, in automatic mode, multiple medium-sized unmanned intelligent tanks can form a regional cluster attack system on the battlefield. They can share data and information and synchronize the data detected by multiple medium-sized unmanned intelligent tanks.
real-time dynamic information and conduct unified and coordinated processing.
