A Vibration Control Method of an Electrolarynx Based on Statistical &lt;i&gt;F&lt;/i&gt;&lt;sub&gt;0&lt;/sub&gt; Pattern Prediction

Tanaka, Kou; Toda, Tomoki; Nakamura, Satoshi

doi:10.1587/transinf.2016edp7485

Cited by 3 publications

(1 citation statement)

References 17 publications

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“…Control electronics designed using the electromyography activity of the neck muscles (Arifin et al, 2014;Fuchs et al, 2015;Oe et al, 2017) and video cameras to capture lip movement (Wu et al, 2013) provide an automatic control over the electrolarynx. A statistical method for varying fundamental frequencies suggests that, this allows for more natural speech (Tanaka et al, 2016;Tanaka et al, 2017). Based on the electrolarynx speech signals' feedback, the excitation signal is varied to accommodate differences in fundamental frequency.…”

Section: Introductionmentioning

confidence: 99%

Design of Electrolarynx to Increase Energy Efficiency by Varying the Driving Source

Maila

Bhat

Prasad

2020

IJTech

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The larynx is an organ in the human respiratory system that forms the basis of the speech production system. An electrolarynx is a device used by most laryngectomees to regain their verbal communication. Our objective was to design an electrolarynx with increased energy efficiency by modifying the driving source. Initially, we designed the electrolarynx to accommodate various driving signals. We then compared the voice output obtained by different input signals for quality and measured energy consumption using a digital multimeter. When compared to existing methods, the proposed driving source was found to be 11.1% more energy efficient. Voice quality was also better than the traditional driving source by 31.6%.

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Section: Introductionmentioning

confidence: 99%

Design of Electrolarynx to Increase Energy Efficiency by Varying the Driving Source

Maila

Bhat

Prasad

2020

IJTech

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Review of the Electrolarynx: The Past and Present

Cox

2019

Perspect ASHA SIGs

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Purpose The purpose of this article is to provide a review of the neck-type electrolarynx, describe acoustic and perceptual characteristics of electrolaryngeal speech, and highlight the potential impact of electrolaryngeal speech on voice-related quality of life postlaryngectomy, concluding by describing efforts to improve electrolaryngeal speech rehabilitation. Although several alaryngeal communication options exist, the electrolarynx is the most readily available means of producing voice and speech postlaryngectomy. This is due to the small and handheld nature of an electrolaryngeal device, which is commonly placed against the neck during use. Research suggests that approximately half of laryngectomees use an electrolarynx up to 2 years postlaryngectomy. Conclusion Given the importance of the electrolarynx postlaryngectomy, decisions should be made in conjunction with the laryngectomee. It is important to ask: Why not an electrolarynx?

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Singing Fundamental Frequency Contour Generation Using Generalized Command-Response Model and Score-Conditional Variational Autoencoder

Seki

Taga²,

Toda

2021

2021 IEEE 31st International Workshop on Machine Learning for Signal Processing (MLSP)

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A Vibration Control Method of an Electrolarynx Based on Statistical <i>F</i><sub>0</sub> Pattern Prediction

Cited by 3 publications

References 17 publications

Design of Electrolarynx to Increase Energy Efficiency by Varying the Driving Source

Design of Electrolarynx to Increase Energy Efficiency by Varying the Driving Source

Review of the Electrolarynx: The Past and Present

Singing Fundamental Frequency Contour Generation Using Generalized Command-Response Model and Score-Conditional Variational Autoencoder

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