Transformed Marvel Genius

In the basement, Anna was lying on the fume hood, wearing protective goggles, with one chubby hand holding tweezers and the other holding a blow gun.

A soldering iron is in the tweezers.

She is soldering the circuit board.

The construction of the brainwave relay amplifier has reached the end.

In the entire Xavier Castle, the only thing Anna is satisfied with is the basement, which is 10 times the size of the original small workshop in Building B, with 50 small rooms, each of which is extremely spacious.

After the separation wall is opened, an underground football field can even be built, a small one.

Maya and David have completed the final handover work, and now Xavier Castle officially belongs to the Hansen family.

Finally, Maya has a little conscience. The name of Anna is kept on the property right. According to Maya, it is to save the future inheritance tax.

Norman Osborn is deploying supplies according to Anna's request, and the renovation of the basement is currently underway.

However, Anna has not paid much attention to the project construction recently. She is now focusing all her energy on the brain-computer interface project.

The last time there was a big explosion in Manor B, it was a little later, and she didn't need the sacrifice of the Iger robot at all.

At the beginning of the snake-rat war, she released 64 guinea pigs.

Each mouse carries an infrasound generator with double the energy level. The generator is pressed under the iron buckle. As long as it reaches the designated place, an infrasonic resonance network can be temporarily built, which is enough to destroy Madame Hydra and others without damage. land.

It is a pity that it is too difficult to control the mice. It is necessary for them to accurately recognize the command. The position error is within a few millimeters, and they cannot be allowed to move.

Last time, the brainwave amplifier receiver was made temporarily by Anna, and the target mouse could not be accurately identified at all.

The result can be imagined. After a long time of adjustment, the mice have not been completely arranged to the designated location.

Then the Iger robot blew itself up.

64 guinea pigs are useless.

After the last lesson, Anna felt that she should do a good job in the brain-computer interface work.

In fact, the potential of brain-computer interfaces is enormous.

As Dr. Zola said, using the brain-computer interface, people can control machines, machines can control people, and finally people can control people by controlling machines.

Dr. Shortneck said that it was too far away. It will take at least fifty years for people to reach the level of people who have crossed the intermediary controller.

What Anna is doing now is only human control of machinery.

Put the helmet on the round head.

There are electrodes, capacitors, memory, solid-state drives, CPUs, WiFi generators and receivers on the helmet, which is a small computer.

Anna built every circuit of the helmet, strong and weak electricity, and even the internal circuit of the CPU.

She specially designed an instruction system for the brain-computer interface and placed it inside the CPU.

Then I found Intel and asked them to rebuild the CPU circuit according to their own design drawings.

After pressing the helmet button, the three indicators of red, yellow and green flashed alternately, and finally stopped at the green light, the electrodes and the scalp were in contact, and the antenna and the graphene in the cerebrospinal fluid transmitted signals.

The brainwave receiver amplifier operates normally,

The mixture of graphene and X gene expression protein was injected personally by Anna's operating robot.

Local anesthesia was administered, and a needle was used to pierce it from the original front door.

Piercing the front door will cause the least damage to the head.

Practice has proved that the function of expressing the protein is good. It is to prevent hackers from entering when they are not careful. To be on the safe side, Anna uses graphene as a switching circuit to deliberately control the transmission bit rate.

Now Anna is ready to let go.

The instruction system contains 156 operation instructions, all of which are placed in the computer instruction register.

Anna's instructions are goal-oriented, such as giving instructions to the robot - bring the bottle.

The transmission command of the cerebral cortex is translated into the expressed protein through graphene, and the expressed protein outputs the enhanced signal and then returns to the graphene. Finally, the graphene is filtered and amplified, and then transmitted to the helmet for signal reception. After the signal is received, it is transmitted to the robot through the antenna.

The robot has an internal functional computer. After getting the instructions, he will analyze the optimal path and the operations he needs to do at each point on the path, and finally get the milk bottle and send it to Anna.

At present, Anna can operate the robot to do simple operations.

The robot no longer has Parkinson's disease like the manor in Building B, and the mechanical adjustment of various functions is relatively smooth.

This is only a part of the application, the brain-computer interface also has a super powerful function.

The information received by the eyes and ears is input into the helmet computer, and the computer obtains a vector diagram and sends it back to the cerebral cortex.

To put it simply, it is to digitize what you have seen and heard to extract key information.

Don't underestimate this part of the application, the content is actually quite powerful.

What the human eye sees is a bitmap, and the data obtained are all fuzzy data.

Once processed by the computer, Anna can use data to digitize the world~www.wuxiamtl.com~ For example, the height of the castle, Anna can directly use her eyes as receivers, plus where she is standing, and the distance between the retinal lens, Accurately calculate the height.

For example, according to the data obtained by Anna, the highest height of the castle is 13.4 meters.

According to the latitude and longitude of Westchester County, the angle of incidence of sunlight, and the length of the reflection of Anna standing under the sun with her back to the sun, Anna can measure her height - 1.15 meters.

The helmet makes a timer again, and the time is removed, so that Ana can accurately calculate the speed. The final speed is divided by the time to calculate the acceleration, and the acceleration is multiplied by the estimated mass to calculate the force when kicking out.

And one last benefit, the brain's storage capacity is limited.

The memory capacity of the brain is only 30 TB when it is fully calculated. According to the current regular server hard disks, it is the capacity of 30 hard disks.

Not too much, but too little.

One of Anna's robot drawings costs 250TB. That is to say, a human being can't remember a robot drawing with all their brains.

At this moment, when the brain and the network are connected to the Internet, the network becomes the back-up hard disk of the brain.

Anna can use her brain as a root directory storage, obtain the server address based on the index, and then call it from the server, which is simple and pleasant.

She can now memorize the shape of every marker on every street in the five boroughs of New York, not with a brain, but with an extraction call.

Compared with the computer, the human brain is actually far inferior in many aspects. The reason why it can stand out from the crowd now is that the brain has a high integration ability.

Now Anna's brain has both the precision of a computer and the high level of integration and complexity of the human brain.

Maybe this is the new human being in his mouth.