Scientific and technological developments in the world had a vision, all bizarre ideas are likely to become a reality, recent US media said, and many people, like Silicon Valley, tech entrepreneur Brian Johnson believes in the future of intelligent machines capable of driving the car The kind of thing and can anticipate people's needs before people come forward.
Can a human brain be as fast as an artificial machine? It is not impossible to have a chip
Johnson's conjecture is quite accurate. Ford Motor Company on the 16th announced that it will produce completely unmanned vehicles that do not require human operation. It plans to go on road within five years and will be used first for commercial carpooling services. Ford Motor Co. Chief Executive Officer Mark Fields announced today at the Ford Research Center in Palo Alto, Silicon Valley that Ford will mass-produce purely driverless cars that meet industry-recognized standards. According to Ford Chief Technology Officer Raje Nair, unlike Ford-Benz, Tesla, and other rivals who gradually added autopilot to traditional cars, Ford "passed off driving assistance as a stepping stone. "We will achieve a complete leap forward" and plan to adopt a strategy similar to that of Google to directly produce a complete driverless car without steering wheels and pedals.
Unlike companies such as Ford that make "more smart machines," Johnson's response to the smart age is to find a way to increase the load on the human brain so that we can keep up with these machines.
The “Washington Post†website reported that in the humble office of Venice Beach, Johnson’s “science fiction meets science†startup “core†is developing a tiny chip that can be implanted in the human brain. To help people suffering from nerve damage due to stroke, Alzheimer's disease or concussion. The top neurologist who developed this chip called it a "neural implant." They hope that in the long run, it can increase intelligence, memory and other cognitive abilities.
Johnson admitted that the development of this medical device has taken several years, but he can afford it.
This concept is based on the study of Theodore Berger. Berger is a pioneering biomedical engineer who leads the Neuroengineering Center at the University of Southern California and is the chief scientific officer of the "Core" company. For more than 20 years, Berger has been working on making neural prostheses that can help stroke, concussion, brain damage, and Alzheimer's disease.
The report said that the device implanted in the brain tried to replicate the way brain cells communicated with each other. For example, you talk to your boss. A healthy brain will convert this dialogue from short-term memory to long-term memory by releasing a series of electrical signals. These signals are released with special passwords, which vary from person to person and are a bit like software instructions. Brain diseases have lost these passwords. Berger's software attempts to help brain cells communicate with each other by instantaneously predicting the correct password and releasing signals accordingly. Results from research funded by other institutions show that Berger’s chip optimizes the memory function of rats and monkeys.
A year ago, Berger felt that his research had reached a bottleneck. He wants to test his equipment on the person and at the same time start thinking about the possibility of commercial use. At this time, he received a call from Johnson. They met in Berger's office last October. For Johnson, this meeting made his obsession with intelligence and brains peak. In his view, artificial intelligence is developing at a rapid rate, and the evolution of the human brain is relatively slow. Therefore, he hired a group of neurologists and asked them to sort out all relevant research. The goal was to establish a mind company. They eventually chose Berger.
Reported that 10 months later, the team began to prototype the device and let the epilepsy patients in the hospital participate in the trial. They want to start clinical trials, but they must first work out how to make this device portable. Today, patients using this device also need to be connected to a computer.
Can a human brain be as fast as an artificial machine? It is not impossible to have a chip
Johnson's conjecture is quite accurate. Ford Motor Company on the 16th announced that it will produce completely unmanned vehicles that do not require human operation. It plans to go on road within five years and will be used first for commercial carpooling services. Ford Motor Co. Chief Executive Officer Mark Fields announced today at the Ford Research Center in Palo Alto, Silicon Valley that Ford will mass-produce purely driverless cars that meet industry-recognized standards. According to Ford Chief Technology Officer Raje Nair, unlike Ford-Benz, Tesla, and other rivals who gradually added autopilot to traditional cars, Ford "passed off driving assistance as a stepping stone. "We will achieve a complete leap forward" and plan to adopt a strategy similar to that of Google to directly produce a complete driverless car without steering wheels and pedals.
Unlike companies such as Ford that make "more smart machines," Johnson's response to the smart age is to find a way to increase the load on the human brain so that we can keep up with these machines.
The “Washington Post†website reported that in the humble office of Venice Beach, Johnson’s “science fiction meets science†startup “core†is developing a tiny chip that can be implanted in the human brain. To help people suffering from nerve damage due to stroke, Alzheimer's disease or concussion. The top neurologist who developed this chip called it a "neural implant." They hope that in the long run, it can increase intelligence, memory and other cognitive abilities.
Johnson admitted that the development of this medical device has taken several years, but he can afford it.
This concept is based on the study of Theodore Berger. Berger is a pioneering biomedical engineer who leads the Neuroengineering Center at the University of Southern California and is the chief scientific officer of the "Core" company. For more than 20 years, Berger has been working on making neural prostheses that can help stroke, concussion, brain damage, and Alzheimer's disease.
The report said that the device implanted in the brain tried to replicate the way brain cells communicated with each other. For example, you talk to your boss. A healthy brain will convert this dialogue from short-term memory to long-term memory by releasing a series of electrical signals. These signals are released with special passwords, which vary from person to person and are a bit like software instructions. Brain diseases have lost these passwords. Berger's software attempts to help brain cells communicate with each other by instantaneously predicting the correct password and releasing signals accordingly. Results from research funded by other institutions show that Berger’s chip optimizes the memory function of rats and monkeys.
A year ago, Berger felt that his research had reached a bottleneck. He wants to test his equipment on the person and at the same time start thinking about the possibility of commercial use. At this time, he received a call from Johnson. They met in Berger's office last October. For Johnson, this meeting made his obsession with intelligence and brains peak. In his view, artificial intelligence is developing at a rapid rate, and the evolution of the human brain is relatively slow. Therefore, he hired a group of neurologists and asked them to sort out all relevant research. The goal was to establish a mind company. They eventually chose Berger.
Reported that 10 months later, the team began to prototype the device and let the epilepsy patients in the hospital participate in the trial. They want to start clinical trials, but they must first work out how to make this device portable. Today, patients using this device also need to be connected to a computer.
Rotary Lobe Pumps for Cleaning Care
Consumer chemicals rotor pump can be used for all kinds of medium, high viscosity and high solid content of material transportation. Lobe pumps are widely used in LAS, AES, AOS, MES, KI2, glycerin, sorbitol, skin cream, nutritional cream, cosmetics, toothpaste, facial cleanser, lotion, shampoo, shower gel, liquid soap, soap, detergent, washing powder paste and so on.
We are specialized in the production of rotor pumps and homogeneous pumps. The production capacity reaches 18000 units/year. Our pumps can transfer medium with viscosity up to 1,000,000cps, with a maximum flow rate of 400m3 / h (Capacity of 30L / R).
Detergent Transfer Pump,Shampoo Transfer Pump,Skin Cream Transfer Pump,Washing Power Transfer Equipment
NINGBO DURREX PUMPS CO.,LTD , https://www.durrexlobepump.com