At present, we have completed the driving control adaptation for more than a dozen types of weapons and equipment, allowing this intelligent unmanned robot to control these weapons and equipment very skillfully and accurately.
At this point, Lin Jiaming unfolded a transparent folding tablet, and then slid it a few times. Then the player screen started to appear on the 75-inch high-definition screen hanging next to the intelligent unmanned robot.
"What is played on the screen is a test video clip of us using this intelligent unmanned robot to drive and control more than a dozen weapons and equipment. From easy to difficult, the first thing to control and drive is an ordinary off-road vehicle."
Following Lin Jiaming's introduction, a desert-colored military off-road vehicle also appeared on the screen. This is our army's most classic Mengsan off-road vehicle. This military off-road vehicle is very classic and is deeply loved by officers and soldiers because of its excellent reliability, adaptability to complex terrain and excellent protection capabilities.
Because it is a military off-road vehicle, it focuses on reliability and economy, so naturally there are no fancy automatic driving systems on new energy vehicles. The whole vehicle is very simple, and the driving is completely manual. People who are used to driving automatic cars at home will not be able to drive them at all. I can't get used to driving this behemoth.
“In the video, our technicians began to install the intelligent uncontrolled robot into the driver’s seat of the Meng San military off-road vehicle, and then started the intelligent uncontrolled robot.
We saw that after this intelligent unmanned control robot is started, it will automatically scan and identify its driving control equipment, and then adapt itself.
It can be seen that the lower manipulator of this intelligent unmanned control robot has reached to the accelerator, brake and clutch pedals, and the upper hand has also been holding the steering wheel and gear handle.
Our technicians are checking to ensure that these tentacles are stretched and adapted to ensure the safety of subsequent experiments.
For military off-road vehicles such as driving control, generally only the central sensing module is sufficient. If necessary, we can also install distributed sensing modules on the outside of the car body.
However, these distributed sensing modules were not installed and used in this experiment because they were not needed. However, in order to facilitate the observation of the real-time driving conditions of this intelligent unmanned robot and the driving conditions of this Mengsan experimental off-road vehicle, we have installed many cameras inside and outside the body. These cameras will image us in real time. Show the driving control of this intelligent unmanned robot and the driving status of the vehicle.
You can rest assured that these cameras are independently connected to the Internet and have nothing to do with this intelligent unmanned control robot, and will not affect the results of this test. "
After a slight pause, Lin Jiaming continued: "This is our control center at the rear. It is actually very simple. It is similar to an ordinary drone control console, or even simpler.
We can reduce the entire control center to a tablet, which means that we can rely on a tablet or a drone remote control to remotely control the work of this intelligent unmanned robot.
The first thing we tested was the remote control capability of this intelligent unmanned robot. Our operators in the rear command and control center remotely controlled this intelligent unmanned robot to drive the M3 off-road vehicle. "
Ignite, start!
With an order, the operator in the rear command and control center issued an order. It can be clearly seen in the picture inside the Mengsan off-road vehicle that this intelligent unmanned robot actually started to step on the clutch and then turned the key to start the vehicle. Another The manipulator actually added some oil.
Start driving!
As the rear command and control center began to press the clutch and shift into gear, the intelligent unmanned robot in the Mengsan off-road vehicle also began to move synchronously. The response was very rapid, and the entire movement was skillful and coherent, without any sloppiness.
Immediately afterwards, under the control of the operator in the rear command and control center, this intelligent unmanned robot actually started driving the Mengsan off-road vehicle in the test site.
And the speed was getting faster and faster, and the entire Mengsan off-road vehicle began to circle around the test site at high speed.
According to the on-board camera, the speed on the instrument panel in the car has reached 110 kilometers, which is a very high speed.
Maybe in the eyes of many people, this speed is nothing, and they can easily achieve it on the highway.
But this is in a test site, on an unpaved gravel road, and the speed is already very fast. What's more, this is driven by an intelligent unmanned robot.
At such a fast speed, in such a gravel-paved experimental site, a slight mistake may cause the entire Mengsan off-road vehicle to rush out of the experimental site, or it may directly overturn and load.
But the Mengsan experimental off-road vehicle in the video drove very steadily at such speeds without any problems. After a few laps around the experimental site, this Mengsan experimental off-road vehicle began to conduct experiments on some complex road conditions, such as straight bends, S bays, one-sided bridges, missing roads halfway, high-angle climbs, etc.
Every test was completed very well, and Wu Hao and Zhang Jun who were watching could not help but applaud. I don’t know whether it’s the advanced technology of this intelligent unmanned robot, or the superb skills of the driving operators in the rear command and control center.
After the remote control and driving of the Mengsan test off-road vehicle completed various tests, the next step was to experiment with the unmanned control technology environment of the intelligent unmanned robot. The intelligent unmanned robot independently controlled the Mengsan test off-road vehicle. Three test off-road vehicles were used to complete the relevant instructions issued by the rear command and control center.
For example, increase the vehicle speed, reduce the vehicle speed, go around corners, order driving, outdoor off-roading, etc. After the entire test, Wu Hao and Zhang Jun couldn't help but feel that the technology used by this intelligent unmanned robot to autonomously control the Mengsan experimental off-road vehicle to complete various tests was so similar to the L5 fully autonomous driving technology they were still preparing to release. .
When Wu Hao asked such a question, both Zhou Yonghui and Lin Jiaming couldn't help laughing. Through their smiles, Wu Hao suddenly understood and smiled.
Anyway, it’s all a technology they developed themselves, so it doesn’t apply where it’s used. Not to mention that this L5 level fully autonomous driving technology, which has not yet been used in civilian vehicles, is itself derived from the military autonomous driving technology they developed. There is nothing inappropriate about this.
(End of chapter)
