Fact-checked by Grok 2 weeks ago

mp3PRO

mp3PRO is a proprietary audio compression codec that extends the standard MP3 format by integrating Spectral Band Replication (SBR) technology, enabling higher-fidelity sound at significantly lower bitrates while ensuring backwards compatibility with legacy MP3 decoders.^[1] Developed by Coding Technologies AB, a Swedish spin-off from the Fraunhofer Institute specializing in perceptual audio coding, the codec combines the core MP3 perceptual model with SBR to reconstruct high-frequency content from low-frequency data, achieving CD-like quality at bitrates as low as 64 kbps for stereo audio, compared to over 100 kbps required by traditional MP3.^[2]^[1] Licensing for mp3PRO was handled through Thomson Multimedia, with the technology publicly announced on June 14, 2001, as an upgrade to the aging MP3 standard amid rising competition from formats like Windows Media Audio and Ogg Vorbis.^[3]^[4] The SBR component, pioneered by Coding Technologies in the late 1990s, operates by transmitting a parametric description of high-frequency bands alongside the MP3 core stream, allowing decoders to synthesize missing spectral details without dedicating substantial bits to them.^[1] This dual-stream design ensures that standard MP3 players can decode the base layer for acceptable playback—though with reduced high-end clarity—while mp3PRO-compatible devices fully utilize the enhancement for broader frequency response up to 15-20 kHz.^[4] Early implementations included software encoders from Thomson and hardware support from partners like Texas Instruments, targeting portable players, streaming services, and digital radio applications such as Digital Radio Mondiale (DRM).^[5]^[1] Despite initial promise for efficient mobile audio—doubling storage capacity for equivalent quality—mp3PRO saw limited widespread adoption due to patent licensing complexities, the rapid rise of open alternatives like AAC, and the MP3 ecosystem's momentum.^[6]^[7] By the mid-2000s, support waned as devices shifted toward MPEG-4-based codecs; however, SBR's core innovation endured, forming the basis for High-Efficiency AAC (HE-AAC or aacPlus) in modern streaming and broadcasting standards.^[8] Coding Technologies, acquired by Dolby Laboratories in 2007, integrated SBR into broader perceptual coding tools, cementing its influence on efficient low-bitrate audio delivery today.^[8] As of 2025, mp3PRO remains unmaintained and largely obsolete for new development, though legacy files can still be encoded and played via specialized software.^[1]

History and Development

Origins and Creation

In the early 2000s, the MP3 format dominated digital audio distribution due to its widespread adoption for compressing music files while maintaining acceptable quality, but it faced challenges at low bitrates where high-frequency content was often poorly preserved, leading to audible artifacts.^[9] This limitation became particularly pressing amid emerging competition from more efficient codecs like AAC, which offered superior performance at similar bitrates and threatened MP3's market position in applications such as portable players and early internet streaming.^[10] To address these shortcomings and extend MP3's viability, mp3PRO was conceived as an enhancement aimed at delivering near-CD-quality audio at roughly half the bitrate of standard MP3, such as 64 kbit/s compared to 128 kbit/s, thereby reducing file sizes and bandwidth requirements for mobile devices and online distribution.^[1] The core motivation was to enable more music storage on limited-capacity devices and facilitate smoother streaming over constrained networks without sacrificing perceptual quality, aligning with the growing demand for portable and web-based audio consumption.^[1] The conceptual foundations of mp3PRO trace back to late-1990s advancements in perceptual audio coding, where researchers explored methods for efficiently representing high-frequency components using minimal additional data derived from lower frequencies, avoiding the need for full-spectrum encoding at low bitrates.^[10] This approach built on the understanding of human auditory perception, prioritizing bandwidth extension techniques to reconstruct audio spectra more effectively than traditional transform-based methods alone.^[10] A key innovation in this regard was Spectral Band Replication (SBR), which served as the primary mechanism to achieve these efficiency gains when integrated with MP3.^[1]

Key Developers and Timeline

The primary developers of mp3PRO were Coding Technologies AB, a Swedish firm founded in 1997 that specialized in audio compression innovations, and Thomson Multimedia, a French company that held key MP3 patents and handled licensing.^[11]^[2] Coding Technologies developed the core Spectral Band Replication (SBR) enhancement in the late 1990s, while Thomson integrated it with the existing MP3 framework to create a backward-compatible extension.^[12] In 2007, Coding Technologies was acquired by Dolby Laboratories for $250 million, bringing its technologies under Dolby's portfolio.^[13] The Fraunhofer Society, through its Fraunhofer Institute for Integrated Circuits (IIS), provided the foundational heritage via the original MP3 development in the early 1990s, but mp3PRO itself was a proprietary collaboration between Thomson and Coding Technologies without formal ISO standardization or open participation.^[11]^[14] This joint effort emphasized licensed extensions to the MP3 patent pool rather than public codec specifications. Development timeline milestones began with conceptual work on SBR by Coding Technologies in the late 1990s, building on perceptual audio coding research.^[12] Official announcement of the mp3PRO format came from Thomson Multimedia in January 2001, highlighting its potential for improved efficiency over standard MP3.^[6] The public launch occurred on June 14, 2001, during a Thomson Multimedia press event in Paris, where demonstration software and hardware were showcased.^[14]^[15] mp3PRO's proprietary nature was underscored by initial patent filings from Thomson and Coding Technologies around the turn of the millennium, covering SBR integration and ancillary data handling in MP3 streams, with no publicly available documentation or codec specification released to enable independent implementations.^[16]^[17] This closed approach relied on licensing agreements through Thomson for adoption.^[18]

Technical Overview

Core Components

mp3PRO employs a hybrid design that integrates the standard MP3 codec as the core for encoding low-frequency audio content, typically handling the 0-11 kHz range, with an additional parametric data stream providing guidance for high-frequency reconstruction.^[19]^[20] This architecture leverages the established MP3 framework for the low band while augmenting it with Spectral Band Replication (SBR) elements to enhance overall efficiency at low bitrates.^[1] In the encoding process, the input audio signal is divided into a low-frequency band, which is fully encoded using conventional MP3 techniques, and a high-frequency band represented parametrically through SBR data that captures essential characteristics rather than raw samples.^[21] Bitrate allocation prioritizes the core MP3 stream, for example, assigning approximately 60 kbit/s to the low band and 2-4 kbit/s to the SBR parametric stream, resulting in a total of around 64 kbit/s for stereo audio.^[20] This division allows mp3PRO to maintain perceptual quality in resource-constrained environments. The file format retains the .mp3 extension, embedding SBR metadata within the MP3 ancillary data field to ensure seamless integration.^[19] During decoding, players supporting SBR reconstruct the full audio bandwidth, while legacy MP3 decoders ignore the ancillary data and output only the core low-band audio, providing backward compatibility.^[1] mp3PRO supports stereo bitrates typically ranging from 48 to 80 kbit/s, with optimization focused on low-bitrate applications where standard MP3 performance degrades.^[21]^[20]

Spectral Band Replication (SBR)

Spectral Band Replication (SBR) is a parametric audio coding technique that enhances the efficiency of low-bitrate codecs by reconstructing high-frequency content at the decoder side, rather than encoding it directly. In mp3PRO, the core MP3 encoder fully codes the low-frequency band, typically up to around 11 kHz, while SBR handles the high-frequency band above this threshold by transmitting compact parametric data, such as spectral envelopes and noise floors, instead of raw samples. This approach leverages the correlation between low and high frequencies in audio signals, using the low band as a carrier for generating the high band during decoding.^[1]^[21] The reconstruction process in the SBR decoder involves transposing harmonics from the low-frequency band and modulating them according to the received parameters to synthesize the high-frequency content. Specifically, the decoder copies relevant low-band spectral components, applies time- and frequency-domain adjustments via an envelope adjuster, and incorporates noise substitution for regions where harmonic structure is weak. No direct samples of the high frequencies are stored or transmitted, which enables significant bitrate savings—approximately 30-50% compared to full-bandwidth encoding—while maintaining perceptual quality at rates as low as 64 kbps for stereo audio. This parametric method integrates seamlessly with the MP3 core in mp3PRO to extend the effective bandwidth without altering the base codec's operation.^[1]^[22]^[21] Key technical parameters in SBR include transient flags for detecting and shaping time-domain events, noise substitution flags to add stochastic elements in non-tonal high-frequency regions, and inverse filtering to adjust the spectral tilt based on encoder analysis. These parameters are derived from side-chain information extracted by the encoder using a quadrature mirror filter (QMF) bank, operating in a dual-rate system where the core codec runs at half the sampling rate. SBR technology originated from work by Coding Technologies in the late 1990s, first integrated with MP3 in mp3PRO, and later used to enhance AAC in aacPlus, forming the basis for the standardized High-Efficiency AAC (HE-AAC).^[1]^[22]^[21] Despite its efficiency, SBR has limitations, being most effective for frequencies up to 16-20 kHz, beyond which reconstruction accuracy diminishes due to the core codec's bandwidth constraints. It is also less precise for complex transients or signals with poor low-to-high frequency correlation, where additional modules like noise addition may not fully capture the original perceptual details compared to direct waveform encoding.^[1]^[21]

Features and Advantages

Audio Quality Improvements

mp3PRO enhances audio fidelity primarily through the integration of Spectral Band Replication (SBR), which reconstructs high-frequency content from lower-frequency bands, allowing for superior perceptual quality at reduced bitrates compared to standard MP3 encoding. At 64 kbit/s stereo, mp3PRO delivers near-transparent audio quality, preserving natural timbre, stereo imaging, and dynamic range in a way that aligns closely with the original signal, whereas traditional MP3 at the same bitrate often suffers from noticeable dullness and spatial collapse.^[23]^[21] This improvement stems from SBR's ability to mitigate common MP3 artifacts, such as pre-echo in transient sounds and attenuated high-frequency response, by parametrically extending the spectrum without dedicating substantial bits to upper bands. As a result, mp3PRO maintains a fuller treble extension and reduced quantization noise, leading to a more engaging listening experience for complex material like orchestral pieces or rock tracks, where high-frequency details and transients are critical.^[21]^[24] Independent listening tests conducted by the European Broadcasting Union (EBU) in 2002 and 2003, using the MUSHRA methodology, demonstrated these gains quantitatively: at 64 kbit/s stereo, mp3PRO achieved mean scores of approximately 80-90 (on a 0-100 scale, where 100 is imperceptible degradation), outperforming standard MP3 by 20-30 points (scoring around 50-60) across diverse music genres including classical and rock. These evaluations, involving trained listeners in controlled environments, highlighted consistent preferences for mp3PRO's clarity and presence, with scores indicating "excellent" quality versus MP3's "fair to poor" rating at equivalent bitrates.^[24]^[22] Such advancements made mp3PRO particularly suited for bandwidth-constrained applications, like early mobile devices and portable players, where it aimed to provide a CD-like auditory experience despite limited storage or transmission capacity, enabling richer sound on devices with modest resources.^[23]^[21]

File Size Reduction

mp3PRO achieves compression ratios that reduce file sizes by approximately 50% compared to standard MP3 encodings while preserving equivalent perceptual audio quality.^[6] This efficiency stems from the integration of Spectral Band Replication (SBR), which allows the core MP3 layer to operate at roughly half the bitrate, with SBR adding only a minimal overhead of a few kilobits per second to reconstruct high-frequency content.^[1] For instance, a typical 4-minute song encoded at 128 kbit/s using standard MP3 requires about 3.8 MB, but the same song in mp3PRO at 64 kbit/s occupies roughly 1.9 MB without introducing audible artifacts.^[2] This bitrate halving directly translates to doubled storage capacity on portable devices; a 32 MB MP3 player holds less than 30 minutes of music at 128 kbit/s, but extends to about 60 minutes with mp3PRO at 64 kbit/s.^[6] In streaming applications, mp3PRO supports mono radio-quality audio at 64 kbit/s, significantly lowering bandwidth requirements over traditional MP3.^[1] The SBR overhead constitutes only a small fraction—typically 5-10% of the total bitrate—enabling the core MP3 encoder to focus on low- and mid-frequency bands at reduced rates while SBR efficiently handles the perceptual extension.^[1] For standard 44.1 kHz, 16-bit PCM input from CD audio, mp3PRO encoding yields file sizes about half those of MP3 at the same subjective quality level, such as 64 kbit/s mp3PRO equating to over 100 kbit/s MP3.^[25]

Compatibility and Implementation

Backward Compatibility with MP3

mp3PRO was designed to ensure seamless integration with existing MP3 infrastructure, utilizing the standard .mp3 file extension and adhering to the conventional MP3 frame header structure. This allows mp3PRO-encoded files to be recognized and processed by legacy MP3 decoders without modification. Non-SBR-aware decoders treat the embedded high-band data as ignorable ancillary information, decoding only the core low-frequency MP3 stream, which covers frequencies up to approximately 12 kHz.^[26]^[17]^[19] The result is graceful degradation rather than failure, as standard MP3 players can reproduce the audio without crashes or artifacts, though the absence of spectral band replication (SBR) leads to the loss of high-frequency content above 12 kHz. This manifests as a perceptually "dull" sound, particularly noticeable in elements like cymbals or vocals, but the overall playback remains functional and retains much of the midrange and bass detail from the core layer. Full perceptual quality, including reconstructed highs, is achieved only with SBR-enabled decoders that process the complete bitstream.^[20]^[1] Technically, the SBR parametric data stream is embedded within the ancillary data fields of standard MP3 frames, leveraging the reserved space in the MPEG Layer III bitstream for extensions without disrupting core compatibility. While the core MP3 encoding complies with ISO/IEC 11172-3 and ISO/IEC 13818-3 standards, the SBR component draws from parametric coding principles in MPEG-4 Audio (ISO/IEC 14496-3) but remains a proprietary implementation by Coding Technologies, not a fully standardized ISO extension.^[17]^[23] Early demonstrations in 2001 highlighted this compatibility in action, with mp3PRO files successfully playing on legacy MP3 hardware like portable players from the era, though listeners noted evident treble attenuation at low bitrates such as 64 kbps, underscoring the reliance on SBR for balanced frequency response.^[2]^[14]

Software and Hardware Support

mp3PRO encoding was primarily supported through dedicated Windows-based software during its active period. The Thomson Demo mp3PRO Player, released in 2001, was a Windows-only application that allowed single-file conversion from WAV to mp3PRO format at 44.1 kHz/16-bit sampling, with the encoder limited to 64 kbps output.^[27] This tool served as an early demonstration for the format's capabilities. Integration into popular applications expanded accessibility; MusicMatch Jukebox version 7.5 included native mp3PRO encoding support for ripping and converting audio files.^[28] Similarly, Nero Burning ROM 5.5 featured an mp3PRO encoder plugin, enabling users to create compatible files during CD ripping and burning workflows.^[29] Decoding support focused on media players with plugin architectures. The THOMSON mp3PRO Decoder Plugin enabled playback of mp3PRO files in Winamp versions 2 and 5, supporting all bitrates, variable bitrate (VBR), ID3v2 tags, and streaming.^[30] RealPlayer also incorporated mp3PRO decoding, allowing seamless playback alongside standard MP3, RealAudio, and WMA formats as part of its multi-format compatibility.^[6] On Linux, support was limited to custom patches and forks of open-source decoders like mpg123, which required manual modifications for mp3PRO handling due to the lack of official integration.^[31] Hardware adoption centered on early portable and embedded devices from 2002 to 2004. Thomson's RCA Lyra series, including models like the RD2800 Personal Jukebox with a 10GB hard drive, was mp3PRO-ready, capable of storing and playing hundreds of hours of enhanced audio while maintaining backward compatibility for standard MP3 files.^[18] Development resources for mp3PRO were restricted to proprietary tools. Coding Technologies provided software development kits (SDKs) to original equipment manufacturers (OEMs) for integrating encoding and decoding into custom hardware and software, emphasizing closed-source implementations. No official open-source encoders or decoders were released, limiting broader community contributions.^[32]

Adoption and Legacy

Commercial Use and Products

mp3PRO was commercially introduced in 2001 through Thomson Multimedia's RCA Lyra Personal Jukebox series, marking the first portable devices optimized for the format.^[33] The Lyra Jukebox, featuring a 10 GB hard drive, supported mp3PRO encoding and playback, allowing users to store up to 300 hours of audio—effectively doubling capacity compared to standard MP3 at equivalent quality levels due to the format's improved compression efficiency.^[34] These players were bundled with demonstration software from partners like MusicMatch, enabling consumers to encode and test mp3PRO files directly.^[18] Key partnerships facilitated broader integration into consumer electronics. Texas Instruments became the first hardware licensee in September 2001, incorporating mp3PRO support into its digital signal processors for internet audio devices and portable players, with upgrades available via software for existing hardware.^[35] Philips also licensed the technology, premiering mp3PRO decoding in a range of consumer products demonstrated at the 2002 CES, including streaming services like Radio Free Virgin.^[18] By early 2002, over 130 companies had licensed mp3PRO for encoding, playback, and digital rights management applications, targeting embedded use in portable media players and home entertainment systems to extend the lifecycle of the MP3 ecosystem.^[34] The format received prominent exposure at major trade shows from 2001 to 2003. Announced on January 12, 2001, during the CES in Las Vegas, mp3PRO was showcased as a seamless upgrade for existing MP3 devices, with Thomson highlighting its backward compatibility and file size reductions that doubled the storage capacity on players like the Lyra.^[6] At the IFA in Berlin later that year, Thomson promoted the Lyra Personal Jukebox as a flagship mp3PRO product, emphasizing its role in high-capacity portable audio amid growing demand for digital music storage.^[36] These efforts, combined with licensing initiatives, positioned mp3PRO for niche adoption in early digital audio markets, though it remained confined to specialized consumer electronics rather than achieving widespread dominance.^[2]

Decline and Obsolescence

The decline of mp3PRO began in the early 2000s amid rising competition from open-standard alternatives, particularly Advanced Audio Coding (AAC) and its high-efficiency variant, High-Efficiency AAC (HE-AAC), which incorporated Spectral Band Replication (SBR) technology similar to that used in mp3PRO. In April 2003, Apple launched the iTunes Music Store, adopting AAC as its primary format for digital music downloads, which quickly became the de facto standard for portable players and streaming ecosystems due to its superior compression efficiency and broad industry support.^[37] HE-AAC, standardized by MPEG in 2003 as part of the MPEG-4 Audio amendments, further outpaced mp3PRO by integrating SBR with additional tools like parametric stereo, enabling better stereo imaging and overall efficiency at low bitrates without the compatibility drawbacks of proprietary extensions.^[38] mp3PRO's proprietary nature severely limited its adoption, as it lacked formal standardization by MPEG—unlike the original MP3 (MPEG-1 Layer III)—preventing widespread licensing and integration into open ecosystems. Developed jointly by Coding Technologies, Fraunhofer IIS, and Thomson Multimedia, the format required specific proprietary decoders for full SBR functionality, leading to fragmented support and reluctance from content creators and device manufacturers wary of licensing fees and interoperability issues.^[39] Following Coding Technologies' acquisition by Dolby Laboratories in 2007 for $250 million, mp3PRO development ceased, with no further updates or maintenance provided, rendering it effectively unmaintained by the mid-2000s.^[13] Technically, mp3PRO's SBR implementation proved less efficient than the evolved version in HE-AAC, particularly lacking parametric stereo capabilities that enhanced spatial audio reconstruction and reduced bitrate needs for stereo content, which deterred adoption in professional and consumer applications. Compatibility challenges exacerbated this, as non-mp3PRO MP3 players ignored the SBR data, resulting in degraded high-frequency reproduction and discouraging widespread encoding of content in the format.^[40] Today, mp3PRO files remain playable on legacy systems using archived proprietary software like the official Coding Technologies encoder or plugins for players such as XMMS, but they are exceedingly rare in circulation, with no new development or hardware support since around 2010. As a historical footnote in audio codec evolution, mp3PRO influenced subsequent standards like HE-AAC by demonstrating SBR's potential, though its proprietary constraints confined it to niche use in early 2000s products before obsolescence.^[39]

References

[1]
[PDF] SBR explained: White paper
Conventional mp3 players can still render a useful output from an mp3PRO bitstream and mp3PRO players are of course fully capable of playing legacy mp3 streams.
[2]
MP3 Goes Pro | MIT Technology Review
Jun 7, 2001 · MP3Pro was developed by Coding Technologies, a company headquarted in Stockholm, and is being licensed by Thomson Multimedia. The ...
[3]
Tech Brief:MP3 UPGRADE - The New York Times
Jun 15, 2001 · Thomson Multimedia and the Fraunhofer Institute, which jointly created the MP3 digital music format, released an updated version called MP3Pro ...
[4]
New high-quality MP3 format debuts - CNET
MP3Pro uses two separate streams of data to improve audio quality, only one of which can be detected by older players. The release comes as the old MP3 format ...
[5]
Texas Instruments is First Hardware Company to License New ...
... Thomson multimedia today announced that TI will be the first hardware company to license Thomson's new mp3PRO digital audio format. Using TI's industry ...
[6]
MP3PRO offers better sound in less space - January 12, 2001 - CNN
Jan 12, 2001 · Thomson Multimedia has announced an improved MP3 codec called MP3pro that purports to double performance--storing more music in less space, in ...<|control11|><|separator|>
[7]
Apple's music: Microsoft's sour note? - CNET
Apr 30, 2003 · Also, it is being challenged by newer technology such as MP3Pro, Windows Media Audio and Ogg Vorbis that promise substantial improvements.
[8]
Behind the scenes: Dolby's acquisition of Coding Technologies - BDTI
Dec 19, 2007 · SBR has also been applied to AAC (widely known as the compression technology in the iPod) to form aacPlus (or HE-AAC, “high-efficiency AAC ...
[9]
The History of audio files - From analog to MP3 and beyond
Sep 29, 2023 · By 2000, MP3 was the dominant format for digital music. MP3 files are typically 10-12 times smaller than WAV files of the same length. This ...
[10]
[PDF] BANDWIDTH EXTENSION OF AUDIO SIGNALS BY SPECTRAL ...
Nov 15, 2002 · Spectral Band Replication (SBR) [1] is a bandwidth extension method originally invented and developed in Sweden by Coding. Technologies (CT).Missing: origins | Show results with:origins
[11]
More music for your memory | ZDNET
Jan 10, 2001 · MP3Pro is being developed by Coding Technologies, a spinoff of the Fraunhofer Institute for Integrated Circuits, which shares patent rights to ...
[12]
New tech promises more music using less memory - CNET
Jan 10, 2001 · MP3Pro is being developed by Coding Technologies, a spinoff of the Fraunhofer Institute for Integrated Circuits, which shares patent rights to ...
[13]
Dolby pays quarter billion dollars for Coding Technologies - EE Times
Dolby Laboratories has acquired Stockholm-based Coding Technologies, a developer of audio compression technologies for mobile phones, digital audio ...
[14]
Thomson Unveils MP3 Upgrade, MP3Pro - Streaming Media
one part contains all the information found in regular MP3 ...
[15]
'Son of MP3' to launch today - The Register
Jun 14, 2001 · 'Son of MP3' to launch today. MP3 Pro to be made public. icon Tony Smith. Thu 14 Jun 2001 // 15:27 UTC. The brains behind the controversial MP3 ...
[16]
https://patents.google.com/patent/US7334176B2/en
[17]
Determination of the presence of ancillary data in an audio bitstream
THOMSON multimedia and Coding Technologies have recently introduced the 'mp3PRO' format that is an extension of the mp3 format. The additional mp3PRO data ...
[18]
Thomson multimedia: mp3PRO family grows
The new mp3PRO codec combines more efficient compression and a higher-fidelity "CD quality" music experience to give users better sounding, smaller files that ...
[19]
Mobile audio codecs part 2 - EE Times
The MP3 PRO audio format has two components, the MP3 part for the low frequencies and the SBR or “PRO” part for the high frequencies. The low frequency band ...
[20]
Mp3Pro / Spectral Band Replication (SBR) - MP3-Tech.org
Mp3Pro is the name of the combination of two things: Mp3, and an audio coding enhancement tool from Coding Technologies named Spectral Band Replication (SBR).Missing: codec | Show results with:codec
[21]
[PDF] Enhancing Perceptual Audio Coding through Spectral Band ...
Spectral Band Replication (SBR) improves audio coding by reconstructing high frequencies, taking the burden off the encoder, and is used in a dual-rate system.Missing: origins | Show results with:origins
[22]
[PDF] CT-aacPlus - a state-of-the-art audio coding scheme - EBU tech
The combination of MP3 and SBR has been named "MP3Pro" and was released by Coding Technologies and its licensing partner, Thomson Multimedia, in June 2001.
[23]
Codec designs fine-tuned with spectral band replication - EE Times
Jun 24, 2002 · The SBR component of an mp3PRO or CT-aacPlus decoder contains an analysis and a synthesis QMF filter bank–the high frequency reconstruction is ...
[24]
[PDF] EBU subjective listening tests on - low-bitrate audio codecs
Jun 2, 2003 · mp3PRO showed a clear lead of about 20 points (which corresponds to one quality category) over the remaining codecs. All the other codecs ...Missing: preference | Show results with:preference
[25]
MP3Pro codec released, for Mac later this summer - Macworld
Jun 14, 2001 · Development of the MP3Pro codec was an international effort. The technology was created by Coding Technologies, a Swedish firm specializing in ...
[26]
https://www.cnn.com/2001/TECH/industry/06/15/mp3.pro.idg/index.html
[27]
THOMSON mp3PRO Audio Player Download - Free demo player ...
Sep 10, 2025 · Features: Free demo player supporting all bit rates; encoder restricted to 64 kbps mp3PRO bit streams. For Windows 9x, NT, ME, 2000 and XP.
[28]
Problems with Musicmatch Jukebox - dBpoweramp Forum
Oct 14, 2005 · I have MusicMatch Jukebox 7.5 and I have used it to burn without a problem. ... I converted most of my mp3 files to mp3pro with dbpoweramp ...
[29]
News archives 2004-2003-2002-2001 - Articles - SoundExpert
q46 - MPEG-4 AAC for new QuikTime. 10 Feb 2003. New codecs have been added to the system: m3v - mp3PRO (VBR) Encoder Plugin for Ahead Nero Burning Rom
[30]
THOMSON mp3PRO Decoder Plugin 1.3 for Winamp
The mp3PRO format is superior to the plain mp3 format and it offers higher sound quality over a wide range of bit rates. This format is backwards compatible ...
[31]
Free LEGAL mp3 encoders? mp3Pro? - HydrogenAudio
I was wondering, how many free programs are there that offer legal free full mp3 encoding? MusicMatch, obviously. And RealPlayer / RealJukeBox / RealOne ...
[32]
Siemens SL45i - Full phone specifications - GSMArena.com
Siemens SL45i phone. Announced 2001. Features 1.5″ display, 540 mAh battery ... Nothing Phone (3) 5G. 256GB 12GB RAM $ 799.00. $ 678.99 · Show all deals. Siemens ...
[33]
Free Cddb/mp3pro Sdk And Licenses From Gracenote
... software development kit to non-commercial developers of audio player software including a royalty-free license for mp3PRO decoding and MP3 encoding.
[34]
https://www.cdmediaworld.com/hardware/cdrom/news/0109/mp3pro_support.shtml
[35]
mp3PRO Wins Software Support for Encoding ... - CD Media World
The first Thomson multimedia portable device ready to take full advantage of mp3PRO will be the new LYRA Personal Jukebox, a portable mp3 player with a 10GB ...
[36]
Texas Instruments licenses new MP3Pro - CNET
Sep 19, 2001 · Texas Instruments said it is licensing Thomson Multimedia's MP3Pro format, which compresses standard audio tracks without significantly ...
[37]
What's new | Technology | The Guardian
... IFA Consumer Electronics show in Berlin last week ... MP3PRO hard disk-based jukebox from Thomson ... 2001. More from News. More from News ...
[38]
Apple Launches the iTunes Music Store
Apr 28, 2003 · The AAC audio format, developed by Dolby, was also adopted to provide the audio encoding for the industry-standard MPEG-4 video format. The ...
[39]
An Overview of the Coding Standard MPEG-4 Audio Amendments 1 ...
In 2003 and 2004, the ISO/IEC MPEG standardization committee added two amendments to their MPEG-4 audio coding standard. These amendments concern parametric ...
[40]
Coding Technologies MP3pro player/encoder - RareWares
MP3pro was a nice new addition to the MP3 format. It allows 64kbps files to have similar quality to files in the 96kbps-128kbps range.Missing: codec | Show results with:codec
[41]
[PDF] MPEG-4 HE-AAc v2 - audio coding for today's media world - EBU tech
SBR is a bandwidth extension technique that enables audio codecs to deliver the same listening experience at approximately half the bitrate that the core codec ...