Ultra-Dimensional Technology Era

The integration work went extremely smoothly.

Chapter 262 New Era 1 Year

2017 1 Month 11 Day.

The New Humanity Project was completed, and all the mainland population of 13.86367116 million people completed the implantation of biocomputers.

In addition, there are 577.6943 people in Xiangjiang, 64.2637 people in Australia, and 1349.6730 people in Dayuan Province who have completed the new human transformation.

The reasons for the remaining unreformed people are self-evident.

The total number of people who have completed the transformation of new humans by the Human Alliance has refreshed to 573.6943 people.

After the Nether Palace concluded its annual meeting, it decided to name 2016 the first year of the New Human Era, or the New Era for short.

In 2017, the New Era was officially launched within the New Humanity, and 2017 will be the first year of the New Era.

This means that the old era of AD has officially become a thing of the past, and human history has entered a new page.

……

After Huang Mingzhe got off the assembly line, he stood up and stretched, and picked up the high-energy nutrient solution beside him to replenish his energy.

Opening the door of the office, he was still in the Institute of Nano Robots at this time.

Come to the test field in the laboratory.

He Shibing is manipulating the nano-robots. The nano-robots at this stage are close to maturity. The only shortcoming may be the external equipment for the operator.

He Shibing was wearing a silver-gray helmet with a sci-fi feel, which integrated brain wave sensing, neutrino communication, built-in biocomputer, and multifunctional glasses.

The nano-helmet is mainly used to manipulate nano-robots, and can also assist the operator in fighting and working.

The other is a 12 kg battery backpack, which contains: a 24 kg high-energy battery with an energy storage capacity of 10 kWh, a wireless charger with a charging range of 150 meters, and a battery management system.

In the test field, some silver-gray clusters appeared in the air or on the ground from time to time.

Since the diameter of nanorobots is only about 480-510 nanometers, dust with a particle size above 10 microns (PM10) will sink due to standing still (that is, the wind no longer resists gravity).

The smaller dust particles cannot sink naturally, and can only be collected by filtration or the electric field mentioned below.

Therefore, nanorobots can be directly suspended in the air, and they can use their own electrostatic field to move and gather quickly.

On the side of the test field, Huang Hongda was manipulating various electromagnetic interference, laser interference, and sound wave interference equipment, constantly interfering with the operation of nanorobots.

Huang Mingzhe clicked on their test report and found that the nano-robots still have many shortcomings.

For example, the energy consumption is very large. One unit (one kilogram) of nanorobots needs to consume 15-17 kilowatt-hours of electricity in one hour under high-intensity operation.

In fact, this energy consumption is not the energy consumption of the nano-robot itself, but the consumption of the wireless charger. Only 15% of the electric energy released by the wireless charger is received by the nano-robot.

The second weakness is the control range. Judging from the current series of tests, the limit working range of nanorobots can only reach about 3.4 kilometers.

But the practical range is only about 400 meters, because it involves precise control and the limitation of charging distance.

This is still new human beings with the aid of biological computers. Ordinary people can manipulate nano-robots, and it is estimated that they will not be able to climb 100 meters.

Of course, there are still some solutions to this shortcoming. For example, using a neutrino atom imager can precisely control nanorobots within a range of 3.4 kilometers.

The problem is that the neutrino atom imager has a minimum weight of 45 kg, and the neutrino atom imager that can cover 3.4 kilometers weighs about 150 kg.

This weight is extremely unfavorable for individual use, and can only be applied to armored vehicles and the like.

But even with these shortcomings, nanobots are still very useful.

He Shibing manipulated the nano-robots to gnaw a high-strength alloy steel plate weighing hundreds of kilograms into a pile of powder in just ten minutes.

On Blue Star, no matter how strong things are, they cannot withstand the destruction at the atomic level.

The nano-robot activates the iron atom adsorption function, and moves individual iron atoms out of the alloy steel. The alloy steel has no way to resist this kind of destruction.

Among the functional parts of nanorobots, the handling of 22 common elements can be realized. Obviously, it is difficult for human beings to avoid the use of common elements in metal materials and non-metal materials.

Even titanium alloys contain carbon and other elements, which is an unsolvable attack.

For example, when nano-robots attack organisms, they directly attack the carbon elements of organisms, even lizardmen have to kneel.

At present, nanobots can only be used to destroy, and the function of building items has not been designed yet.

The function of building items must cooperate with the neutrino atom imager, otherwise it will be difficult to be accurate.

Huang Mingzhe knew that he had to improve the neutrino atom imager and miniaturize the device, preferably under 10 kilograms.

As for the energy consumption problem, for the time being, we can only increase the energy density of the battery, or directly use the miniature nuclear fusion reactor, because of the waste of wireless charging technology, which is an inherent defect.

Watched the self-healing and self-replicating functions of nanorobots for a while.

Due to the self-healing and self-replication needs of nano-robots, the materials for making nano-robots are common elements.

Minimize and trace elements should be avoided as much as possible, so as not to find raw materials outside.

In terms of replication speed, it can double in 186 seconds at the fastest.

After discussions with Huang Mingzhe, He Shibing and others, they decided to restrict the division and reproduction function of nanorobots.

According to the upper limit of the biological computer computing power of the nano-helmet, set a maximum of 50 units for a single-machine nano-robot.

The original nano-robot can only divide and reproduce 500 times, and when the 500 times of division and reproduction are used up, the function of division and reproduction will be automatically locked.

The second-generation nanorobots do not have the function of dividing and reproducing.

If the certified user of the nanorobot dies, or peels off the nanorobot, the nanorobot will self-disintegrate after 72 hours.

Users of nanorobots must go to the nanorobot management center for re-certification every year, and special personnel can extend it to three years.

Obviously Huang Mingzhe was preventing unnecessary troubles.

……

At the same time, as the country gradually entered the wartime mechanism.

In January, secret mobilization orders were issued to all regions to recruit 1500 million new humans into the army.

In addition, militia mechanisms have been activated in various places, and militia training has been conducted for some workers in factories, farms, and rural cooperatives.

There are more and more Phoenix satellites in outer space, which means that the time for the new humans and the G organization to fight to the death is getting closer.

One battle robot, one exoskeleton armor, one Baiqi-class or provincial-level ships are entering service quickly.