About this Space-Ready AV, which is an audio-visual system suitable for the space station. Let’s talk about the basic concept first. This system must work stably in the special environment of space. If you think about it, the equipment in space is very different from that on earth. The environment is vacuum, there is radiation, and a series of troublesome things. Therefore, this kind of audio-visual system must be specially designed and manufactured.
Let’s break down the key contents in detail. First of all, the first point is reliability. If something goes wrong in space, it will really be a catastrophe! You can't let the chain fall off, right? Its parts must be selected and manufactured to high standards to ensure that it can operate stably for many years in this extreme environment. For example, it cannot stop due to a small vibration. It has to be a device made of super strong and durable materials. There is a dedicated team studying the durability of these devices. Moreover, the design is based on the various limitations of the space of the space capsule, and a product that is small in size and extremely stable is specially produced.
Let’s talk about the second point of complete functions. If you think about it, in the space station, various monitoring, communication, entertainment, and many other functions rely on this system. Not only must the image information be conveyed clearly and accurately, but the audio quality must also be extremely high. After all, astronaut communication must be perfect in both aspects. Some devices can even do more than just watch and listen. What else do they need? That kind of interactive communication function meets the communication needs of various tasks in the space station~
The third point is compatibility. This set of things needs to be well compatible and work together with various other systems on the space station. For example, there should be no problem in cooperating with the environmental control system or data transmission system. But if the compatibility is not good, then it’s over. If something goes wrong, the whole working system may be broken. Before launch, it must be tested and studied many times in simulation experiments. Otherwise, there will be big trouble if something goes wrong in space~
That’s it, let’s talk about the Q&A part. Someone asked me what to do if I update the device? This requires a response plan when planning these things. What does that mean? For example, preparing for the storage of updated equipment parts and when they need to be updated, the feasibility of the entire project operation must also be considered. It cannot be the kind of unrealistic requirements that are just like fantasy. It must be realistically possible~
Now let’s talk about the weight limit. For space travel, the load is measured in grams. This set of audio-visual equipment must be as lightweight as possible. The functional requirements must not be discounted or reduced. Through high-tech technology and reasonable design, the ideal state of being both extremely light and extremely useful can be achieved~ Moreover, we must clearly distinguish between functions and weights and cannot be biased. Some just want to reduce a little weight loss. It is definitely not possible to lose large functions, so here we need to comprehensively weigh various complex pros and cons. There is also the issue of power consumption. Power supply in space can be tense. This AV system has to study ultra-low power supply and high output functions to achieve the desired results with less energy, and constantly improve the power management strategy to optimize these to ensure efficient working conditions. In short, it can adapt to various constraints to serve future exploration.
Then we have to go into more detail and talk about what are these used for in the application field? For example, as a space training simulation, astronaut training is like a rehearsal for actual combat. To be highly realistic, you need high-quality audio and video to simulate space conditions realistically, so that every detail is the same as in space. Only when the training effect is in place can you easily cope with the actual mission. Furthermore, in terms of video conferencing communication, ground control and communication with other stations require good audio-visual quality, so that they can comprehensively, accurately and truly communicate various specific information occurring in the space station. These two special core blocks play a very important role in supporting this system and are also the direct source of demand. As for security and privacy, we will leave it behind for now. After all, core business needs are more important. Then when it comes to cooperation, for example, we need to cooperate with professional aerospace agencies for research ~ we need to have a lot of experimental data to ensure that the plan is scientific. This kind of cooperation means not only considering current applications but also investing in future equipment evolution! Many universities or specialized technology laboratories will accept related projects, and collaboration and communication between different industries in research and optimization are a key part!
I also thought that something that must be done constantly is to simulate and test the equipment. We have specially set up simulated space environment facilities to test how our equipment is doing, whether its functions are easy to use, and whether it is affected by the environment. Many such targeted considerations are being carried out. At the same time, we also encourage the addition of various emerging technologies, such as material technology or chip technology, which can improve the performance of current equipment, and improve or replace their designs. This is also a good direction for us to achieve breakthroughs and continuous development, making space navigation equipment more intelligent and flexible! Having said that, I have to say that some companies are great at resource integration and logistics supply, such as providing global procurement services for weak current intelligent products! This company's ability in the supply chain of goods cannot be underestimated!
In short, I feel that this audio-visual system suitable for space stations has a very bright future, and it will definitely play an extremely important role in more space exploration missions in the future! Just keep investing in research and improvement! This could definitely take exploration a step further! There are all kinds of better applications waiting for everyone to discover, which will provide a good means for future scientific research~ There must be better breakthroughs that we have not expected, waiting for future scientific researchers to continue to dig out~ Let the work related to space utilization research and universe exploration develop smoothly and smoothly, and continue to move towards newer and farther things.
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