Siheyuan: Start at level 60, beat up all the animals

"In this way, the reaction speed and decision-making ability of the AI ​​system will be greatly improved." Li Yang is confident in his design. The AI ​​system is not just an auxiliary tool, it will become a "think tank" on the battlefield in the future, providing commanders with the best combat plans.

Li Yang is not satisfied with applying AI systems only in the military field. The potential of AI is far more than that. It can bring revolutionary changes to all areas of the country.

"Agriculture, industry, medical care..." Li Yang's thoughts were running fast.

He thought of many areas where the autonomous learning ability of AI systems could be used for precision agricultural planting, by automatically adjusting planting plans through real-time monitoring of soil and climate conditions, thereby significantly increasing food production.

In industry, AI can be used to manage automated production lines, optimize production efficiency in real time, and reduce resource waste. In the medical field, AI can help doctors diagnose diseases early and develop treatment plans through big data analysis.

Li Yang's eyes sparkled with excitement. He knew that the widespread application of AI systems would bring great technological progress to the country and greatly promote social development.

He returned to the computer and started writing new algorithms. He decided to add a "multi-dimensional data analysis" function to the AI ​​system, which would allow AI to analyze data in different fields according to different needs, thereby providing the best solution.

Li Yang added different "modular designs" to the code to ensure that the AI ​​system can flexibly adjust its functions according to needs.

His fingers moved rapidly on the keyboard. After a while, lines of code appeared on the screen, and the multi-field application framework of the AI ​​system gradually took shape.

Li Yang took a deep breath and stared at the screen, as if he had already seen the future where AI would shine in all fields.

……

Li Yang stood in the middle of the laboratory, holding a pencil in his hand, tapping lightly on the table, but his eyes were staring at the whiteboard in the distance, his expression focused and deep.

The whiteboard was filled with densely packed design drawings and formulas. Although most of these contents were related to his previous designs of energy tanks and AI systems, at this moment, his thoughts had jumped out of these projects and entered a completely new field.

Nanorobots - this idea had been lingering in his mind for several days, like a seed, gradually taking root and sprouting.

"Nano robots..." Li Yang whispered to himself, with wisdom flashing in his eyes.

The image of nanorobots gradually emerged in his mind - these tiny machines, perhaps only a few nanometers in size, are large enough to move freely within the human body, even deep enough to reach the cellular level, to perform various tasks.

They can repair cell damage, remove lesions, and even help the human body resist external viral invasion. At the same time, nanorobots can also play a huge role in the military field, such as repairing damaged combat equipment and even causing chaos in enemy systems.

"This will be a brand new breakthrough." Li Yang's mouth corners slightly raised, full of anticipation.

He walked over to the whiteboard and began to sketch the design of a nanorobot in a blank corner with a pencil in his hand. The nanorobot needs to have extremely high precision and flexibility, and must also be strong enough to survive in harsh environments.

Li Yang decided to make these nanorobots using a composite material - a combination of carbon nanotubes and graphene. This would not only ensure their strength and durability, but also greatly reduce their size and maintain extremely high flexibility.

After completing the external structure design of the nanorobot, Li Yang began to think about its power system.

Ordinary batteries obviously cannot meet the energy needs of nanorobots, nor can they be installed in such tiny devices.

He decided to design a "micro energy harvesting system" for the nanorobot, which could provide power to the robot by absorbing surrounding magnetic field energy or thermal energy.

Li Yang's idea is very clear. This energy system can not only ensure that the nanorobots can continue to operate for a long time, but also keep them in good working condition in extreme environments.

"In this way, the nanorobot can complete long-term autonomous work without relying on external energy." Li Yang was secretly satisfied and quickly sketched the design framework of the energy collection system on the whiteboard with a pencil.

Next, Li Yang began to think about the functional modules of the nanorobot. Since the nanorobot is very small, the design of the functional module must be as simple as possible without sacrificing functionality.

He decided to divide the nanorobots into several different types, each specializing in a different task.

The first type is "medical nanorobots." These robots are mainly used in the human body to help repair damaged tissues, remove diseased cells, and even replace traditional surgical tools during surgery.

Li Yang designed a "self-repair system" for these nanorobots on the blueprint. Once they are damaged in the human body, they can self-repair by absorbing the surrounding energy, ensuring that they can work in the body for a long time without causing harm to the human body.

"These medical nanorobots will revolutionize future medicine," Li Yang muttered, his eyes gleaming with excitement. He knew that with this technology, future humans would be able to cure many currently incurable diseases and perhaps even extend their lifespan.

The second type is "industrial nanorobots." These robots can be used in a variety of complex industrial environments, such as repairing machinery and equipment, cleaning up hazardous waste, and even performing detection work in extreme environments.

Li Yang decided to design an "intelligent assembly system" for this type of nanorobot. Through the command of AI, thousands of nanorobots can be combined into a larger working unit to complete complex tasks.

This design is very forward-looking. Li Yang believes that future industrial automation will undergo revolutionary changes due to the emergence of these nanorobots.

The third type is "military nanorobots." Li Yang knows that nanorobots have great potential in the military field.

Not only can they be used to deliver medical aid on the battlefield, they can also infiltrate enemy systems, disrupt enemy communication networks, and even cause destructive failures in enemy weapon systems.

Li Yang designed a "camouflage mode" on the drawing. These nanorobots can avoid enemy detection by changing their surface structure, ensuring that they can lurk in the enemy system for a long time and carry out sabotage missions.

"This will be the key to future wars." A hint of coldness flashed in Li Yang's eyes. He knew that the application of nanorobots on the battlefield would completely change the rules of war.

After designing the various functional modules of the nanorobots, Li Yang gradually turned his attention to their control systems. Since the nanorobots are very small, traditional control methods are obviously not applicable. Li Yang decided to let the AI ​​system take on this task.

He walked to the lab table, turned on the computer, and began to write the control program for the nanorobots. He decided to integrate these nanorobots with the AI ​​system he had designed previously, allowing the AI ​​system to remotely control the actions of the nanorobots through wireless signals. The AI ​​system will act as a "commander", responsible for analyzing information on the battlefield and adjusting the execution of the nanorobots' tasks according to the situation.

In order to ensure that the nanorobots can accurately perform tasks in complex environments, Li Yang decided to add a "distributed control" function to the AI ​​system. This means that AI no longer needs to directly control each nanorobot, but can assign different tasks to the "command units" in the nanorobot cluster, which are responsible for coordinating the actions of the entire robot cluster. This design can not only greatly improve the operating efficiency of the system, but also ensure the smooth completion of tasks in the event that some nanorobots fail.

"In this way, no matter how complex the battlefield environment is, AI can complete various tasks through nanorobots." Li Yang is full of confidence in his design.

He continued to write code on the computer and added an "adaptive learning" function to the AI ​​system. The AI ​​system can continuously adjust and optimize instructions by analyzing the feedback information of the nanorobots performing tasks, thereby improving the working efficiency of the nanorobots. This "adaptive learning" function will greatly enhance the flexibility of nanorobots, enabling them to cope with various complex environments and tasks.

4. Application of Nanorobots in the Medical Field

Li Yang put down his pencil, walked to the window of the laboratory, and stared at the sky in the distance. In his mind, he began to imagine the wide application scenarios of nanorobots in the medical field.

He thought of cancer. The spread and metastasis of cancer cells is one of the biggest challenges facing the medical community. Although traditional radiotherapy and chemotherapy can kill some cancer cells, they can also cause serious damage to healthy cells in the human body. Li Yang believes that nanorobots can provide a new treatment method.

He walked back to the table and began to sketch the design of the "cancer cell tracking system" on the drawing. Li Yang decided to add a "target recognition technology" to the medical nanorobot. By identifying the markers on the surface of cancer cells, the nanorobot can accurately locate the cancer cells and attack them in a targeted manner. This not only solves the side effects of traditional therapies, but also greatly improves the effectiveness of treatment.

At the same time, Li Yang also designed a "drug delivery system" for the nanorobot. This system can deliver drugs directly to the lesion site, avoiding the waste and side effects caused by the diffusion of drugs in the blood. This precise drug delivery method will greatly improve the utilization rate of drugs and shorten the treatment time.

"Future medical treatment will no longer rely on large doses of drugs or surgery. Nanorobots will become 'micro surgical knives' in the hands of doctors." Li Yang smiled confidently, with endless hope in his eyes.