We can visualize this random sequence by drawing a path that changes direction according to each number, Of TV static over time, we will generate a truly random sequence. One, two, three, four- For example, if we measure the electric current Noise, known as sampling, we can obtain numbers. We can generate truly random numbers by measuring randomįluctuations, known as noise. Observe the physical world we find random fluctuations everywhere. So, you could generate a truly random encryption key from TV static, but it would have to be shared ahead of time. In public key encryption with the use of pseudorandom numbers, the relatively short seed can be securely shared (see the video on public key encryption) and then used to generate the exact same very long encryption key on both sides of the secure conversation. This is why methods like public key encryption are used. Also, you cannot simply send it as is or the eavesdropper with see both the encrypted data and the encryption key and be able to decrypt the data. If you generate a truly random series of numbers to use as the encryption key, then you need to send the entire series to you recipient. The difficulty is if you need to encrypt some data and send it to someone else in a way that will put it at risk of eavesdropping. You need a long series to avoid repetition which makes the encryption easier to break. The main reason for generating a long series of random or pseudorandom numbers is to encrypt data. However, as stahl.ej already mentioned, it would not be very practical.
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