According to the information, the new Huawei autonomous driving technology provides the way to test self-driving (autonomous) vehicles without the participation of human testers. So, it can improve test efficiency as well as reduce labor costs.
The sources reveal test methods, devices, and systems for autonomous vehicles and demonstrate that this application relates to the technical field of autonomous driving without human trial.
The patent application discloses a testing method, device, and system for an autonomous driving vehicle. The system provided in the patent application includes a software control module, a motion control module, and multiple motion platforms.
The software control module can acquire the information of the first test scene, and send the information of the first test scene to the motion control module. The motion control module receives the information of the first test scene and can determine the test motion platform and the target motion platform among the plurality of motion platforms according to the information of the first test scene.
It sends the parameter information of the motion platform to each determined motion platform. So that the motion platform performs corresponding operations according to the parameter information of the motion platform. In this way, self-driving vehicles can be tested without the participation of human testers.
Huawei has a new mobile screen sharing feature between two phones
In the last three years, Huawei has started many new tech ventures to solve its tech issues and continuously researched new technologies to enhance existing devices. Adding to this, Huawei has recently patented a unique mobile screen sharing feature technology that will allow phone users to connect the display of each phone in real-time.
According to the information, Huawei has recently published a new patent for “An Enhanced Screen Sharing Method and System Electronic Equipment” with publication number CN114647390A. However, there’s a lot that we can learn from the Huawei mobile screen sharing feature patent description.
The details of the patent reveal that the first device (A) shows the user interface and sends it to the second device (B). Then the B receives the data as well as the user interface and shows it as it is on the display.
Aside from showing the display interface, the entire feature has a name called – Linkage Mode, which allows users to operate A device directly from the B device, which is kind of a Super Device feature feel.
The operation includes triggering events such as user interface clicks, drag, and drops as well as slides and gestures, similar to an operational smartphone. To perform responsive actions, the second device sends the events to the first device and performs the actions in real-time, according to the corresponding feature.
The patent image also shows how this technology really works for the consumers and how it shares the screen in real-time while performing actions from B to A devices. This technology is awesome and it will surely improve the user experience for the Huawei smartphone users.
As of now, Super Device and Multi screen collaboration allow you to connect the mobile screen to a desktop, laptop, tablet, or other big screen devices but it’s interesting to see, a mobile projecting the screen from another mobile display and taking direct actions from there.
Currently, Huawei has not confirmed to use or adapt this technology in real-time but we’re waiting for more information, as the technology currently remains in patent design.
Huawei files patent for Quantum Chip and Computer
Huawei has recently issued a novel invention patent related to the Quantum chip and computer. The company published the respective patent with a specified number as CN114613758A. According to the latest information, the current Huawei patent offers a quantum chip as well as a computer to solve the low yield issues. Since the implementation relates to quantum computing technology, it will ease the production of quantum chips.
Consequently, the quantum chips will comprise the following elements:
- A coupling structure, cavity mode suppression structure, M sub-chips, and a substrate
- The M sub-chips arrangement takes place on the surface of the substrate with gaps
- Each sub-chips consists of N qubits
- The coupling structure maintains the interconnection between the M sub-chips
- The cavity mode suppression structure is at the edge of each sub-chip. It is also in the gap of the M sub-chips to increase the cavity mode frequency of the quantum chip
Here, the term M and N refers to a positive integer. M is greater than 1, meanwhile, N is greater or equal to 1. The M sub-chips in the quantum chip will reduce the strain of manufacturing and will improve the production yield.
It’s not the first time when Huawei is dealing with the Quantum theories. Back in January 2021, the Chinese manufacturer obtained a “quantum key distribution system, method, and device” patent.
Further in time, the Ministry of Industry and Information Technology declared the very first quantum random number industry. This industry gained the name Key Devices and Modules for Quantum Key Distribution. It was mainly based on BB84 Protocol Part 3: Quantum Random Number Generator. Alongside Huawei, several institutes of technology took part in the preparation.
Huawei obtained patent for detachable electronic device
Huawei has appealed for a patent regarding a detachable electronic device. So far, the Chinese manufacturer is sweating in distributing the patch and new updates to its devices. However, in the meantime, the company is also checking over new technologies.
According to the World Intellectual Property Organization, Huawei will use the detachable electronic device, mentioned in the patent for products like Laptops.
Further, the respective technical stuff will use two dock structure mechanisms. The first part of the device will support the first docking structure. While the other part of the device will support the second docking structure.
Detachable Electronic Device Mechanism
As per the reports, the first docking system consists of some fundamental components. For instance – a base, gear, hook, and two racks as the first and second, a magnetic member, and an elastic element ascending over the first base.
Eventually, the first part of the rack resides over one side of the gear. Meanwhile, the second rack is on the other side of the gear. The mentioned hook lies on one side of the second rack and is facing toward the second docking structure.
The same goes with the magnetic element that is placed over one side of the first rack and facing the second docking structure. Besides, the second dock structure gives space to a second magnetic element as well as a second base.
How does it work?
On being active, when the first part is tied up to the second part, the first magnetic component impels the first rack from the second part. Thereafter, the gear revolves and operates the second rack so that it could reach another part. The hook extends and accommodates the docking section. After the detachable connection gets accomplished between the first and second parts, the elastic element restarts the process again.