A wireless embedded tongue tactile biofeedback system for balance control

Vuillerme, Nicolas; Pinsault, Nicolas; Chenu, Olivier; Fleury, Anthony; Payan, Yohan; Demongeot, Jacques

doi:10.1016/j.pmcj.2008.04.001

Cited by 34 publications

(21 citation statements)

References 48 publications

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“…Other result of our work told us that 45% of Iranian population in 2050 will be between 50-80 years old so the median age of family care giver of dependent aged people will increase. We can see that the future care givers will become aged before coming care giver and they will need other's help and technical assistance at home as well as a strong disability prevention policy in order to increase as in EU countries the Disability-Free Life Expectancy (DFLE) [25][26][27][28][29][30]. Hence, there will be not enough children to help their parents.…”

Section: Discussionmentioning

confidence: 99%

Dynamic Projection of Old Aged Disability in Iran: DOPAMID Microsimulation

Teymoori

Hansen

Franco

et al. 2010

2010 International Conference on Complex, Intelligent and Software Intensive Systems

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The paper deals with how a developing country like Iran can prevent socio-economic impacts of demographic and disability transition. This period started between 1991 and 1996 with a rapid decline of fertility and mortality rates and still continues today. This demographic stage constitutes the window or bonus of the best opportunity for Iranian policy makers to do their plan for rapid aging of population. So we developed DOPAMID as the first dynamic projection model from socio-demographic indicators such as fertility rate, mortality rate, sex and age and marriage date of Iranian people. DOPAMID is able to show the evolution of the numbers of dependent aged people. New theories about aging of population describe the importance of disability transition as well as health and demographic ones. So we carry out this study to know when disability transition happens in Iran, how many frail people will live in future and how many family and/or sociomedical carers they will need for ensuring a good quality of life.

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Section: Discussionmentioning

confidence: 99%

Dynamic Projection of Old Aged Disability in Iran: DOPAMID Microsimulation

Teymoori

Hansen

Franco

et al. 2010

2010 International Conference on Complex, Intelligent and Software Intensive Systems

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“…[5,16,18]; wrist [19,21]; arm and forearm [14,20,22,23]; tongue and mouth [24][25][26]; head [27]; torso, trunk and shoulders [28][29][30]; leg [31,32]; foot [15,33].…”

Section: Wearable Haptic Systems: Technologies and Main Characteristicsmentioning

confidence: 99%

A Fabric-Based Approach for Wearable Haptics

Bianchi

2016

Electronics

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Abstract:In recent years, wearable haptic systems (WHS) have gained increasing attention as a novel and exciting paradigm for human-robot interaction (HRI). These systems can be worn by users, carried around, and integrated in their everyday lives, thus enabling a more natural manner to deliver tactile cues. At the same time, the design of these types of devices presents new issues: the challenge is the correct identification of design guidelines, with the two-fold goal of minimizing system encumbrance and increasing the effectiveness and naturalness of stimulus delivery. Fabrics can represent a viable solution to tackle these issues. They are specifically thought "to be worn", and could be the key ingredient to develop wearable haptic interfaces conceived for a more natural HRI. In this paper, the author will review some examples of fabric-based WHS that can be applied to different body locations, and elicit different haptic perceptions for different application fields. Perspective and future developments of this approach will be discussed.

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“…The missing sensory component to the sensory motor loop was also provided using the tongue [2,3]. In order to improve human balance and prevent people from non-voluntary fall, the tongue has also been used in biofeedback systems [4]. Building upon these applications, recent Human-Computer Interaction (HCI) literature provides insight into methods, design related problems and implementation approaches developed to help improve quality of life for critically ill patients.…”

Section: Introductionmentioning

confidence: 99%

Tongue-Supported Human-Computer Interaction systems: A review

Khan

Sherazi²,

Quain

2014

2014 36th Annual International Conference of the IEEE Engineering in Medicine and Biology Society

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Permission from IEEE must be obtained for all other uses, in any current or future media, including reprinting/republishing this material for advertising or promotional purposes, creating new collective works, for resale or redistribution to servers or lists, or reuse of any copyrighted component of this work in other works.Abstract-The tongue can substitute human sensory systems and has been used as a medium of input to help impaired patients communicate with the world. Innovative techniques have been employed to realize tongue movement, sense its position and exploit tongue dexterity, in order to achieve Tongue Supported Human Computer Interaction (TSHCI). This paper examines various approaches of using tongue dexterousness in TSHCI systems and then introduces two infrared signal supported minimally-invasive TSHCI systems developed at Curtin University. Methods of sensing tongue movement and position are especially discussed and depending on the employed methods, TSHCI systems are categorized as either invasive or minimally-invasive. A set of system usability criteria is proposed to help build more effective TSHCI systems in future.

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A wireless embedded tongue tactile biofeedback system for balance control

Cited by 34 publications

References 48 publications

Dynamic Projection of Old Aged Disability in Iran: DOPAMID Microsimulation

Dynamic Projection of Old Aged Disability in Iran: DOPAMID Microsimulation

A Fabric-Based Approach for Wearable Haptics

Tongue-Supported Human-Computer Interaction systems: A review

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