Tower Defense Strategy

The breakthrough in country C this time is AI technology.

...I am not embarrassed to say a breakthrough, because it was originally a separate game source code, but now I can only say: it will be used under the premise of ensuring safety.

The research on the game source code is actually the earliest of each project. However, due to the different coding rules, the generation of mathematical foundations, and the intranslatability between binary and four-phase languages, until the octopus came up with the "ancient channel" software, The mathematical foundation of Tuqiu has also improved with the opening of the Deep Space University of Technology, and a more practical translation software has been developed in reverse.

It wasn't until nearly four months after the monster crisis started that relevant agencies really saw the AI ​​source code without garbled codes.

The AI ​​of "Planet Strategy" is roughly divided into four types.

One of the advanced AI judgments was saved on the server side, and the code was not found.

The remaining three categories are automatic management AI, basic character AI, and monster AI.

First exclude the monster AI. The AI ​​logic is very primitive. Graduates from the original to related majors can understand its AI logic, which means that even without the origin of alien games, Tuqiu will develop similar AI in the near future, and even say Somewhere there is a basic framework.

The second one that is excluded is the automatic management of AI, which is a bit similar to the engineering control software of Tuqiu today, except that the degree of automation and comprehensiveness is far better than today.

The difference between the structure of automatic management AI and industrial control software is that it has only one logical core. For specific management, the relevant equipment needs to provide a management interface, which will contain the database and working logic of the equipment itself.

It does not seem to be a problem if you have to use it. The problem is that there is no supporting equipment, and the related equipment database and working logic standards involve another reverse development project of the game, which is far from the level of practical application.

All that is left is the basic character AI.

It is very magical.

Like management AI, basic character AI has only one logical core, and it needs to connect to other databases to generate a character.

Relevant databases include three types of life memory, knowledge, and blank. The first two can be composed of multiple small databases.

It seems to be no different from the big data now known as artificial intelligence.

The difference should be reflected in the experiment.

For the original basic character AI, a lot of data experiments have been done.

The same underlying AI, using exactly the same type A life memory and type B knowledge base, in many experiments, a total of fifty-six different personalities were born! For seven of them, even ordinary people can tell the difference in ten minutes.

Digging deeper, I realized that the logic core has written different things in the blank database through different memory data calling sequences, and a small amount of function applications, and then formed a completely different personality, and the blank database has also become a personality database. .

At this point, AI has become a full-fledged "role", but a clear personality is not conducive to primary applications. What everyone wants to know is how AI can solve the problems encountered by it with as little computing power as possible.

There are more experimental projects on this route, such as a "mirror test" that is familiar to the public.

The research institute transferred a biped walking robot from a robotics research center of a university, installed the AI ​​that had completed the preparation work, and increased its authority to hijack the existing control system.

There is no correlation between Tuqiu's existing robots and humans, except for walking on two legs. But even under such conditions, AI quickly realized that it was a mirror image of itself in the mirror and tried to organize the appearance.

The same AI was quickly installed on another robot that was smaller and turned into wheels. As a result, it passed the mirror test again.

In turn, it analyzed its simple database and found that its memory and personality database had changed. It realized that it had "passed through". The strange thing was that the total number of bytes of data increased, less than one hundred bytes.

This experiment shocked the participants.

A little bit of biological knowledge can be aware that, while cognizing the world while deleting the ability to replace existing memories, the total amount of data will not expand indefinitely, and it is already very close to normal organisms.

In addition, there are a variety of more strange experiments, such as the three major databases are all left blank directly on the robot and so on.

Finally, through a large number of experiments and careful fine-tuning of a few parameters of the logic core, a "machine tool" was finally created.

The "tool machine" will no longer change things in the three major databases of memory, knowledge, and personality. At the same time, in order to retain the ability to recognize the world and solve problems, it opens up an additional blank memory bank as a reference for action, rather than Reason for the initiation of the action.

In August, Dianguang had just been beaten to death in Ca, and a mass-produced prototype specially made for space operations was sent to the Future Space Station under the serial code name "Homo sapiens."

For the exploration of space, the human structure is not so reasonable.

"Homo sapiens" adopts the movement method of magnetic crawler and jetpack. With the help of specially designed triangular crawler structure, the ground contact surface of the crawler can be adjusted when necessary to change the height of the upper body. The left and right arms are made into a convenient form for replacement, and the conventional grab arm can be changed into a tool arm at any time.

After being restocked on the space station for two days, it has learned knowledge and skills among the talkative astronauts, including self-charging, self-changing robotic arms, welding outside the cabin, avoiding humans, and making calls to the ground.

At this point, once it is decided to mass-produce "Homo sapiens", not only will the manpower problems of the space station be greatly eased, the lunar base is not impossible to consider.

Some people began to worry about the omnic crisis.

However, this kind of thing needs to be scientific. The database stereotypes and logical core of "Homo sapiens" are all confirmed by several research institutes and several university departments, byte by byte. After considering all aspects, the hardware does not support it. After the locking of the three major databases, you say that a crisis is a crisis.

Of course, it cannot be denied that because AI is too anthropomorphic, there is indeed the same risk of accidents as humans.

However, the risk of working with "Homo sapiens" is certainly not higher than that of working with humans.

At the same time, the XX23 report for the first half of the year was also released, and country C gave everyone in the world who can still receive information from the outside world a catastrophe.

Against the background of global disasters and extreme shrinkage of shipping, the consumption of industrial materials in Country C has not fallen but increased, and it has increased by 7% over the same period last year. The consumption of industrial silver caused by the production of White Magic has even directly increased by 11 times!

Many people are fascinated: how to do it?

As we all know, the civilization of country C has not been cut off for thousands of years. A direct result is that the surface, shallow copper, silver, and gold that are valuable for mining in the country have almost been excavated. The remaining iron ore is limited by geographical factors and is generally tasted in industrial production. The loss of equipment in China is relatively serious, and industrial materials are extremely dependent on imports.

However, it is precisely because of this dependence that country C has been planning some major transnational events for decades, including railways on the Southwest Line, the North Line, and the West Line, as well as oil and gas pipelines.

Since the monster crisis, country C has drastically reduced its imports of finished goods. Anyway, country C has the strongest industrial capacity in human history, and there is nothing that cannot be replaced in the country.

After saving the import capacity, the food is not expected to be affected by the monsters abroad, and the import volume is relatively limited, so almost all of the capacity is used to transport raw materials.

The so-called return of rewards, those countries that continuously provide resources, country C also pays back, mainly in weapons and technology cost reductions, agricultural technology free assistance, power and arsenal infrastructure priorities, etc.

This model, under the premise that the monster crisis is getting worse and even facing the black sheep, will certainly not last long.

Country C is also thinking of ways from the domestic side.

On the one hand, those minerals that are not in good condition and usually seem to be of little mining value are deployed. It is not required to replace imports immediately. At least a group of personnel should be trained to expand production capacity in the future.

On the other hand, it is for civilian use. The supply of materials and commodities mainly reduces the supply of plastic bags, paint products, and wood. The first two are chemical products that can save a little oil to increase the amount of strategic reserves; wood is mainly related to manpower, because wood products are really not used to fight monsters, and the industry is shrinking due to environmental reasons, but it is artificially accelerated. For a moment.

But even so, the industrial system that relies too much on the input of external raw materials has its fragility.

The moon is a super asteroid with unlimited resources in the short term, and a lunar base may also be a solution.

After an argument and quarrel, Country C decided to give it a try.

The work done by country C for the lunar base includes a closed ecosystem (completed) and heavy-loaded rockets (uncompleted).

Heavy-load rockets are a bit controversial. Some people think that with the existing docking experience, it is entirely possible to use commonly used rockets to achieve multi-stage docking and then go to the moon. Wouldn't it be a good job to capture asteroids before?

In fact, landing on the moon is second. The development of heavy-duty rockets is mainly to prepare for the future development of the fourth planet Red Star. At that time, we can't send a pile of 100 kilograms of broken pieces to Red Star for assembly and airborne.

Now that the plan is changed to send the robot to the past, the technical preparations can be ignored for the time being, and it can be done directly.

However, at this stage, the future space station and death scepter are still the focus. The "Homo sapiens" robot at least guarantees the work progress of the future space station. This process is also required for further observation, debugging and optimization.

The lunar base will be planned from now on, and all the details will be fully understood. When the mass production line of "Homo sapiens" is set up, the future space station will also have a certain scale, and the timing is just right.

In addition, there is another thing that needs time to wait, a super electromagnetic orbital launcher.

The three existing electromagnetic rail launchers are all based on the shafts left by the tunnel project. No matter how beautified, they do occupy road and railway resources.

After the No. 3 well passed the inspection, the space agency felt that a large well was still going to be used in order to be able to launch people up.

The acceleration of the existing well is too high, and the huge G force used to carry people will directly squeeze the people. Therefore, manned vehicles still use traditional rockets. Traditional rockets are inherently more complicated. In order to ensure safety, the necessary inspection procedures cannot be saved, and the manpower and material resources are consumed.

In order to carry people on the launcher, it is necessary to greatly increase the length of the electromagnetic acceleration section, at least more than six kilometers. It is impossible to drill a vertical well with this length. Radius is necessary and an additional G force is generated. In order to reduce the G force, it needs to be longer. If you take into account the need to transport some treasure-level figures such as great scientists to the sky in the future, the acceleration will have to be lowered, or the silo can pass through the longer rocket body.

Argument to prove it, and finally to prove a spiral ascending orbit with a length of twelve kilometers.

A little calculation ~www.wuxiaspot.com~ has achieved such a large scale. Just make a five-meter caliber. The increase in material loss does not exceed 50%, but it can launch at least three times more than the carrier chip.

Five meters is not a random figure, otherwise, of course, the bigger the more cost-effective, the digging ability of country C, let alone five meters, can dig out more than ten meters.

Five meters can match the existing production capacity. Country C already has a rocket with mature launch experience, and the maximum diameter is five meters. With reference to the previous 3.35-meter wells No. 1 to No. 3 experience, this diameter can be used in the future to send a load of 40 tons to low orbit, even if it is now, after a relatively simple rocket modification, it can also send eight (synchronous) To twenty-five tons (low orbit).

This reflects the shortcomings of the electromagnetic orbital launcher, that is, the defect of caliber matching ability.

Electromagnetic ejection, the farther away the accelerator is from the coil, the harder it will be. The 3.35 meters can only launch 3.35 meters in diameter. Although it will be lighter to launch 2.5 meters in diameter, it is more prone to unexpected directions during acceleration. Deviations can even lead to serious launch accidents of the type of silo damage.

All in all, the super silo with a diameter of 5 meters and a length of 12 kilometers is the effort of country C for future manned transportation, and the development of the moon will also fall on it.