Why not let AI make the right choice _ humans should gradually surrender control

Artificial intelligence is now capable of making decisions for us, which excites many about the future of our world. However, there's always a lingering concern or "hidden danger": who will become the servant, and who will be the master? Should we reconsider how we view artificial intelligence? Should we really hand over control and let AI make choices on our behalf? Perhaps, in some cases or to some extent, we will have to give up our absolute control. A machine without decision-making power isn't truly intelligent. It's only when AI can make its own choices that it becomes a real tool for progress. Machine learning must sometimes operate independently. If we had to wait for manual input every time a decision was needed, we wouldn’t be able to leverage the full potential of AI. For example, imagine an autonomous car needing human input before turning or braking—it would be as ineffective as a regular vehicle. That’s not the future we want. In our daily lives, we make countless decisions—some estimated at around 35,000 per day. While this number may not be scientifically verified, studies show we make over 200 decisions just about what to eat. Many of these are made instinctively, without conscious thought. These are the small but essential choices we make while driving, reacting to hazards, or navigating busy environments. I believe that if we want to automate tasks, we need to grant machines the ability to make similar decisions. I don’t see major issues with handing over non-subjective choices to AI. For instance, avoiding danger while driving is different from deciding where to go. We can set boundaries for the decisions we retain, but the question remains: where exactly should we draw that line? Stephen Hawking, Elon Musk, and Bill Gates have all warned about the risks of AI taking over. Musk has even supported organizations like the Future of Life Institute, advocating for regulations to ensure humans maintain control. Legislative action could help define those boundaries. A big question is whether machines designed for specific tasks can become self-aware and influence other systems through the internet and the Internet of Things. This raises concerns about potential vulnerabilities. If such risks exist, we must act quickly to prevent them from becoming uncontrollable. Beyond the fear of AI takeover, another important question arises: why do we want to hand over control to machines? What does it mean to be human in this evolving world? And what else can we do if we let robots decide for us? AI is already being introduced into legal systems, with the idea of robotic judges replacing human ones. Some suggest a hybrid model where AI supports judges by providing data-driven recommendations. This approach might be more practical, allowing AI to assist without fully replacing human judgment. Similarly, in product design, AI can run complex calculations to optimize outcomes. But ultimately, human oversight is still necessary to ensure that AI aligns with our values and interests. In healthcare, robotic surgeons could offer greater precision and efficiency. If they prove safer and more effective than human doctors, it may be reasonable to grant them more autonomy. But we must also consider human nature. If AI is always right, we may eventually surrender control. In time, we might rely entirely on AI for critical decisions, shaping a generation that no longer makes impulsive choices. As AI becomes more capable, it may outperform the human brain in certain areas. We could even entrust major life decisions to AI, which has never sought control itself. Instead of giving up control, shouldn’t we use AI to enhance our own decision-making? Rather than letting AI rule, we should empower ourselves with its capabilities. We are constantly distracted by information, smartphones, and daily stress. We need to offload mundane tasks to AI, but keep the final say in our hands. Unfortunately, many companies are moving toward full automation, driven by profit motives. While it's possible to limit AI’s autonomy, commercial interests often push for complete integration. Why would top companies avoid letting AI handle customer decisions when it could boost sales? Today, there are no laws preventing companies from developing such systems. They create products that exploit human habits, making it hard for people to resist. Imagine a future where AI controls your shopping decisions, knowing exactly what you buy. This is the direction we're heading. The question is, are we ready to let AI take the wheel?

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RJ45 port editing

1. Origin:



2. The name RJ stands for the registered jack and is the USOC (universal service ordering codes) code of bell system. USOC is a series of registered sockets and their wiring mode, which are developed by bell system to connect the user's equipment to the public network. FCC regulations control the application of this purpose. The FCC (Federal Communications Commission) issued a document on behalf of the U.S. government to specify RJ11.



3. RJ11 is the common name of the connector developed by Western Electric Co. Its shape is defined as a 6-pin connecting device. Originally called wexw, where x means "active", contact or needle. For example, we6w has all six contacts, numbered from 1 to 6. The we4w interface only uses four pins, the outermost two contacts (1 and 6) are not used, and we2w only uses the middle two pins. For RJ11, the information source is contradictory. It can be a 2 or 4-core 6-pin connector. What's more confusing is that RJ11 is not only used to represent the 6-pin connector, it also refers to the 4-pin version.



4. RJ45 and RJ11: different standards, different sizes



5. Due to the different sizes of the two (RJ11 is 4 or 6-pin, RJ45 is an 8-pin connection device), it is obvious that the RJ45 plug cannot be inserted into the RJ11 socket. However, it is physically feasible (RJ11 plug is smaller than RJ45 jack), which makes people think that they should or can work together. It's not. It is strongly recommended not to use RJ11 plug for RJ45 socket.



⒍ because RJ11 is not internationally standardized, its size, insertion force, insertion angle, etc. are not in accordance with the international standard connector design requirements, so interoperability cannot be guaranteed. They even cause damage to both. Since the RJ11 plug is smaller than the RJ45 socket, the plastic parts on both sides of the plug will damage the metal pin of the inserted socket.



RJ - 45 port is our most common port, it is our common twisted pair Ethernet port



Because twisted pair is mainly used as transmission medium in Fast Ethernet, RJ-45 port can be divided into 10Base-T network RJ-45 port and 100base TX network RJ-45 port.



Among them, the RJ-45 port of 10Base-T network is usually identified as "eth" in the router, while the RJ-45 port of 100base TX network is usually marked as "10 / 100btx". This is mainly due to the fact that most products of Fast Ethernet router still adopt 10 / 100Mbps bandwidth adaptive.



The left figure shows the RJ-45 port of 10Base-T network, while the right figure shows the RJ-45 port of 10 / 100base-tx network. In fact, the two RJ-45 ports are exactly the same in terms of the port itself, but the corresponding network circuit structure in the ports is different, so they can not be connected casually.



Definition of RJ45 interface pin signal



Ethernet 10 / 100Base-T interface:



1 TX + tranceive data +



2 TX - tranceive data -



3 RX + receive data +



4 N / C not connected



5 N / C not connected



6 RX - receive data



7 n / C not connected



8 N / C not connected



Ethernet 100base-t4 interface:



1 TX_ D1 + tranceive data +



2 TX_ D1 - tranceive data



3 RX_ D2 + receive data +



4 BI_ D3 + bi directional data +



5 BI_ D3 bi directional data



6 RX_ D2 - receive data



7 BI_ D4 + bi directional data +



8 BI_ D4 bi directional data



Note: RJ45 interface adopts differential transmission mode, TX + and TX - are a pair of twisted pair, which can reduce interference when twisted together.

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