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How AAC works

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How AAC works

AAC Music File Format

Like MP3, AAC is a lossy music storage format. As in the case of the MP3 format, AAC encoding algorithms cut the highest and lowest frequencies, and also actively use the characteristics of a person’s hearing to remove information about sounds that a person cannot easily distinguish when listening to music. . As a result of compression, AAC files do not sound identical to CD-quality files, but in general the algorithms compress the music efficiently enough that most people overlook the fact that it has been deleted. resulting sound information.

AAC Audio Format

Like MP3, the quality of an AAC file is measured by its bit rate. Common AAC bit rates include 128 kbps, 192 kbps, and 256 kbps.

Without going into technical details, here are the reasons why AAC files sound better than MP3s:

AAC encoding uses samples with a wider frequency coverage from 8 to 96 kHz; mp3 encoding uses samples with coverage from 16 to 48 kHz
Up to 48 channels can be encoded, while MP3 encodes 2 channels in MPEG-1 mode and up to 5.1 channels in MPEG-2 mode
Arbitrary bit rates and variable frame lengths are used

Higher algorithm efficiency and simpler filter banks (instead of hybrid MP3 encoding, AAC uses pure MDCT method)
Greater precision is provided when encoding AAC sound using smaller sample sizes, which are equal to 128 or 120 units, while 192 units are used for mp3 encoding. In this case, the smaller sample size allows you to code more precisely, since the original sound wave is an analog signal, and for a more accurate description, it needs to be measured as often as possible. Therefore, a smaller sample size is better because it allows you to more accurately describe the analog nature of a sound wave in digital form.

Sound frequencies above 16 kHz are processed more efficiently. Let me remind you that in mp3 format these frequencies are simply erased
More progressive algorithms are used in stereo binding mode. Let me remind you that stereo stitching allows you not to store both channels separately, as in CD-quality recording. The common signal for both channels is stored and only the difference between the channels is stored separately from each other.
Additional modules were added to improve compression efficiency: TNS, Inverse Prediction, PNS and others
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How AAC works with iTunes

Apple adopted AAC as its primary audio format. All songs stored in iTunes Store and all songs streamed or downloaded from Apple Music are encoded in AAC format. All AAC files in the Apple ecosystem are encoded at 256 kbps.

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What is the AAC format and what are the advantages over mp3?

Designated heir to MP3, it is the most widely used encoding format today. Compatible with YouTube, iPhone and Android, among others

AAC

More than twenty years of honorable career, which have allowed music to become truly “pop” and spread throughout the world, regardless of the playback device you use. This is the rather heavy legacy of MP3, a multimedia format created between the late 1980s and early 1990s by Italian engineer Leonardo Chiariglione. In its place we now find AAC, the audio file encoding standard developed by Bell Labs, Fraunhofer Institute, Dolby Labs, Sony, and Nokia at the beginning of the last century.

AAC

A lossy codec, AAC is considered a standard by both ISO (acronym for International Organization for Standardization) and IEC (acronym for International Electrotechnical Commission) and is an integral part of the MPEG-2 and MPEG-4 specifications. After a few years “in the shadow” of MP3 encoding, today AAC encoding is by far the most widespread and adopted: it is the standard or default audio format for YouTube, iPhone, iPod, iPad, Nintendo DSi, Nintendo 3DS. , iTunes, DivX Plus Web Player, PlayStation 3 and is compatible with PlayStation Vita, Wii, Sony Walkman MP3, Android and BlackBerry.

Differences from MP3 files

The reason for this success is explained by the numerous improvements that this standard presents compared to the one conceived by Chiariglione. First of all, the AAC can guarantee better audio playback quality with the same file size (and therefore bit rate). This is because AAC encoding has a greater variety of samples (8 to 96 kilohertz, as opposed to 16 to 48 kilohertz samples allowed by the MP3 format) and supports a greater number of channels of audio playback (up to 48 channels).

This is combined with the increased flexibility and flexibility of AAC encoding, which allows engineers to design and implement encoding and decoding algorithms according to their needs. This flexibility encourages real competition, leading to more efficient and effective algorithms. Translated into simple words, an audio file converted with an AAC encoder at the same bit rate will guarantee, as already mentioned, better playback quality than many other competitive lossy formats.

What is the AAC?

MP3 has practically become synonymous with online audio, as it is capable of transforming your music into small files, ideal for sharing. However, the fact of having a “reasonable” audio quality displeases many people, opening the market to other more robust formats, such as AAC (Advanced Audio Coding).

AAC (Advanced Audio Coding) Bluetooth Audio Codec

Unlike FLAC, AAC is a lossy audio compression scheme that focuses not on audiophiles, but on users who want high-quality music without sacrificing large disk space or even their portable music players to store them.

Seen by the market as a successor to MP3, this format has big names behind its development, such as Sony, AT&T, Nokia and Dolby Laboratories, and has even been standardized by renowned ISO and IEC institutes. Many of our devices already use AAC as standard, like PlayStation 3 and Portable, Nintendo Wii and DSi, Andoid devices, iPhones and iPod, being the standard format used even in iTunes.

AAC

To explain AAC’s superiority over MP3, let’s look at some points of comparison:

-AAC achieves a higher level of audio quality without increasing file size. This is measured in Kbps (Kilobits per second) and the higher this number, the more transparent the sound will be and the more space will be needed for the file. A song compressed in AAC at 96 Kbps has a clearer sound than an MP3 at 128 Kbps, which means more quality in a smaller size;
-A very important parameter to estimate the “purity” of a song is its sampling frequency, because the higher the margin, the more details are stored. While MP3 has a range of 16KHz to 48KHz, AAC ranges from 8KHz to 96KHz;
An MP3 audio file only supports 5.1 channels in MPEG-2, while AAC is capable of playing up to 48 different channels in MPEG-4;
-The above data only explains the preference of many users and companies to replace MP3, which has been standard since 1993. The only drawback seen by some manufacturers is the need to pay royalties to the Dolby Digital encoder (decoder) and AAC decoder. , but this is something that already happens with the MP3 format, so who knows with a little negotiation things will be resolved.

AAC audio formats

When we talk about the different audio formats that we have available for our work or entertainment, we usually hear that there is the MP3 format, Dolby type sound, and in some cases it has audio in the AAC format.

This last audio format is very characteristic of some movies found on DVD discs, which comes to be a technical specification that means Advanced Audio Coding, or translated into Spanish “advanced audio coding”, and which actually comes to be an extremely important resource for those editors who work in the video area.

Working with the AAC audio format represents having a better sound quality than many of the cases is distributed to different speakers, perfectly defined in terms of the position they should occupy in an appropriate environment; In addition, this AAC audio format tends to occupy a smaller space than an MP3 audio format would occupy, which in the design of a DVD disc comes to be known as Layer 3 type audio, which is widely used in the compilation of audio and video for the formation of a DVD movie. But the important thing is that this AAC format provides high-fidelity audio quality and that many times it is used for the well-known “no-home” formats.

It is there where the conveniences of using this AAC audio format are found, since by occupying 30% less space than an MP3 audio file, having better quality and fidelity in its sound, it is widely used not only by those film editors DVD, but also by iTunes as well as by many music discs they represent today.

AAC (Advanced Audio Coding) is a digital audio signal computer format based on a lossy compression algorithm, a process by which some of the audio data is removed in order to obtain the highest possible degree of compression, resulting in an output file that sounds as close to the original as possible.

features

AAC uses a variable bit rate VBR, an encoding method that adapts the number of bits used per second to encode audio data, depending on the complexity of the audio stream at any given time. AAC is an encoding algorithm Broadband audio that has superior performance than MP3, produces better quality on small files and requires less system resources to encode and decode. This codec is oriented to broadband uses and is based on the elimination of redundancies of the acoustic signal, as well as on compression by means of the modified discrete cosine transform (MDCT), very similar to that of MP3.

Advantage

Superior audio quality for the same bitrate (kbps) your Radio at 32kbps will sound like 128kbps in mp3. Stereo sound support from 16 kbps unlike MP3 that supports it from 40 kbps. Support on Blackberry, Iphone, Smartphone equipment. Members of the codec family aacPlus aacPlus v1 is the combination of AAC and SBR, as the high-efficiency standardization profile in MPEG-4 (HE AAC). aacPlus v2 builds on the strong success story of aacPlus v1 and adds value in all fields where increased compression efficiency of stereo signals is mission critical. aacPlus v2 is a true superset of aacPlus v1, aacPlus v1 is from AAC. With the addition of Parametric Stereo in MPEG, aacPlus v2 is the current state of the art low-bit-rate open standard audio codec. Not compatible with MPEG-1. Sample Rate: 96 KHz, 88.2 KHz, 48 KHz, 44.1 KHz, 24 KHz, 22.05 KHz, 16 KHz. Maximum quality between 320 and 448 kbps (5 channels) and between 128 and 192 (2 channels) Maximum supported bitrate: From 12 kbps (in HE-AACv2 profile) to 448 kbps (in AAC-LC profile)

Three options

Highest quality (resolution at 23.43 Hz and 2.6 ms) Non prediction Scalable sampling rates

Three types of profiles:

AAC-LC: 16 KBps to 448 KBps HE-AAC: 16 KBps to 128 KBps HE-AACv2: 12 KBps to 56 KBps (most efficient profile in audio quality)