Super God-Level Top Student
Chapter 953 - 362: Deceiving Subordinates but Not Superiors?_2

Not just their department; everyone else is the same.

The grassroots system design in Huaxia is quite unique. It's inherently structured like "a thousand threads above, one needle below." A temporary community grid worker might need to undertake tasks spanning all aspects. If Dou Dou's management system is integrated, combined with countless intelligent data-collection devices...

"It's indeed fascinating. I think this is undoubtedly a bold attempt, but it requires corresponding legal support. The underlying logic of a smart city is still data. If we truly want to advance smart city construction, perfecting various laws and regulations is essential. How to define and protect this foundational data requires appropriate legal grounds.

Additionally, I believe that if such an attempt proceeds, it would necessitate a unique monitoring and response system. From technology to practical operations, analysis of the citywide intelligent decision-making processes is required, along with preparations for potential issues and a new division of responsibility systems."

"You're absolutely right, but I've heard that the executive office has relevant reports as well. It can only be said that artificial intelligence might be considering things more comprehensively than we are. I've heard they've already begun making moves in Xilin; hopefully, they can secure that smart city pilot project. I just wonder how their version might differ from ours and what they'll think when the time comes."

These words brought a smile to everyone's face in the conference room.

For Xilin City, if they truly could invest billions to upgrade the entire city while also boosting economic vitality, improving employment levels and quality, it would naturally be a tempting prospect. However, Dou Dou has hidden many of the required aspects in the report, which comes off as overly sly.

"Everyone's suggestions are quite good. Here's the thing: I estimate Xilin's application might take some time before being officially submitted. After returning, everyone should think carefully, collaborate across departments, and compile relevant issues for reference in the final decision-making."

"Let me say this upfront: the higher-ups are taking this plan very seriously. It's not just us; many units have received the report. We can't afford to drag this down."

The senior minister concluded firmly.

...

Indeed, Xilin wasn't fully aware that while they were intensively gathering detailed data to advance this matter, various departments in the Capital had also received the report and begun investigations from top-tier perspectives.

Although it's simply a pilot project for the intelligent construction of one city, there's still much to be done. It's far from the simplistic notion many have of "just funding it." Multi-department collaboration and rule-setting are needed.

Artificial intelligence is undoubtedly a new type of productivity tool, representing advanced productivity, but how to balance and manage it is an art.

There's inevitably plenty of maneuvering involved.

Even though Dou Dou's report expresses considerable confidence in "expanding the pie," that future vision first requires taking the pie from others. Resistance would be normal, and managing the impact to smoothly implement smart city construction requires immense wisdom.

Thus, a unit called the Artificial Intelligence Charter Management Bureau was quietly established in the Capital.

No expansion was conducted; all personnel in this unit were elite members drawn from various functional departments.

Its functions are still relatively straightforward for now: primarily addressing urban management measures relating to artificial intelligence. This includes, but is not limited to, researching targeted policies and regulations, as well as supervising and reviewing future artificial intelligence management systems.

None of this concerned Qiao Ze at the Xilin Mathematics Research Institute. He wasn't even particularly invested in Dou Dou's smart city construction efforts.

The advice he gave Su Lixing at the time was based on multiple considerations, like making Xilin safer and more convenient, since he planned to put down roots there.

If one really thinks about it, the project Qiao Ze cared most about among the current initiatives was the subsea cluster exploration project. After all, this project carried greater missions.

Still, the foundational testing couldn't proceed any faster due to its exhaustive nature. Every record now exists solely to check for omissions and make improvements.

Especially once mass production of the carriers starts, even minor yet-unnoticed problems could be magnified infinitely under mass-production conditions. Out of responsibility for the project, it's only reasonable to rigorously verify and test the data repeatedly.

Fortunately, Qiao Ze wasn't in a rush. Moreover, he had plenty on his plate.

Edward Witten had taken a significant risk coming to Xilin for a long-term stay—it had to yield results. Hence, research on interactive and interwoven theories naturally took priority.

Meanwhile, the three-month adaptation period he had allotted for his students was almost up. The recommended reading material should be thoroughly understood by these doctoral students by now. Next, research on Qiao's algebraic geometry needs to officially progress—it's no longer acceptable to postpone it.

Although Qiao Ze had already let go of the idea of having these doctoral students graduate within three years, five years should suffice, right?

Earning a doctorate from Xilin University of Technology remained challenging, particularly now that the School of Mathematics had seen substantial advancements. Graduation conditions, further elevated under Qiao Ze's guidance, posed new hurdles. While the Xilin Mathematics Research Institute wasn't part of the University of Technology, Li Jiangao was a doctoral advisor there, so graduation requirements naturally mirrored the university's standards.

In short, Qiao Ze's life remained as filled and productive as ever, leaving no room for idle thoughts.

Meanwhile, Peter Schultz from the University of Bonn was in stark contrast.

Recently, his mind was chaotic—restless and overthinking.

It wasn't just the invitation from Qiao Ze's first email. In truth, he had been maintaining academic correspondence with both Qiao Ze and Edward Witten for days now. Their discussions only solidified his realization: Qiao Ze in Xilin was pioneering a genuinely new mathematical approach, one that allowed multi-layered applications.

What left Peter Schultz in awe was that the theory Qiao Ze was attempting to construct not only expanded traditional mathematics but also deeply delved into understanding the behavioral dynamics of complex systems in the real world.

To put it differently, this framework surpassed the mere exploration of embedding algebraic structures into geometric objects or interpreting algebraic properties through geometric approaches. Instead, it had genuinely begun to use mathematics to unify physics.

For instance, interwoven algebra could directly describe the entangled states of quantum bits, serving as a potential replacement for wave functions and Schrödinger equations, and perhaps performing even better.

Traditionally, quantum entangled states are described using wave functions, with Schrödinger equations capturing their evolution. However, as system complexity increases, wave functions become cumbersome, rendering the entanglement framework challenging to comprehend intuitively.

Interwoven algebra introduced abstract algebraic structures to succinctly describe entanglement relationships among quantum bits, avoiding the complications of wave function calculations. Most importantly, it could directly represent quantum bit operations like entanglement, superposition, measurement, and interaction, each defined with corresponding notations to make computational processes more intuitive and efficient.

What awed Peter Schultz the most was that Qiao Ze aimed to establish a more flexible and universal framework. Within this mathematical system, relationships between varying types and numbers of entangled quantum bits could be addressed simultaneously without relying heavily on specific wave function forms.

No wonder Qiao Ze invited Edward Witten to participate in this research in Xilin, and no wonder Witten actually agreed. From recent academic exchanges with the two, Schultz too glimpsed the possibility of achieving true theoretical unification.

Unifying the four fundamental forces, seamlessly integrating the macro and micro realms.

If this work succeeds, it signifies not only the discovery of new mathematics but the birth of new physics. Human civilization might undergo yet another transformative leap through the revolution of foundational sciences. And now, an opportunity lay before him...

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