When it comes to this for, it actually refers to the kind of substance that can change its shape, structure and a series of characteristics according to specific instructions or requirements. This thing is novel, and it sounds like something from a science fiction movie, but it is actually something that has attracted much attention in the research field, that is, the use of programmable materials in the field of dynamic wiring.
Let’s first talk about what programmable matter is:
1. What is its structure: This programmable substance seems to be composed of many tiny parts; each of these small parts is like a small brick, and can be combined and spliced in various ways, and different combinations can form completely different structures. We have to remember that this is not a simple patchwork, the small parts have to cooperate with each other.
2. There are also components. Simply put, it includes sensors, driving components and control parts that can process information. This sensor is to obtain external signals such as pressure, temperature and humidity changes, and light intensity in the external environment. The control part receives the signal and the control unit functions to instruct the entire material system how to move and perform specific instructions. These small drivers sound simple, but they are responsible for making the entire programmable material deform, expand or move. What is the source of its power? Is it an electrical drive? An electromagnetic drive? Or an optical drive? These are the focus of scientific research.
Secondly, let’s talk about the benefits of using programmable materials for dynamic wiring:
It has the characteristics of adapting to the situation. Traditional wiring is very troublesome under different application scenarios or needs. If you want to change lines and structures, you have to re-construct and lay many other problems. Programmable materials can dynamically adjust the wiring according to needs through small instructions, which can greatly reduce costs and save time. In other words, there is no need to re-do it on a large scale. If wiring is a waste of material and manpower, you can get a lot of supplementary resources to do other things. Don't think this advantage is useless.
This self-repairing ability is particularly strong. How to understand: When encountering line damage, programmable substances can quickly find the broken area and repair it through those control information, and replace the damaged "small plug-in-like structure". This greatly reduces the paralysis frequency of the entire line system and improves operational stability. Think about traditional wiring faults, which require a lot of effort to troubleshoot and then repair, or even find a large project to do it, but this can be solved quickly and accurately.
Third, it also has flexibility. It can make real-time adjustments based on on-site conditions and even emergencies. This special structure leads to many application fields. For example, stage performances may temporarily change the design, and the wiring can be dynamically changed to meet the lighting and other power layouts. The local optimization work logic of large factory assembly lines can change the situation without re-layout of the power grid.
The question comes again. Since it is so good, let’s list the specific advantages compared with traditional wiring:
1. From an installation point of view, traditional wiring is cumbersome and complicated, requiring many processes such as threading pipe fittings, and matching the overall design of the wall and house structure; programmable materials are much more convenient and simple. As long as the units are arranged, they can be assembled by themselves and adjusted according to rules or software instructions, greatly reducing the time cost.
2. Maintenance is more obvious; traditional wiring faults are difficult to troubleshoot as just mentioned and require professional and powerful construction personnel to be renovated. Programmable materials themselves have many advantages in solving this difficulty.
Also, are there any special requirements regarding the usage environment?
This is a good question. First of all, the temperature and humidity should not be extremely hot or cold, which is not conducive to the stable and stable operation of material components. Electronic components are prone to damage or cannot flexibly change their shapes. Secondly, some shielding measures need to be taken for environments with strong electromagnetic interference, because the basic components in these material systems rely on the movement of electric charges to conduct current and receive signal interference. If there is too much interference, they will fail.
This programmable substance is very promising and is likely to become a trend in the field of wiring in the future. Many problems will be solved and unlimited possibilities will be opened up. This depends on everyone's continuous exploration and research and development. Maybe it depends on one researcher's idea to create the possibility of changing the world! Speaking of which, the industrial control industry now provides global procurement services for weak current intelligent products! It is convenient for many people to choose this store for their purchases.
If you have the opportunity to deeply touch the application of these products or participate in related development, you must actively innovate and create future changes. Maybe the era of programmable matter led by you and me may open a more interesting new chapter. Everyone knows that the power of scientific research and creativity is unlimited, as long as you persist! Believe that the future will be better!
Leave a Reply