Preliminary Study of Data Mining analysis of High Speed Kymography and Voice Data

Tsutsumi, Monike; Pimienta, Regina Aparecida; Cândido de Olivera, Victor Hugo; Isotani, Seiji; Botazzo Delbem, Alexandre Cláudio; Hachiya, Adriana; Hiroshi Tsuji , Domingos; Dajer, María Eugenia

doi:10.33881/1657-2513.art.18202

Titulo:

Preliminary Study of Data Mining analysis of High Speed Kymography and Voice Data
.

Sumario:

The use of high-speed laryngeal images technology contributes increasingly to promote greater objectivity in the characterization of laryngeal physiology, as well as, in the diagnosis and monitoring of laryngeal diseases. Vocal fold paralysis is still an unknown incidence, both in Brazil and in the rest of the World, its occurrence has become more frequent in medical and speech-pathologist clinics. Data mining is the process of analyzing hidden patterns of data according to different perspectives for categorization into useful information. In other words, Data Mining is able to identify patterns between information and grouping them according to some given criteria. Objective: To analyze high-speed kymographic images and voice signals with... Ver más

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Areté

ISSN:

1657-2513

EISSN:

2463-2252

Autores:

Tsutsumi, Monike

Pimienta, Regina Aparecida

Cândido de Olivera, Victor Hugo

Isotani, Seiji

Botazzo Delbem, Alexandre Cláudio

Hachiya, Adriana

Hiroshi Tsuji , Domingos

Dajer, María Eugenia

Editor:

CORPORACIÓN UNIVERSITARIA IBEROAMERICANA

DOI:

10.33881/1657-2513.art.18202

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2019-12-31

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Areté - 2018

Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial-CompartirIgual 4.0.

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http://purl.org/coar/access_right/c_abf2

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spelling	Preliminary Study of Data Mining analysis of High Speed Kymography and Voice Data Estudio Preliminar del Análisis de Minería de Datos de Kymografía de Alta Velocidad y datos de voz. The use of high-speed laryngeal images technology contributes increasingly to promote greater objectivity in the characterization of laryngeal physiology, as well as, in the diagnosis and monitoring of laryngeal diseases. Vocal fold paralysis is still an unknown incidence, both in Brazil and in the rest of the World, its occurrence has become more frequent in medical and speech-pathologist clinics. Data mining is the process of analyzing hidden patterns of data according to different perspectives for categorization into useful information. In other words, Data Mining is able to identify patterns between information and grouping them according to some given criteria. Objective: To analyze high-speed kymographic images and voice signals with and without unilateral vocal fold paralysis using the data mining computerized system DAMICORE. Methodology: High-speed kymography and acoustic voice signals of subjects with and without unilateral vocal fold paralysis were analyzed by a computerized data mining tool, the DAMICORE system. Results: Data mining analysis for High-speed kymography of healthy individuals gather the groups by sex, while images from subjects with unilateral vocal fold paralysis were gathered by contrast of colors and by light incidence in the images. For voice signals, the technique considered the presence of external noise as a criterion for gathering groups. Conclusion: We concluded that DAMICORE it is a promising tool for kymographic images and voice signal data mining analysis. This tool shown high sensibility to noise in acoustical signals. Consequently, future research should consider this characteristic. El uso de la tecnología en el área de la salud contribuye al diagnóstico y tratamiento de casi cualquier patología laríngea, incluida la parálisis unilateral de las cuerdas vocales. La videolaringoscopia de alta velocidad es una técnica que captura el verdadero comportamiento vibratorio intraciclo de las cuerdas vocales. Las cámaras de alta velocidad pueden grabar velocidades de cuadros de hasta 4000 cuadros por segundo y generar una gran cantidad de datos laríngeos. Por otro lado, la minería de datos es un proceso de exploración de datos capaz de identificar patrones entre la información y agruparlos de acuerdo con algunos criterios dados. Objetivo: identificar, a través de un sistema de minería de datos computarizado, los criterios para el análisis de imágenes laríngeas y señales acústicas de voces con y sin parálisis unilateral de cuerdas vocales. Metodología: las imágenes laríngeas transformadas en quimiografía de alta velocidad y señales acústicas de voz de sujetos con y sin parálisis unilateral de cuerdas vocales capturadas por videolaringoscopia de alta velocidad fueron analizadas por un sistema de minería de datos computarizado, el SISTEMA DAMICORE. Resultados: para la quimiografía de alta velocidad de individuos sanos, el sistema de minería de datos encontró el sexo como un criterio de recopilación, mientras que las imágenes de los sujetos con parálisis unilateral de cuerdas vocales se obtuvieron mediante un contraste de colores, ya sea por la mucosa laríngea o por incidencia de luz en las imágenes . Con respecto a las señales acústicas de voz, la técnica consideró la presencia de ruido externo como un criterio para reunir a ambos grupos. Conclusión: Llegamos a la conclusión de que DAMICORE era una herramienta eficaz para la extracción de datos laríngeos y vocales, y era más sensible a las imágenes grupales que a las señales acústicas de voz. &nbsp; Tsutsumi, Monike Pimienta, Regina Aparecida Cândido de Olivera, Victor Hugo Isotani, Seiji Botazzo Delbem, Alexandre Cláudio Hachiya, Adriana Hiroshi Tsuji , Domingos Dajer, María Eugenia Kymography Larynx Voice Paralysis Data Mining Acoustic Quimografía Laringe Voz Parálisis Minería de datos Acústica 18 2 Núm. 2 , Año 2018 : Revista Areté- Edición especial vocología Artículo de revista Journal article 2018-12-31T00:00:00Z 2018-12-31T00:00:00Z 2019-12-31 application/pdf Bogotá: Corporación Universitaria Iberoamericana Areté 1657-2513 2463-2252 https://arete.ibero.edu.co/article/view/art.18202 10.33881/1657-2513.art.18202 https://doi.org/10.33881/1657-2513.art.18202 eng https://creativecommons.org/licenses/by-nc-sa/4.0 Areté - 2018 Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial-CompartirIgual 4.0. 11 20 Hirano M, Bless D. A vibração das pregas vocais. In: Hirano M, Bless D, eds. Exame Videoestroboscópico da Laringe. PortoAlegre: Artes Médicas; 1997. Behlau M, Azevedo R, Madazio G. Anatomia da laringe e fisiologia da produção vocal. In: Behlau M. Voz: O livro do especialista. Vol.1, Rio de Janeiro: Revinter; 2001: 288-407. Steffen LM, Moschetti MB, Steffen N, Hanayama EM. Paralisia unilateral de prega vocal: associação e correlação entre tempos máximos de fonação, posição e ângulo de afastamento. Rev Bras Otorrinolaringol. 2004; 70(4):450-55. Schindler A, Bottero A, Capaccio P, Ginocchi D, Adorni F, Ottaviani F. Vocal improvement after voice therapy in unilateral vocal fold paralysis. J Voice. 2008; 22(1):113-18. Schwarz K, Cielo CA, Steffen N, Jozt GP, Becker J. Voice and vocal fold position in men with unilateral vocal fold paralysis. Braz J Otorhinolaryngol. 2011; 77(6):761-67. Colton RH, Casper JK. Compreendendo os problemas de voz: uma perspectiva fisiológica ao diagnóstico e ao tratamento. Porto Alegre: Artes Médicas, 1996. Garcia MM, Magalhães FP, Dadalto GB, Moura MVT. Imaging evaluation of vocal cord paralysis. Radiol Bras. 2009; 42(5):321-26. Gama ACC, Faria AP, Bassi IB, Diniz SS. Alteração de mobilidade de prega vocal unilateral: avaliação subjetiva e objetiva da voz nos momentos pré e pós-fonoterapia. Rev. CEFAC. 2011;13(4): 710-18. Busto-Crespo O, Uzcanga-Lacabe M, Abad-Marco A, Barasategui I, García L, Maraví E, Aguilera-Albesa S, Fernández-Montero A, Fernández-González S. Longitudinal Voice Outcomes After Voice Therapy in Unilateral Vocal Fold Paralysis. J Voice. 2016; 30(6):767.e9-767.e15. Larsson H, Hertegard S, Lindestad PA, Hammarberg B. Vocal fold vibrations: high speed imaging, kymography, and acoustic analysis: a preliminary report. The Laryngoscope. 2000; 110(12): 2117-22. Svec JG, Schutte HK. Kymography imaging of laryngeal vibrations. Curr Opin Otolaryngol Head Neck Surg. 2012; 20(6): 458-65. Pimenta RA, Dajer ME, Hachiya A, Tsuji DH, Montagnoli AN. Parameters acoustic and high-speed kymography identified effects of voiced vibration and vocal fry exercises. CoDAS. 2013; 25(6): 577-83. Baravieira PB, Brasolotto AG, Hachiya A, Takahashi-Ramos MT, Tsuji DH, Montagnoli AN. Comparative analysis of vocal fold vibration using high-speed videoendoscopy and digital kymography. J Voice. 2014; 28(5):603-7. Tsutsumi M, Isotani S, Pimenta RA, Dajer ME, Hachiya A, Tsuji DH, Tayama N, Yokonishi H, Imagawa H, Akihito A, Takano S, Sakakibara KI, Montagnoli AN. High Speed Videolaryngoscopy: Quantitative parameters of glottal area waveforms and High-speed kymography in healthy individuals. J Voice. 2016, 31(3):282-90. Galvão ND, Marin HF. Data Mining: a literature review. Acta Paul Enferm. 2009; 22(5): 686-90. Moro LFS. Caracterização de alunos em ambientes de ensino online: estendendo o uso da DAMICORE para minerar dados educacionais [dissertation]. São Carlos (SP): University of Sao Paulo; 2015. Sanches A, Cardoso JMP, Delbem ACB.Identifying merge-beneficial software kernels for hardware implementation. 2011 International Conference on Reconfigurable Computing and FPGAs ReConFig: 30 Nov-02 Dec 2011: Cancun, MEX. IEEE; 74-9. Andrade SC, Albuquerque JP, Delbem ACB. Improving the credibilitiy of unreliable information through static images and data mining: na experimental study to identify floods. Proceedings of the ISCRAM 2016 Conference: 22-25 May: Rio de Janeiro, BR. Cilibrasi AR, Vitanyi AP. Clustering by compression. IEEE Trans. Information Theory. 2005; 51(4): 1523-45. Felsenstein J. Inferring phylogenies. Massachussets: Sinauer Associates Inc Publishers; 2004. McLaren BM, Lim SJ, Koedinger KR. When and how often should worked examples be given to students? New results and summary of the current state of research. 2008 Proceedings of the 30 th Annual Conference of the Cognitive Science Society: 23-26 Jul: Washington, USA; 2176-81. Moro LFS, Rodrigues CL, Andrade FRH, Delbem ACB, Isotani S. Caracterização de alunos em ambientes de ensino online: estendendo o uso da DAMICORE para minerar dados educacionais. 3° Congresso Brasileiro de Informática na Educação (CBIE 2014) -Workshop (WCBIE 2014). Lohscheller J, Svec JG, Dollinger M. Vocal fold amplitude, open quotient, speed quotient and their variability along glottal length: kymographic data from normal subjects. Logopedics Phoniatrics Vocology. 2013; 38(4):182-92. Qiu Q, Schutte HK, Gu L, Yu Q. An automatic method to quantify the vibration properties of human vocal folds via videokymography. Folia Phoniatr Logop. 2003; 55(3):128-36. Ahmad S, Muzamil A, Lateef M. A Study of incidence and etiopathology of vocal cord paralysis. Indian J Otolaryngol Head Neck Surg. 2002; 54(4): 294-296. Mangilli LD, Amoroso MRM, Nishimoto IN, Barros APB, Carrara-de-angelis E. Rev Soc Bras Fonoaudiol. 2008; 13(2): 103-12. https://arete.ibero.edu.co/article/download/art.18202/pdf info:eu-repo/semantics/article http://purl.org/coar/resource_type/c_6501 http://purl.org/coar/resource_type/c_2df8fbb1 http://purl.org/redcol/resource_type/ART info:eu-repo/semantics/publishedVersion http://purl.org/coar/version/c_970fb48d4fbd8a85 info:eu-repo/semantics/openAccess http://purl.org/coar/access_right/c_abf2 Text Publication
institution	CORPORACIÓN UNIVERSITARIA IBEROAMERICANA
thumbnail	https://nuevo.metarevistas.org/CORPORACIONUNIVERSITARIAIBEROAMERICANA/logo.png
country_str	Colombia
collection	Areté
title	Preliminary Study of Data Mining analysis of High Speed Kymography and Voice Data
spellingShingle	Preliminary Study of Data Mining analysis of High Speed Kymography and Voice Data Tsutsumi, Monike Pimienta, Regina Aparecida Cândido de Olivera, Victor Hugo Isotani, Seiji Botazzo Delbem, Alexandre Cláudio Hachiya, Adriana Hiroshi Tsuji , Domingos Dajer, María Eugenia Kymography Larynx Voice Paralysis Data Mining Acoustic Quimografía Laringe Parálisis Minería de datos Acústica
title_short	Preliminary Study of Data Mining analysis of High Speed Kymography and Voice Data
title_full	Preliminary Study of Data Mining analysis of High Speed Kymography and Voice Data
title_fullStr	Preliminary Study of Data Mining analysis of High Speed Kymography and Voice Data
title_full_unstemmed	Preliminary Study of Data Mining analysis of High Speed Kymography and Voice Data
title_sort	preliminary study of data mining analysis of high speed kymography and voice data
title_eng	Estudio Preliminar del Análisis de Minería de Datos de Kymografía de Alta Velocidad y datos de voz.
description	The use of high-speed laryngeal images technology contributes increasingly to promote greater objectivity in the characterization of laryngeal physiology, as well as, in the diagnosis and monitoring of laryngeal diseases. Vocal fold paralysis is still an unknown incidence, both in Brazil and in the rest of the World, its occurrence has become more frequent in medical and speech-pathologist clinics. Data mining is the process of analyzing hidden patterns of data according to different perspectives for categorization into useful information. In other words, Data Mining is able to identify patterns between information and grouping them according to some given criteria. Objective: To analyze high-speed kymographic images and voice signals with and without unilateral vocal fold paralysis using the data mining computerized system DAMICORE. Methodology: High-speed kymography and acoustic voice signals of subjects with and without unilateral vocal fold paralysis were analyzed by a computerized data mining tool, the DAMICORE system. Results: Data mining analysis for High-speed kymography of healthy individuals gather the groups by sex, while images from subjects with unilateral vocal fold paralysis were gathered by contrast of colors and by light incidence in the images. For voice signals, the technique considered the presence of external noise as a criterion for gathering groups. Conclusion: We concluded that DAMICORE it is a promising tool for kymographic images and voice signal data mining analysis. This tool shown high sensibility to noise in acoustical signals. Consequently, future research should consider this characteristic.
description_eng	El uso de la tecnología en el área de la salud contribuye al diagnóstico y tratamiento de casi cualquier patología laríngea, incluida la parálisis unilateral de las cuerdas vocales. La videolaringoscopia de alta velocidad es una técnica que captura el verdadero comportamiento vibratorio intraciclo de las cuerdas vocales. Las cámaras de alta velocidad pueden grabar velocidades de cuadros de hasta 4000 cuadros por segundo y generar una gran cantidad de datos laríngeos. Por otro lado, la minería de datos es un proceso de exploración de datos capaz de identificar patrones entre la información y agruparlos de acuerdo con algunos criterios dados. Objetivo: identificar, a través de un sistema de minería de datos computarizado, los criterios para el análisis de imágenes laríngeas y señales acústicas de voces con y sin parálisis unilateral de cuerdas vocales. Metodología: las imágenes laríngeas transformadas en quimiografía de alta velocidad y señales acústicas de voz de sujetos con y sin parálisis unilateral de cuerdas vocales capturadas por videolaringoscopia de alta velocidad fueron analizadas por un sistema de minería de datos computarizado, el SISTEMA DAMICORE. Resultados: para la quimiografía de alta velocidad de individuos sanos, el sistema de minería de datos encontró el sexo como un criterio de recopilación, mientras que las imágenes de los sujetos con parálisis unilateral de cuerdas vocales se obtuvieron mediante un contraste de colores, ya sea por la mucosa laríngea o por incidencia de luz en las imágenes . Con respecto a las señales acústicas de voz, la técnica consideró la presencia de ruido externo como un criterio para reunir a ambos grupos. Conclusión: Llegamos a la conclusión de que DAMICORE era una herramienta eficaz para la extracción de datos laríngeos y vocales, y era más sensible a las imágenes grupales que a las señales acústicas de voz. &nbsp;
author	Tsutsumi, Monike Pimienta, Regina Aparecida Cândido de Olivera, Victor Hugo Isotani, Seiji Botazzo Delbem, Alexandre Cláudio Hachiya, Adriana Hiroshi Tsuji , Domingos Dajer, María Eugenia
author_facet	Tsutsumi, Monike Pimienta, Regina Aparecida Cândido de Olivera, Victor Hugo Isotani, Seiji Botazzo Delbem, Alexandre Cláudio Hachiya, Adriana Hiroshi Tsuji , Domingos Dajer, María Eugenia
topic	Kymography Larynx Voice Paralysis Data Mining Acoustic Quimografía Laringe Parálisis Minería de datos Acústica
topic_facet	Kymography Larynx Voice Paralysis Data Mining Acoustic Quimografía Laringe Parálisis Minería de datos Acústica
topicspa_str_mv	Quimografía Laringe Parálisis Minería de datos Acústica
citationvolume	18
citationissue	2
citationedition	Núm. 2 , Año 2018 : Revista Areté- Edición especial vocología
publisher	Bogotá: Corporación Universitaria Iberoamericana
ispartofjournal	Areté
source	https://arete.ibero.edu.co/article/view/art.18202
language	eng
format	Article
rights	https://creativecommons.org/licenses/by-nc-sa/4.0 Areté - 2018 Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial-CompartirIgual 4.0. info:eu-repo/semantics/openAccess http://purl.org/coar/access_right/c_abf2
references_eng	Hirano M, Bless D. A vibração das pregas vocais. In: Hirano M, Bless D, eds. Exame Videoestroboscópico da Laringe. PortoAlegre: Artes Médicas; 1997. Behlau M, Azevedo R, Madazio G. Anatomia da laringe e fisiologia da produção vocal. In: Behlau M. Voz: O livro do especialista. Vol.1, Rio de Janeiro: Revinter; 2001: 288-407. Steffen LM, Moschetti MB, Steffen N, Hanayama EM. Paralisia unilateral de prega vocal: associação e correlação entre tempos máximos de fonação, posição e ângulo de afastamento. Rev Bras Otorrinolaringol. 2004; 70(4):450-55. Schindler A, Bottero A, Capaccio P, Ginocchi D, Adorni F, Ottaviani F. Vocal improvement after voice therapy in unilateral vocal fold paralysis. J Voice. 2008; 22(1):113-18. Schwarz K, Cielo CA, Steffen N, Jozt GP, Becker J. Voice and vocal fold position in men with unilateral vocal fold paralysis. Braz J Otorhinolaryngol. 2011; 77(6):761-67. Colton RH, Casper JK. Compreendendo os problemas de voz: uma perspectiva fisiológica ao diagnóstico e ao tratamento. Porto Alegre: Artes Médicas, 1996. Garcia MM, Magalhães FP, Dadalto GB, Moura MVT. Imaging evaluation of vocal cord paralysis. Radiol Bras. 2009; 42(5):321-26. Gama ACC, Faria AP, Bassi IB, Diniz SS. Alteração de mobilidade de prega vocal unilateral: avaliação subjetiva e objetiva da voz nos momentos pré e pós-fonoterapia. Rev. CEFAC. 2011;13(4): 710-18. Busto-Crespo O, Uzcanga-Lacabe M, Abad-Marco A, Barasategui I, García L, Maraví E, Aguilera-Albesa S, Fernández-Montero A, Fernández-González S. Longitudinal Voice Outcomes After Voice Therapy in Unilateral Vocal Fold Paralysis. J Voice. 2016; 30(6):767.e9-767.e15. Larsson H, Hertegard S, Lindestad PA, Hammarberg B. Vocal fold vibrations: high speed imaging, kymography, and acoustic analysis: a preliminary report. The Laryngoscope. 2000; 110(12): 2117-22. Svec JG, Schutte HK. Kymography imaging of laryngeal vibrations. Curr Opin Otolaryngol Head Neck Surg. 2012; 20(6): 458-65. Pimenta RA, Dajer ME, Hachiya A, Tsuji DH, Montagnoli AN. Parameters acoustic and high-speed kymography identified effects of voiced vibration and vocal fry exercises. CoDAS. 2013; 25(6): 577-83. Baravieira PB, Brasolotto AG, Hachiya A, Takahashi-Ramos MT, Tsuji DH, Montagnoli AN. Comparative analysis of vocal fold vibration using high-speed videoendoscopy and digital kymography. J Voice. 2014; 28(5):603-7. Tsutsumi M, Isotani S, Pimenta RA, Dajer ME, Hachiya A, Tsuji DH, Tayama N, Yokonishi H, Imagawa H, Akihito A, Takano S, Sakakibara KI, Montagnoli AN. High Speed Videolaryngoscopy: Quantitative parameters of glottal area waveforms and High-speed kymography in healthy individuals. J Voice. 2016, 31(3):282-90. Galvão ND, Marin HF. Data Mining: a literature review. Acta Paul Enferm. 2009; 22(5): 686-90. Moro LFS. Caracterização de alunos em ambientes de ensino online: estendendo o uso da DAMICORE para minerar dados educacionais [dissertation]. São Carlos (SP): University of Sao Paulo; 2015. Sanches A, Cardoso JMP, Delbem ACB.Identifying merge-beneficial software kernels for hardware implementation. 2011 International Conference on Reconfigurable Computing and FPGAs ReConFig: 30 Nov-02 Dec 2011: Cancun, MEX. IEEE; 74-9. Andrade SC, Albuquerque JP, Delbem ACB. Improving the credibilitiy of unreliable information through static images and data mining: na experimental study to identify floods. Proceedings of the ISCRAM 2016 Conference: 22-25 May: Rio de Janeiro, BR. Cilibrasi AR, Vitanyi AP. Clustering by compression. IEEE Trans. Information Theory. 2005; 51(4): 1523-45. Felsenstein J. Inferring phylogenies. Massachussets: Sinauer Associates Inc Publishers; 2004. McLaren BM, Lim SJ, Koedinger KR. When and how often should worked examples be given to students? New results and summary of the current state of research. 2008 Proceedings of the 30 th Annual Conference of the Cognitive Science Society: 23-26 Jul: Washington, USA; 2176-81. Moro LFS, Rodrigues CL, Andrade FRH, Delbem ACB, Isotani S. Caracterização de alunos em ambientes de ensino online: estendendo o uso da DAMICORE para minerar dados educacionais. 3° Congresso Brasileiro de Informática na Educação (CBIE 2014) -Workshop (WCBIE 2014). Lohscheller J, Svec JG, Dollinger M. Vocal fold amplitude, open quotient, speed quotient and their variability along glottal length: kymographic data from normal subjects. Logopedics Phoniatrics Vocology. 2013; 38(4):182-92. Qiu Q, Schutte HK, Gu L, Yu Q. An automatic method to quantify the vibration properties of human vocal folds via videokymography. Folia Phoniatr Logop. 2003; 55(3):128-36. Ahmad S, Muzamil A, Lateef M. A Study of incidence and etiopathology of vocal cord paralysis. Indian J Otolaryngol Head Neck Surg. 2002; 54(4): 294-296. Mangilli LD, Amoroso MRM, Nishimoto IN, Barros APB, Carrara-de-angelis E. Rev Soc Bras Fonoaudiol. 2008; 13(2): 103-12.
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publishDate	2019-12-31
date_accessioned	2018-12-31T00:00:00Z
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