The Age of the 21st Century Magazine

The water in the cistern installed on the 3rd floor of the Feud R&D Center began to slowly sink.

And the giant inside the cistern slowly contoured.

This is where Tai discovered the lord's ether engine in the past zombie monster incident.

XHR2 just finished ether amphipathic work on the last biomuscles and revealed a wet body.

The lights of the photoneural network are flashing between the gray muscles that cover the body with green and blue light.

An optical cable that connects photoneural network sensors two thousand times faster than an electronic signal travelling on a wire.

Starlight emanates from the terminals of the optical cable.

Blue and green stars are shining.

The entertainment of small lights is not as cool as the wonderful lights I saw at the Luminaire Festival.

The overall appearance of XHR2 feels like a cyborg that mixes humans and machines.

Knock, knock...

As the ether solution exits the water bath completely, the ether solution becomes a droplet and falls from the giant's body.

Multiarticulated robotic arms dry the drops with a large dryer and begin taping the outside with black graphene tape.

As the taping progresses, mechanical devices and artificial muscles hide their tracks inside the tape.

A giant whose appearance is gradually changing like a black mummy in a horror movie.

Nam Ph.D. 3 people and hope are looking at that.

A new, bizarre and heterogeneous appearance is enough to catch your eye.

“This is XHR2....”

Hope is terrified when she sees a slender giant wrapped in graphene tape.

If XHR1 is like a robot that makes you feel strong, XHR2 is as sleek as a good fighter.

It is painted like a model that has lost weight.

And the appearance of muscles covered without gaps is hidden in the sleekness of strength.

Nam said, looking at XHR2.

“Height 9 meters, weight 7.9 tons,

the drive system is a hybrid system of an artificial biomass muscle and a BLDC motor,

This is the first prototype of XHR2. ”

Nam smiled as he thought about the difficulties he had in making XHR2.

Now XHR2 does not only have exterior gloves but also has a complete form.

Although the overall weight may be increased further by the outer gloves for the bullets in the future, the artificial muscles themselves are basically bulletproof, very similar to the muscles of the monsters.

So there will be no weight gain due to excessive outer gloves.

If XHR1 had a strong handcuff with a metal sponge and multiple drive system, XHR2 would be as strong as that of bulletproof material.

It does not fall by one or two flights unless it hits a bullet point.

Hope, however, recalled the difficulties experienced during the XHR1 test.

The first prototype of XHR1 had so many system problems that it was difficult to balance properly.

After thousands of falls from it, the third prototype of XHR1, now a child of hope, was completed.

I also remembered the hard thinking I used to have.

“Ah... can this stables work properly? ”

“Well....”

Nam shook his head.

Dr. Nam, who designed the last-minute prototype, also wonders.

In fact, this is the first time that a driver using biometric muscles has done experiments on each drive site, but it has been tested since it was completed like this.

In particular, the use of new unknown technologies is inconclusive.

So far, robots moving with artificial muscles, not motors, have not existed on Earth.

XHR2 is a horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse.

“The taping of XHR2 has been completed.

The charge is complete. ”

A flurry of voices from the female operator echoes the third floor of the basement.

Hope and Nam finally realized that the test time had come.

“Now it's time to test it, hopefully."

“Phew! Take a deep breath, Dr. Nam. ”

“Yes."

Hope breathed heavily and focused her mind on sympathy.

XHR2's piloting system added a new piloting sensor in conjunction with XHR1's motion follow system.

Neuron neural network system.

You can manipulate a horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse-drawn horse

I don't even know how to drill a hole in my head like a matrix.

Only the neuron sensors installed in the headgear detect the brain waves in the area that governs the motor nerve, allowing the horsepower to move directly.

Hope picked up the headgear.

Numerous small metal protrusions rise convexly inside the gear.

With the exception of metal protrusions, the headgear is made of very soft, breathable material.

Put the headgear on your head, tighten the chin strap, and the gear wraps around your back nerve.

Unlike conventional headgear, the sensor extends up to the top of the neck.

ROS, XHR2's operating system, uses the 3.0 system.

I've experienced it with the Hope Simulator, but I've never actually driven XHR2 before.

XHR2 is such a heterogeneous and new system.

Hope put on the headgear and breathed again, then opened the hatch of the lying XHR2.

There is an unusual half-lined cockpit instead of the XHR1 cockpit.

It is not surprisingly uncomfortable because of the lying position, even though it is in the form of a half-sitting.

As the hatch closes, a subtle blue light illuminates inside the cockpit.

Unlike the wide hemispherical monitor of XHR1 inside the cockpit, there is a fairly small hemispherical monitor.

I wore a motion globe similar to XHR1 and put an optical cable on my headgear.

Concentrating on the mind, the neural network sensor that sensed the brain waves automatically booted XHR2.

Phew! Phew! Phew!

[Welcome. Unexpected User Verification Completed.]

[Start ROS 3.0 operating system. Please wait.]

[Checking XHR2]

[Neuron neural network control system (5201/5201) normal, hydraulic stabilizer normal,

Pose control module (100/100) normal, 89% charge air metal cell (6/6) normal,

BLDC motor (390/390) normal, graphine muscle charging module (200/200) normal.

Ether fluid supply control system (20/20) normal, artificial blood vessel termination (8901/8901) normal

Biomuscular Module (10302/10302) [Normal]

Whoo-hoo!

Motors controlling the air metal cell play and slowly boot up.

At the end of the machine check, the neuron system shared the neural network of XHR2 with the Hope Brain Wave was activated.

[Start the neuron system for driving XHR2.]

[Neuron System Synchronization Rate 9%]

...

[Neuron System Synchronization Rate 49%]

...

[Neuron System Synchronization Rate 58%]

Hope lifted the hyper sensation and increased coordination as much as possible.

I can feel it.

Bring each part of XHR2 to life

I feel like my own body.

The neuron system connected with the neural network of XHR2 and shared all parts of it.

The synchronization rate is no longer up from 59%.

Upon releasing the hyper sensation, the new synchronization rate dropped to 39%.

[Neuron system has completed stabilization. Current coordination rate [39%]

It's a strange sensation.

The ether fluid flowing into XHR2 flows through the neural network and conveys the feeling of XHR2's body through the headgear.

I lifted my coordination and opened my eyes.

The blue screen unfolds before your eyes.

[All devices are functioning normally. [Motion Error (0)]

[Welcome aboard XHR2 Prototype 1.]

Finally, the initial manoeuvre is complete.

Instead of the magnificent sound of the Ferrari engine engaged with HYKERS, only small, subtle motor sounds are heard in the ear.

Surprisingly low noise compared to XHR1.

Technological advances have led to performance improvements, but the majestic sound of high-performance engines has taken away the romance.

But now it's time to focus your mind on testing rather than romance.

Now is the time to arouse the body.

Focusing on the neuron system, the motion globe and lower body sensing equipment were moved.

A sensor sensing movement of the lower body sensing equipment actuated BLDC motors embedded in the lower body of XHR2.

Ji-ying!

My body moves slowly.

When hope concentrates its mind, the neuron system reacts immediately.

“Huh?”

A nine-metre goose suddenly rises up.

It reads the brain waves and immediately controls the artificial muscles of the lower body region.

Surprised by the amazing reactivity of the new neuron system, hope does not get the body right.

“Argh! ”

“Be careful, Hope! ”

Dr. Nam shouted.

The giant who raises the body falls back in front of it.

Quuuuuuu ~

A massive impact of 7.9 tons struck the floor.

“Hope, are you okay? ”

“Oops... Oh, it's gonna get ugly. ”

Hope frowned on the sudden spill of pain.

This time, I was shocked because I didn't even speak the right words.

I'm not used to the shock of falling to the ground, either.

Furthermore, unlike XHR1, this gas is so fast that it does not adapt properly.

The photosensors of the neuron system surprisingly use analog rather than digital methods.

It is also an advanced system and uses analog because of its processing speed and accuracy.

Twenty years ago, computers were much more analogue than digital.

Digital methods are faster in calculating numbers and processing information, but sensors that detect specific values or measure units are much faster in analog than digital.

The disadvantage of this is that it has to be calibrated continuously.

After all, it is concluded that hope should be beaten with the body until XHR2 works properly.

Hope moved her arms and legs by focusing her mind to awaken her body.

The neuron system reacted immediately, causing the lower body muscles to contract and regenerate.

Habitually moving the motion follower adds to the strength of the BLDC motor and lower body artificial muscles and the body is not properly controlled.

Qaaaaaah!

The gas falls backwards this time.

“Argh."

This time the impact is pushed from the back side.

Hope arose from the urge to take off the headgear that was covering his head.

It does not seem easy to adapt to neuronal systems.

Theoretically, when the neuron system synchronization rate is close to 100%, the artificial muscle and BLDC motor can be fully controlled and the gas can be controlled.

However, it is virtually impossible to have such a synchronization rate.

That's why we use motion followers as auxiliary pilots.

The control value of the neuron system and the motion follower must be properly received by the gas, but it is not enough yet.

So hopelessness had to be frustrated.

“Phew! That's hard. The gas is too much to control...”

Dr. Nam sighed at XHR2, who was unable to get well.

For the first time, I can't help it, but it's too bad.

“But the response rate of the neuron system is amazing. It's just super fast.

If you follow the motion, you get a delay of 0.3 seconds, which is just what you think. ”

Something seems to be missing a lot, but it still seems likely.

The advantage is fast reactivity.

XHR2 is remarkably fast, unlike traditional XHR1 with 0.3-second movement delays.

Almost every gas seems to be moving in 0.1 seconds.

“Hope, will you come down? ”

“No, it's my first time, so let's move on a little bit. ”

Hope cautiously triggered the gas this time using the motion follow system.

Actively utilized motion follow system instead of unfamiliar neuron system.

It turns out that the neuron system is like an inner ball that comes out of an anvil.

When my masters use the inner air in the shackles, they immediately cause a distortion.

It's kind of funny to have a horse-drawn cage, but the gas reactivity itself is different, so I thought it might be faster to understand that.

Using the motion follow system, the gas was tangled up.

It's hard to get the gas up yet.

Now, when you have to walk through the inner air... or through the neuron system.

Hope recalled moving steps to control the gas into the neuron system.

The gas reacts to the waves of hope and immediately moves.

The first step moves.

Then, the moment you try to take the second step, the gas suddenly leaps forward, reacting explosively.

Hope tried to stop the gas at such a rapid reaction rate, but before that, the gas broke its third step and shattered towards the wall.

Qaaaaaaaah!

The gases rushing with enormous acceleration entered the walls of the third floor of the basement.

Shock cracks in the ceiling lights and concrete pieces fall from all over.

“Evade.! ”

Watching him outside the bulletproof glass wall, Nam became cool.

The horse-drawn horse-drawn horse-drawn wall collapses.

“Hope, are you okay? ”

“Argh... Oops... Oh, it's really exciting, but it's hard...”

Hope forcibly swallowed up new things in the heart.

In the blink of an eye, the gas really accelerated and moved.

I didn't have time to respond. The moment I hit the wall was stunning.

Hope continued to breathe until the pain subsided.

Whoo-hoo! Whoo-hoo!

One wall is completely broken, as if the underground three-storey facility had collapsed after a little more leap.

Hope carefully moved the motion follower system to move the gas to the center.

Incredible responsiveness and incredibly difficult controls.

I thought the neuron system was like a double-edged sword.

When the gas shuts down and opens the hatch, members of the Special Operations Team wearing HGD1 come to their hopes, raising the old infantry shield upwards.

“Well done. Now come this way. ”

“Yeah, that's tough. ”

Hope then completed the first XHR2 manoeuvre test in the basement of the Feud R&D Center.