On enabling techniques for personal audio content management

Lahti, Tommi; Helen, Marko; Vuorinen, Olli; Väyrynen, Eero; Partala, Juha; Peltola, Johannes; Mäkelä, Satu-Marja

doi:10.1145/1460096.1460116

“…Our audio classification is based on the Mel frequency cepstral coefficient (MFCC) feature-a spectral feature used in various areas of speech analysis and in audio classification, due to its good capability to model fast and low variations of speech signal [22]. As the previous experiences of the authors show [17,23], MFCC allows to distinguish between various audio classes with fairly similar accuracy, while classification accuracy in case of using temporal and spectral audio features (e.g. spectrum centroid, low energy ratio) is often more classdependent and the overall result is not guaranteed to be much better than with MFCC.…”

Section: Audio-based Event Detection and Audio Classificationmentioning

confidence: 99%

Semi-supervised context adaptation: case study of audience excitement recognition

Vildjiounaite

¹

,

Kyllönen

²

,

Mäkelä

³

et al. 2012

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To recognise just the same human reaction (for example, a strong excitement) in different contexts, customary behaviours in these contexts have to be taken into account; e.g. a happy sport audience may be cheering for long time, while a happy theatrical audience may produce only short bursts of laughter in order to not interrupt the performance. Tailoring recognition algorithms to contexts can be achieved by building either a context-specific or a generic system. The former is individually trained for each context to recognise sets of characteristic responses, whereas the latter-in contrast to the context-specific one-adapts to the context via significantly more lightweight modification of parameters. This paper follows the latter way and proposes a simple modification of a hidden Markov model (HMM) classifier that enables end users to adapt the generic system to a context or a personal perception of an annotator by labelling a fairly small number of data samples of each context. For better adaptability to the limited number of the user's annotations, the proposed semisupervised HMM classifier employs the maximum posterior marginal, rather than the more conventional maximum a posteriori decision rule. The proposed user-and contextadaptable semi-supervised HMM classifier was tested on recognising excitement of a show audience in three contexts (a concert hall, a circus, and a sport event), differing in how the excitement is expressed. In our experiments the proposed classifier recognised reactions of a non-neutral audience with 10% higher accuracy than the conventional HMM and support vector machine based classifiers.

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“…More complex audio features such as identifying who was speaking, speaker emotion, and voiced/unvoiced segments were plausible, and potentially useful, additions to TAFE. However, the required machine learning training and a priori knowledge of different conditions [56] may have made configuring TAFE correctly more difficult for Peter. In turn, SpEx may become inaccurate for Jack and Amy.…”

Section: Architecture Of Tafementioning

confidence: 99%

SpEx: A Tool for Visualising and Navigating Speech Audio

Abdulhamid¹

0

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<p>Audio is a ubiquitous form of information that is usually treated as a single, unbreakable, piece of content. Thus, audio interfaces remain simple, usually consisting of play, pause, forward, and rewind controls. Spoken audio can contain useful information across multiple topics and finding the information desired is usually time consuming. Most audio players simply do not reveal the content of the audio. By using the speech transcript and acoustic qualities of the audio, I have developed a tool, SpEx, which enabled search and navigation within spoken audio. SpEx displayed audio as discrete segments and revealed the topic content of each segment using mature Information Visualisation techniques. Audio segments were produced based on the acoustic and sentence properties of speech to identify topically and aurally distinct regions. A user study found that SpEx allowed users to find information in spoken audio quickly and reliably. By making spoken audio more accessible, people can gain access to a wider range of information.</p>

show abstract

“…More complex audio features such as identifying who was speaking, speaker emotion, and voiced/unvoiced segments were plausible, and potentially useful, additions to TAFE. However, the required machine learning training and a priori knowledge of different conditions [56] may have made configuring TAFE correctly more difficult for Peter. In turn, SpEx may become inaccurate for Jack and Amy.…”

Section: Architecture Of Tafementioning

confidence: 99%

SpEx: A Tool for Visualising and Navigating Speech Audio

Abdulhamid¹

0

View full text Add to dashboard Cite

<p>Audio is a ubiquitous form of information that is usually treated as a single, unbreakable, piece of content. Thus, audio interfaces remain simple, usually consisting of play, pause, forward, and rewind controls. Spoken audio can contain useful information across multiple topics and finding the information desired is usually time consuming. Most audio players simply do not reveal the content of the audio. By using the speech transcript and acoustic qualities of the audio, I have developed a tool, SpEx, which enabled search and navigation within spoken audio. SpEx displayed audio as discrete segments and revealed the topic content of each segment using mature Information Visualisation techniques. Audio segments were produced based on the acoustic and sentence properties of speech to identify topically and aurally distinct regions. A user study found that SpEx allowed users to find information in spoken audio quickly and reliably. By making spoken audio more accessible, people can gain access to a wider range of information.</p>

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On enabling techniques for personal audio content management

Cited by 4 publications

References 10 publications

Semi-supervised context adaptation: case study of audience excitement recognition

Semi-supervised context adaptation: case study of audience excitement recognition

SpEx: A Tool for Visualising and Navigating Speech Audio

SpEx: A Tool for Visualising and Navigating Speech Audio

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