What is Encoding? By definition, Encoding means to alter, change or compress something. In other words, it is “encoding” something. Now, your brain sees something it desires to remember, and that is sensory information.
Then, it encodes that sensory information, and converts it to a memory in “bytes”. You then have a binary encoded memory. These are the “ones” and “zes” in a byte order. Then, the encoder can use any type of Alignment for the data, such as: Zip (rows, cols, diamonds), BZip (hue, red, green), or Shuffle (upper case, lower case, alpha). Once the data has been transformed into a binary encoding, the encoder can use any of the above alignment methods.
How is encoding done? There are four primary types of encoding: BIN, GEB, NVB and UTF-8. Let’s look at each one. The four primary types of encoding are visual (the eyes), audio (ears), numeric (numerals) and textual (text).
The visual method of encoding most commonly use colors, shapes and lines. A computer uses the arrangement of the pixels on the screen to generate this information. This is called a “graphic user interface”, which means that you get a visual representation of the information you have requested. This is often used on mobile devices. This is one of the main reasons that phones often use the UTFE (Uniform Time Format) encoding, because of its simplicity and compatibility with a wide variety of operating systems.
Audio is another method of text encoding, which means that text is “talked” to (printed) or converted to (translated). This is a very common method for converting spoken words to text and can be done through speech recognition technology, which takes the audio portion out of the original and stores it in the computer’s memory. This is often used for producing machine translated documents or other forms of automatic translation.
The final way that encoding happens is through the NVB (numeric binary) format. This is a three-stage format that stores information as binary numbers. This format is often used in conjunction with the BIN (base intersystem transfer) format to save space on a file system. The three stages of encoding are done differently, but all can be combined, depending on the type of document or application being encoded. The NVB format is used widely in scientific applications, such as genetic codes, navigation codes, databases and other types of digital information. Encoders must take care not to create or corrupt the NVB data stream, as that makes the encoding process invalid and ineffective.