The concept of autonomous driving has been proposed very early. It was not until the accumulation of deep learning algorithms to a certain extent that people saw the possibility of autonomous driving.
In the 1920s, people published their prospects and experiments on autonomous driving.
Among them, the exploration of autonomous driving has never stopped from the last century to today, but in recent years, with the development of Internet technology, it has really entered the lives of the public.
(Barely think that the current assisted driving is the automatic driving in the previous concept)
On July 28, 1936, American's "Herald Statesman" magazine showed the remote control car in the parade, a remote control car modified from a Ford Model T car.
Later, in May 1958, "Popular Science" magazine published the self-driving car on the test track.
The first car that can truly drive itself appeared in the 1980s. Of course, this kind of automatic driving is automatic driving in a specific environment.
The deep learning architecture has enabled the rapid development of autonomous driving.
The brain-computer connection actually avoids some risks very well. It is equivalent to that the automatic driving system is responsible for the car control under normal conditions, and the human brain is only responsible for the stress response, and it only needs to control its emergency brake under certain circumstances.
But the biggest obstacle to the landing of this kind of automatic driving is the division of powers and responsibilities.
The current self-driving cars on the market are advertised as autonomous driving, like Tesla, but once an accident occurs, it is assisted driving.
Earlier in Tempe, Arizona, a self-driving Uber car struck and killed a pedestrian crossing the road. This is Blue Star's first accident in which a self-driving car caused a human death.
Uber and Volvo, the car brand involved in the accident, did not bear corresponding responsibility.
Once there is automatic driving above L4, then once a traffic accident occurs, the responsibility should be borne by the car manufacturer.
Moreover, Kechuangbiology's brain-computer connection recognition accuracy rate is only 99%, and 99% of the recognition rate is no problem to use on mobile phones. It will not matter if you click the wrong one.
Ninety-nine percent accuracy in cars is too low, so most car manufacturers have little interest.
Kechuang Biology bought two floors in the CBD of the high-tech park in Gusu as the headquarters. The high-level and administrative personnel are generally in the CBD, and the R&D and production personnel are in the R&D and production integration base.
The CBD chosen by Kechuang Biology is by the Jinji Lake. Standing on the edge of the floor-to-ceiling windows, you can overlook Jinji Lake. The Jinji Lake in the setting sun glows with golden afterglow.
Cheng Gang was waiting in his office for Ren Yong, the vice president of Huawei who came to visit. Ren Yong was the person in charge of the Greater China region of Huawei Mobile.
At this time, he felt very fortunate that he had agreed to Lei Jun to work in Kechuang Biology, which was a leap in his career.
"Mr. Cheng, thank you Kechuangbiology for finding a way out for Huawei. With the brain-computer connection chip, Huawei's mobile phone can be said to have a glimmer of life."
Kechuangbio has completed the cooperation with Huawei, The four major domestic manufacturers of rice, OPPO and VIVO signed contracts.
Among them, the content of the contract with OPPO also includes the authorization of OnePlus.
Other small manufacturers like Meizu and Nubia are still in negotiation.
Cheng Gang saw that he was so polite, so he kept a thought in his heart: "Where, Mr. Ren is too polite. Our research and development of brain-computer connection chips and the cooperation with Huawei are purely market behavior."
"Huawei is one of the best mobile phone brands , can trust us, and it is our honor to enter into a cooperative relationship with us."
Huawei tested the samples in her own 2012 laboratory after receiving the samples of Kechuangbio Ninety-nine per cent is even higher.
More importantly, Kechuangbio's brain-computer connection technology only needs about 100 electrodes to collect brain nerve signals in a non-implanted way, and can accurately identify the brain's intention for the cursor.
After exchanging pleasantries with Cheng Gang for a while, Ren Yong said: "I heard that your company is negotiating with foreign manufacturers about brain-computer connection patent licensing?" When they came to our door, they expressed the hope that we would provide them with samples for testing, and then they would discuss cooperation methods based on the test results."
"You are also aware of the recent dilemma of Huawei. After American blocked Huawei, Huawei hoarded Chips are gradually running out."
"Next spring, Huawei's new P-series models will only be released as 4G models."
"Whether Kechuangbio's patent authorization can be temporarily blocked from foreign companies, Huawei is willing to pay a large sum of money for patents. Blocking fees."
In Huawei's view, this is a rare monopoly technology in China, and if this technology is anti-blockade externally, it can give Huawei a certain advantage in high-end mobile phone brands.
If it is only competing with these domestic mobile phone brands in the high-end market, Huawei is confident that even 4G models can compete with them back and forth.
Cheng Gang politely declined: "We are a technology licensing company, not a manufacturer of brain-computer connection chips.
" The signals in the brain cannot transform your brain thinking into memories or even images.
And you wear a brain-computer connection device to operate a mobile phone all the time, your brain is generating signals every second, and the brain-computer connection device connects the nerves The signal is converted into commands that the computer can recognize to operate the mobile phone. This data is massive and disorderly, and there is no need to save it.
Because there is no data storage, and it does not involve issues such as leaks. When the brain-computer connection patent was registered, Kechuang The R&D director of Biological Gusu also made a special trip to the Ministry of Industry and Information Technology to explain.
The history and speed of the development of brain-computer connection technology far exceed the imagination of the outside world.
As early as 1999, the research team led by Hunter Peckham of Case Western Reserve University in the United States A 64-bit EEG has been used to restore some hand motor function to the quadriplegic Jim Jatich.
The technology analyzes the beta waves in the brain's electrical signals to classify the concept of up and down in the patient's mind, and then controls an external switch.
In addition, the technology can also allow patients to control the computer cursor and drive the neural controller of their hands to restore motor function to a certain extent.