Can you really hear the difference in the sound quality of music?


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Can you really hear the difference in the sound quality of music?

difference in the sound quality of music
difference in the sound quality of music

A brief discussion of the principle of audio compression

difference in the sound quality of music
difference in the sound quality of music

 

grade headphones – performance, equipment – can you really hear the difference in music quality? A brief discussion of the principle of audio compression
When you listen to music, most of the time the format being played is MP3 or AAC.

Both formats are smaller formats in which the audio is processed and compressed. To reduce size and save space, they actually remove a portion of the sound signal compared to the original audio. But can you hear it?

In this article, we will introduce the principles of music compression and discuss a question: Does music compression really affect the music you listen to?

The principle of musical compression.
Most of the digital audio we receive every day, whether played online or stored as a file, uses the principle of lossy compression. Lossy compression not only compresses the data, but also deletes the original data, and with lossy compression, some data is gone forever.

But keep in mind that this censored data is not randomly selected. Audio compression formats apply psychoacoustics to remove sounds that are beyond our hearing range and that we are not aware of.

audio compression – operation, equipment – can you really hear the difference in music quality? A brief discussion of the principle of audio compression
The human ear has a hearing range of about 20 Hz to 20 kHz, and sound signals beyond this range cannot be detected even if they are removed. And as we age, the range of hearing decreases. Therefore, it can be said that the sounds that everyone hears are not really absolutely the same, even if they come from the same sound source.

The audio below can help you find your hearing range, you can listen to it with headphones to see how far away you can hear the sound signal. Be careful to control the volume at any time during the listening process, otherwise it may damage your hearing.

Also, when high-frequency sounds and low-frequency sounds are present at the same time, high-frequency sounds will be more difficult to hear clearly. For example, the constant drumbeats in the music can cause you to ignore the slight differences between the melodies.

This phenomenon is called “shadowing” and is used in the principle of compression. If there are louder low-frequency sounds, it can mask the sonic loss of high-frequency sounds. High and low here are relative, so this principle can be applied globally. But sounds above 15 kHz are more susceptible to masking, so that’s also a prime issue for compression.

Although it is obvious that the sound signal removed by lossy compression should be mostly useless data, there are still people who believe that these “ambient sounds” being removed will affect the three-dimensionality of the sound and flatten it.

In general, the key to lossy compression is finding a balance between reducing size and preserving sound quality.


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Related Audio Attribute

Related Audio Attribute

Sample Rate
Sample Rate

channel, sample rate, sample bits, sample format, bit rate

Sample Rate
Sample Rate

 

The PCM obtained from audio sampling contains three elements: channel, sample rate, and sample rate.

channel
When people hear the sound, they can locate the sound source. By setting the sound source to different positions, a better listening experience can be created. If the position of the audio is adjusted with the image, a better audio-visual experience will be obtained. Effect. Common channels are:

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Two channels, stereo, the most common type, including left and right channels
2.1 channels, adding a bass channel on the basis of two channels
5.1 channels, including one front channel, one front left channel, one front right channel, one surround left channel, one surround right channel, and one bass channel, first used in early theaters
7.1 channel, on the basis of 5.1 channel, the surround left and right channels are divided into surround left and right channels and rear left and right channels, mainly used in BD and modern theaters
Next is a two-channel audio system.

 

 

Sampling rate
Audio sampling is the conversion of sound from an analog signal to a digital signal. The sample rate is the number of times the sound is collected per second and is also the number of samples per second of the resulting digital signal. When sampling sound, common sample rates are:

8,000 Hz – telephone sampling rate, sufficient for human speech
11,025 Hz – sample rate for AM radio
22,050 Hz and 24,000 Hz – sample rate for FM radio
32,000 Hz – sampling for miniDV digital camcorder, DAT (LP mode)
44,100 Hz – Audio CD, also commonly used in MPEG-1 audio (VCD, SVCD, MP3) Sample rate 47 250
Hz – Sampling frequency
48,000 Hz for commercial PCM recorders – for miniDV, digital TV, DVD, DAT, movies, and pro audio Sampling rate 50,000 Hz for 2,000 – 96,000 or 192,000 Hz digital sound
for commercial digital sound recorders
– DVD-Audio, some LPCM DVD soundtracks, BD-ROM (Blu-ray Disc) and HD-DVD (High Definition DVD) soundtracks The sample rate used by the audio track
2.8224 MHz: The sample rate used by Direct Stream Digital’s 1-bit sigma-delta modulation process.