There are three mecha robots on each wing, and two mecha robots cooperate with unmanned tanks. The drones are generally divided into two two-machine formations. Depending on the situation, a four-machine formation can also be formed. The drones are responsible for the team's air and high-level operations.
Building reconnaissance and cover, as well as providing sightings for own artillery. Each of the two two-aircraft formations has one aircraft performing support and reconnaissance tasks in front of the team at low altitude, and the other one is on high altitude alert.
The mecha infantry is also an unmanned remote control robot. The robot has a small radar and four wide-angle cameras on its head with 200x zoom and night vision and infrared functions. This camera is the operator's VR main control interface.
The robot's head is like a crystal ball, but it is made of thick bulletproof glass. The camera is protected inside the bulletproof glass. The robot carries a four-unit 90mm caliber multi-functional individual rocket launcher on one shoulder. The rocket can pass through the
The tank is radar-guided. The other side carries a 35mm grenade launcher with drum ammunition. In the hand, it carries a 6.8mm caliber six-barreled Gatling machine gun, which is connected to the ammunition box on the back through a ammunition chain.
The mecha infantry operator has a suspension device on the waist, and the operator is semi-suspended. There is a running sensor under the foot, with an optical sensing device, which can determine the direction the operator needs to travel. When the operator retracts his legs, he will turn into a squat.
Command. When the operator presses hard on the ground, it will be converted into a jump command. This operation method can also control the robot to perform pitching and left-right swing operations.
The sensor then transmits the sensed operation to the mecha infantry. After AI optimization, the mecha infantry takes corresponding actions according to the instructions. The operator holds an electronic gun and wears a VR helmet. The operation is very similar to playing previous VR games.
The biggest difference between mecha robots and unmanned tanks is that unmanned tanks are fully electric-driven, while mecha robots are hydraulically driven. However, they are both powered by graphene batteries. This battery has the characteristics of small size and large power, which is an ancient
Wa country successfully developed it ten years ago, and ancient Wa country has already achieved mass production. Other countries are still in the laboratory stage.
The squad UAV is a light UAV, with an empty weight of only 3.2 tons, and a maximum take-off weight of 4.5 tons. It can carry several to a dozen missiles, bombs or rockets, and has a 20mm caliber aircraft
The gun has 1,000 rounds of ammunition.
There is also a small drone in the cabin with a flying weight of more than ten kilograms. It can be used to detect situations indoors or in small spaces. It looks like a reduced version of a light drone, but the difference is that the weapon only has a 6.8mm machine gun and
Some detection equipment and small drones can be controlled by voice control or through touch screen commands. The rest is left to AI control, and other team members can also obtain control rights to remotely control the small drones.
There is a turbofan engine in the middle of the light UAV. Through the vector nozzle, there is a nozzle on each of the two wings and the tail that can adjust the direction of the injection. The UAV can take off vertically or fly horizontally.
The wing adopts variable sweep wing technology. When the aircraft is attacking the ground at low altitude, the wing is at 90 degrees with the aircraft, which is conducive to the aircraft flying at low speed and attacking the ground. When the aircraft is at high altitude and high speed, the wing is retracted backward to reduce drag and increase flight speed.
The drone is controlled by a joystick, and the helmet is used to aim at the target. The missile launch button is on the top of the joystick. You only need to press it with your thumb when launching.
The drone is made of carbon fiber-based materials. This material is as light as plastic but ten times harder than steel, and more resistant to high temperatures than titanium alloys.
Ye Feng and his team members are sitting in the information control armored vehicle at the rear. There are fifteen people in each vehicle, one driver, one medical and logistics personnel, and thirteen operators. The driver and medical logistics personnel are in the cockpit, and the others are controlling the vehicle.
cabin.
The general arrangement of the control cabin is that there are four drone operators in the front. The four operators form a semicircle and face outside the circle. The unmanned tank operator sits at the center of the semicircle. There are three rows behind, with two rows in the middle.
, three on each side, a total of eight mecha infantry. There are two types of control vehicles: land type and air type.
Ye Feng and the others were riding in land-based information control armored vehicles. Generally, the forward base is a few kilometers to dozens of kilometers away from the front line, and there are guard troops around the base.
Communication is a neutrino communication system through quantum encryption. The current satellite navigation system has developed to the fourth generation. The fourth generation satellite navigation system not only obtains position information through satellites, but also superimposes the communication information and the identification friend or foe response system.
Position information. This information is the result of comprehensive calculation by superimposing real-time digital maps through the rear distributed information control center. Therefore, it is more accurate than the previous simple satellite positioning technology.
The computer at this time also used a second-generation computer called a smart bus computer. This computer was invented by Ye Feng, and the patent number is 201910674042.6. This computer bus can use various wireless transmission devices to transmit information. The terminal is just a display and input device, all
All calculations are transmitted to the information center for processing.
This method has three advantages. First, the information center has strong processing capabilities and can quickly provide results back to the terminal. Second, even if the enemy obtains the front-end equipment, it cannot obtain data information, thereby ensuring information security. Third, the information center can be compatible with various
Computing chips, so the advantage of a single computing chip in the United States with stronger computing power has become insignificant. More importantly, this has changed the shape of the operating system and broken the monopoly of the operating system in the United States.
Ye Feng and his team moved forward in a single line with other teams. Before the team moved forward, the drone explored the path. The variable wave phased array radar on the unmanned tank scanned the building to detect whether there were any hidden enemies or threats in the building.
Variable wave phased array radar is a radar that can transmit and receive radar waves in different bands at the same time. It not only has the function of ordinary Doppler radar, but also can infrared and night vision imaging and some remote sensing technologies. Of course, according to some wave characteristics and power issues
, some have shorter imaging distances and some have longer distances. This kind of radar is the fourth generation of variable wave frequency division multi-channel radar. This kind of radar was also the first to be successfully developed by the ancient Wa country. It is qualitatively better than previous generations of radars.
Change.
Other countries are still using third-generation target search radars. Let’s briefly talk about the previous generations of radars. The first-generation radars were born during the Second Axis War. At that time, radars simply used the time it took for sound waves to bounce back to determine the distance.
.That is, the distance of s=ct/2 is equal to the speed of light multiplied by the time from when the radar emits an electromagnetic wave to when it receives the return wave divided by two. Information such as the speed of the other party cannot be measured, and the anti-interference ability is extremely poor.
Later, people from the Anglican Republic wanted to carry radar by aircraft to improve early warning capabilities, but found that radar was easily interfered by radar waves returning from the ground in the air. Later, the Doppler radar was invented using the Doppler effect to solve these problems. This is the first
Second generation Doppler radar.
Doppler radar filters out useless return waves by changing the length of the return wave. At the same time, it can also determine the relative displacement speed between the opponent and itself based on the return wavelength on the target. Doppler radar greatly improves the radar's anti-interference capability, measurement capabilities and accuracy.
For example, the circular radar on some early warning aircraft that keeps rotating is Doppler radar.
Rotating radars are prone to blind spots. Later, a radar was invented that faced four directions and did not need to rotate. It was the third-generation radar phased array radar, which is called phase controllable array radar.
Both the first and second generation radars have only a pair of transmitters and receivers. The transceivers of phased array radars are multiple arrays. As long as there is a radar array in the corresponding direction, it can be detected, so we see it on some destroyers.
All radars have four sides, radars facing in four directions.
Some other radar classifications, such as meter wave, decimeter wave, centimeter wave and millimeter wave radar, are only classified according to wavelength; active and passive means that the radar itself emits electromagnetic waves and does not emit electromagnetic waves. Active radar has a longer detection range and is more accurate but can easily expose itself.
, Passive radar has stronger concealment but relatively poor distance, and is relatively passive.
The Doppler effect is a great invention. This theory has a wide range of applications. For example, current color ultrasound, noise reduction filtering, radar and astronomy red shift and blue shift phenomenon, etc. The Doppler effect is simply the relative displacement of sound waves and light waves.
The wavelength will change. For example, color ultrasound uses the different return wavelengths generated by the blood flow direction and flow velocity of organs to distinguish, and forms color ultrasound pictures by adding different colors. Even the third and fourth generation radars are essentially based on Doppler ultrasound
Developed by the Le effect.
Ye Feng first used radar to scan the nearby buildings, and after confirming that they were correct, he said through team communication: "No dangerous targets detected, continue moving forward."
This kind of scanning can be hidden and avoided, but it cannot hide a large number of troops. It is usually hidden behind some electrical appliances or cars. Electronic shielding camouflage cloth can also be used to avoid scanning, but it is not suitable for hiding a large number of troops because it will form in the radar scanning area.
A large shadow area makes it easier to expose.
Ye Feng took a look at the ammunition reserve, fuel volume, hydraulic system, motor speed and other parameters. After confirming that everything was normal, he lightly pushed the two joysticks and started the unmanned tank.