A psychoacoustic "NofM"-type speech coding strategy for cochlear implants

W. Nogueira; A. Büchner; T. Lenarz; B. Edler

doi:10.1155/ASP.2005.3044

A psychoacoustic "NofM"-type speech coding strategy for cochlear implants

W. Nogueira, A. Büchner, T. Lenarz, B. Edler

Departament de Microelectrònica i Sistemes Electrònics

Producció científica: Contribució a revista › Article › Recerca › Avaluat per experts

108 Cites (Scopus)

Resum

We describe a new signal processing technique for cochlear implants using a psychoacoustic-masking model. The technique is based on the principle of a so-called "NofM" strategy. These strategies stimulate fewer channels () per cycle than active electrodes (NofM;). In "NofM" strategies such as ACE or SPEAK, only the channels with higher amplitudes are stimulated. The new strategy is based on the ACE strategy but uses a psychoacoustic-masking model in order to determine the essential components of any given audio signal. This new strategy was tested on device users in an acute study, with either 4 or 8 channels stimulated per cycle. For the first condition (4 channels), the mean improvement over the ACE strategy was. For the second condition (8 channels), no significant difference was found between the two strategies.

Idioma original	Anglès
Número d’article	101672
Pàgines (de-a)	3044-3059
Nombre de pàgines	16
Revista	Eurasip Journal on Applied Signal Processing
Volum	18
DOIs	https://doi.org/10.1155/ASP.2005.3044
Estat de la publicació	Publicada - 10 de nov. 2005

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10.1155/ASP.2005.3044Llicència: Creative Commons Reconeixement

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Com citar-ho

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title = "A psychoacoustic {"}NofM{"}-type speech coding strategy for cochlear implants",

abstract = "We describe a new signal processing technique for cochlear implants using a psychoacoustic-masking model. The technique is based on the principle of a so-called {"}NofM{"} strategy. These strategies stimulate fewer channels () per cycle than active electrodes (NofM;). In {"}NofM{"} strategies such as ACE or SPEAK, only the channels with higher amplitudes are stimulated. The new strategy is based on the ACE strategy but uses a psychoacoustic-masking model in order to determine the essential components of any given audio signal. This new strategy was tested on device users in an acute study, with either 4 or 8 channels stimulated per cycle. For the first condition (4 channels), the mean improvement over the ACE strategy was. For the second condition (8 channels), no significant difference was found between the two strategies.",

keywords = "Cochlear implant, NofM, ACE, Speech coding, Psychoacoustic model, Masking",

author = "W. Nogueira and A. B{\"u}chner and T. Lenarz and B. Edler",

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AU - Büchner, A.

AU - Lenarz, T.

AU - Edler, B.

PY - 2005/11/10

Y1 - 2005/11/10

N2 - We describe a new signal processing technique for cochlear implants using a psychoacoustic-masking model. The technique is based on the principle of a so-called "NofM" strategy. These strategies stimulate fewer channels () per cycle than active electrodes (NofM;). In "NofM" strategies such as ACE or SPEAK, only the channels with higher amplitudes are stimulated. The new strategy is based on the ACE strategy but uses a psychoacoustic-masking model in order to determine the essential components of any given audio signal. This new strategy was tested on device users in an acute study, with either 4 or 8 channels stimulated per cycle. For the first condition (4 channels), the mean improvement over the ACE strategy was. For the second condition (8 channels), no significant difference was found between the two strategies.

AB - We describe a new signal processing technique for cochlear implants using a psychoacoustic-masking model. The technique is based on the principle of a so-called "NofM" strategy. These strategies stimulate fewer channels () per cycle than active electrodes (NofM;). In "NofM" strategies such as ACE or SPEAK, only the channels with higher amplitudes are stimulated. The new strategy is based on the ACE strategy but uses a psychoacoustic-masking model in order to determine the essential components of any given audio signal. This new strategy was tested on device users in an acute study, with either 4 or 8 channels stimulated per cycle. For the first condition (4 channels), the mean improvement over the ACE strategy was. For the second condition (8 channels), no significant difference was found between the two strategies.

KW - Cochlear implant

KW - NofM

KW - ACE

KW - Speech coding

KW - Psychoacoustic model

KW - Masking

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DO - 10.1155/ASP.2005.3044

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