Stimtac.Php History
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October 19, 2011, at 06:41 PM
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Added lines 2-4:
%center%%height=300px%http://interaction.lille.inria.fr/~roussel/pub/STIMTAC/2011-proto4.jpg"Standalone Stimtac"%% %height=300px%http://interaction.lille.inria.fr/~roussel/pub/STIMTAC/INRIA-0130-180.jpg"Standalone Stimtac"%%
October 19, 2011, at 06:28 PM
by -
Changed lines 1-154 from:
(:title Stimtac:)(:Summary:Presentation of Stimtac:)
>>rframe font-size:smaller<<
!! [[#presentation| Presentation of Stimtac]]
* [[#squeeze |How it works ]]
* [[#history | History]]
!! [[#publication | Publications]]
* [[#phd | PhD Thesis]]
* [[#patents | Patents]]
* [[#articles | Articles]]
>><<
[[#presentation]]
!! Stimtac is a touchPad like tactile display
Computer environments become richer of outstanding output devices; while visual or auditive devices are common, the use of force feedback is becoming more widespread and helps users to interact with computer applications. However, a specific stimulation of the finger pulp is not often provided by those interfaces yet. Touch feeling is thus missing, so that there's a lack of realism and applications don't take profit of the tactile channel. So there's a need for a tactile stimulator sufficiently small to be laid next to a computer desktop, but sufficiently realistic to simulate different surface textures.
[[#squeeze]]
'''How it works'''
Watch the video about stimtac: [[Attach:stimtac.mpg | .MPG ]]
[[#history]]
'''History'''
%rframe height=200px% Attach:stator.jpg | ''2004: stator of USR60''
'''2004: Prehistoric time.'''
First prototype of StimTac used a free stator of an Ultrasonic Motor called USR60. This ring shaped resonator can provide 3µm vibrations at 40kHz. A plastic tape was bonded to level the touched surface, and eliminate the effect of the teeth machined on the original stator. A Linear Variable Differential Transformer (LVDT) was used to detect fingertip's position. This solution wasn't optimal: it's one dimension, with contact, and doesn't measure touch area's position acurately.
[[<<]]
%lframe height=200px% Attach:proto1.jpg | ''2007: made at the lab''
'''2007: First prototypes made at the lab.'''
The idea of StimTac was to produce a tactile device which can render good tactile stimulation, and which can be as small as possible in the same time. « Squeeze film effect » was found to be the interaction process between the vibrating plate and the fingertip. A specific prototype was then manufactured. The design results in a plate, on which a stationary wave propagates. Width and length have been chosen in order to favour squeeze film.
[[<<]]
%rframe height=200px% Attach:proto2.jpg | ''2008: Stimtac becomes a portable tactile stimulator''
'''2008: A portable tactile stimulator.'''
To operate, Stimtac need an accurate finger position sensor.In order to remove the LVDT, a custom-made optical sensor is thus used to locate the user’s finger. The sensor was built from two white LEDs, a set of mirrors and a linear 200 dpi CCD array. An on-board DSP computes the centroids of two shadow images created by the user’s finger and sends them on a serial line as absolute (x; y) coordinates at a rate of 120 Hz. The final resolution
of the sensor is 170 dpi due to optical constraints and post-treatments.
[[<<]]
%lframe height=200px% Attach:proto3.jpg | ''2010: improvement in power consumption''
'''2010: Stimtac is thin, lightweight and sobre.'''
A more convenient design of Stimtac could cut the power losses
down by 90%. Consequently, the tactile plate doesn't get warm, allowing the
user to play a long time with the device. Moreover, the rated power (0.5W) is
sufficiently small to allow a power supply from a lightweight power source, or
directly from an USB port for example.
[[<<]]
[[#publication]]
[[#phd]]
'+''Phd Thesis''+'
Melisande Biet
Conception et contrôle d'actionneurs électro-actifs dédiés à la stimulation tactile,
University Lille1 [[http://l2ep.univ-lille1.fr/fileupload/file/theses/BIET.pdf | URL]]
[[#patents]]
'+''Patents''+'
Patent n°WO2008116980 (A1), publication date 2008-10-02, BIET MELISANDRE, GIRAUD FREDERIC, LEMAIRE SEMAIL BETTY
'+''Publications''+'
[[#articles]]
Efficacité et robustesse aux distracteurs d’un retour tactile pour faciliter le pointage.
22ième conférence sur l’interaction Homme-Machine (IHM 2010), ACM Press, pages. 25-32, 9-2010
Géry Casiez, Nicolas Roussel, Romuald Van Belleghem, Frédéric GIRAUD
Power consumption reduction of a controlled friction Tactile Plate
Eurohaptics 2010 Amsterdam, 7-2010
Frédéric GIRAUD, Michel Amberg, Romuald Vanbelleghem, Betty LEMAIRE-SEMAIL [[http://portal.acm.org/citation.cfm?id=1893768 | URL]]
Analysis of a New Haptic Display Coupling Tactile and Kinesthetic Feedback to Render Texture and Shape
EuroHaptic2010, Vol. 6192, N°. 2, pages. 87-93, ISBN. 10.1007/978-3-642-14075-4_13, 7-2010,
Tao ZENG, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL, Michel AMBERG
Geometrical optimization of an ultrasonic tactile plate for surface texture rendering
Sensors and Actuators: A Physical, Vol. 191, N°. 1-2, pages. 91-100, 6-2010
Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL [[http://dx.doi.org/10.1016/j.sna.2010.05.001| URL ]]
Implementation of tactile feedback by modifying the perceived friction
The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008
Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL [[http://www.epjap.org/component/option,com_intuition/task,output/lang,en/ | URL]]
Squeeze film effect for the design of an ultrasonic tactile plate
IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007
Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL [[http://ieeexplore.ieee.org/iel5/58/4430010/04430060.pdf?tp=&arnumber=4430060&isnumber=4430010 | URL]]
Dispositifs à frottement variable pour le retour tactile
Sciences et Technologies pour le Handicap, editions Hermes, Vol. 2, N°. 2, pages. 115-129, 1-2008
Betty LEMAIRE-SEMAIL, Frédéric GIRAUD
Advances in the Development of a New Force-Feedback Tactile Device
11th international conference on new actuators (ACTUATOR’08), 6-2008
Frédéric GIRAUD, Mélisande Biet, Betty LEMAIRE-SEMAIL
Discrimination of Virtual Square Gratings by Dynamic Touch on Friction Based Tactile Displays
Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR), pages. 41 - 48, 3-2008,
Melisande BIET, Géry CASIEZ, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Using an ultrasonic transducer: Evidence for an anisotropic deprivation of frictional cues in microtexture perception
WorldHaptics, The Second Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environnment and Teleoperator Systems, pages. 385 - 390, 3-2007
Melisande BIET, Loïc BOULON, François MARTINOT, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
A Piezoelectric Tactile Display Using Travelling Lamb Wave
EUROHAPTICS 2006, pages. 567–570, 7-2006,
Melisande BIET, Frédéric GIRAUD, François MARTINOT, Betty LEMAIRE-SEMAIL
NEW TACTILE DEVICES USING PIEZOELECTRIC ACTUATORS
Actuator, 6-2006
Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Dynamics of the lateral motion EP : a perceptual role.
Eurohaptics. 2006
François Martinot, Patricia Plénacoste, Betty Semail
Mechanical Responses of the Fingerpad and Distal Phalanx to Friction of a Grooved Surface : Effect of the Contact Angle
In Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR). 2006
François Martinot, Patricia Plénacoste and Christophe Chaillou.
The Influence of Surface Commensurability on Roughness Perception With a Bare Finger
In Eurohaptics. 2006
François Martinot.
ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS
Journée Française de Tribologie, Albi (France), 5-2010
Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
CONCEPTION D’UN STIMULATEUR TACTILE
CESAM’07, ENSEEIHT, Toulouse, 6-7 Septembre 2007, 9-2007
Frédéric GIRAUD, Melisande BIET, Betty LEMAIRE-SEMAIL
Typologie des Technologies pour le Rendu Tactile
Journée scientifique internationale IRCICA, Lille, 3-2004
Frédéric GIRAUD, François MARTINOT
Touch analysis and tactile device design: an overview of STIMTAC project
Virtual Concept Biarritz, 11-2005
Betty LEMAIRE-SEMAIL, Fraçois Martinot, Frédéric GIRAUD, Patricia Plénacoste, Karim Talbi, CH. Chaillou, Ph. Pernod
>>rframe font-size:smaller<<
!! [[#presentation| Presentation of Stimtac]]
* [[#squeeze |How it works ]]
* [[#history | History]]
!! [[#publication | Publications]]
* [[#phd | PhD Thesis]]
* [[#patents | Patents]]
* [[#articles | Articles]]
>><<
[[#presentation]]
!! Stimtac is a touchPad like tactile display
Computer environments become richer of outstanding output devices; while visual or auditive devices are common, the use of force feedback is becoming more widespread and helps users to interact with computer applications. However, a specific stimulation of the finger pulp is not often provided by those interfaces yet. Touch feeling is thus missing, so that there's a lack of realism and applications don't take profit of the tactile channel. So there's a need for a tactile stimulator sufficiently small to be laid next to a computer desktop, but sufficiently realistic to simulate different surface textures.
[[#squeeze]]
'''How it works'''
Watch the video about stimtac: [[Attach:stimtac.mpg | .MPG ]]
[[#history]]
'''History'''
%rframe height=200px% Attach:stator.jpg | ''2004: stator of USR60''
'''2004: Prehistoric time.'''
First prototype of StimTac used a free stator of an Ultrasonic Motor called USR60. This ring shaped resonator can provide 3µm vibrations at 40kHz. A plastic tape was bonded to level the touched surface, and eliminate the effect of the teeth machined on the original stator. A Linear Variable Differential Transformer (LVDT) was used to detect fingertip's position. This solution wasn't optimal: it's one dimension, with contact, and doesn't measure touch area's position acurately.
[[<<]]
%lframe height=200px% Attach:proto1.jpg | ''2007: made at the lab''
'''2007: First prototypes made at the lab.'''
The idea of StimTac was to produce a tactile device which can render good tactile stimulation, and which can be as small as possible in the same time. « Squeeze film effect » was found to be the interaction process between the vibrating plate and the fingertip. A specific prototype was then manufactured. The design results in a plate, on which a stationary wave propagates. Width and length have been chosen in order to favour squeeze film.
[[<<]]
%rframe height=200px% Attach:proto2.jpg | ''2008: Stimtac becomes a portable tactile stimulator''
'''2008: A portable tactile stimulator.'''
To operate, Stimtac need an accurate finger position sensor.In order to remove the LVDT, a custom-made optical sensor is thus used to locate the user’s finger. The sensor was built from two white LEDs, a set of mirrors and a linear 200 dpi CCD array. An on-board DSP computes the centroids of two shadow images created by the user’s finger and sends them on a serial line as absolute (x; y) coordinates at a rate of 120 Hz. The final resolution
of the sensor is 170 dpi due to optical constraints and post-treatments.
[[<<]]
%lframe height=200px% Attach:proto3.jpg | ''2010: improvement in power consumption''
'''2010: Stimtac is thin, lightweight and sobre.'''
A more convenient design of Stimtac could cut the power losses
down by 90%. Consequently, the tactile plate doesn't get warm, allowing the
user to play a long time with the device. Moreover, the rated power (0.5W) is
sufficiently small to allow a power supply from a lightweight power source, or
directly from an USB port for example.
[[<<]]
[[#publication]]
[[#phd]]
'+''Phd Thesis''+'
Melisande Biet
Conception et contrôle d'actionneurs électro-actifs dédiés à la stimulation tactile,
University Lille1 [[http://l2ep.univ-lille1.fr/fileupload/file/theses/BIET.pdf | URL]]
[[#patents]]
'+''Patents''+'
Patent n°WO2008116980 (A1), publication date 2008-10-02, BIET MELISANDRE, GIRAUD FREDERIC, LEMAIRE SEMAIL BETTY
'+''Publications''+'
[[#articles]]
Efficacité et robustesse aux distracteurs d’un retour tactile pour faciliter le pointage.
22ième conférence sur l’interaction Homme-Machine (IHM 2010), ACM Press, pages. 25-32, 9-2010
Géry Casiez, Nicolas Roussel, Romuald Van Belleghem, Frédéric GIRAUD
Power consumption reduction of a controlled friction Tactile Plate
Eurohaptics 2010 Amsterdam, 7-2010
Frédéric GIRAUD, Michel Amberg, Romuald Vanbelleghem, Betty LEMAIRE-SEMAIL [[http://portal.acm.org/citation.cfm?id=1893768 | URL]]
Analysis of a New Haptic Display Coupling Tactile and Kinesthetic Feedback to Render Texture and Shape
EuroHaptic2010, Vol. 6192, N°. 2, pages. 87-93, ISBN. 10.1007/978-3-642-14075-4_13, 7-2010,
Tao ZENG, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL, Michel AMBERG
Geometrical optimization of an ultrasonic tactile plate for surface texture rendering
Sensors and Actuators: A Physical, Vol. 191, N°. 1-2, pages. 91-100, 6-2010
Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL [[http://dx.doi.org/10.1016/j.sna.2010.05.001| URL ]]
Implementation of tactile feedback by modifying the perceived friction
The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008
Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL [[http://www.epjap.org/component/option,com_intuition/task,output/lang,en/ | URL]]
Squeeze film effect for the design of an ultrasonic tactile plate
IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007
Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL [[http://ieeexplore.ieee.org/iel5/58/4430010/04430060.pdf?tp=&arnumber=4430060&isnumber=4430010 | URL]]
Dispositifs à frottement variable pour le retour tactile
Sciences et Technologies pour le Handicap, editions Hermes, Vol. 2, N°. 2, pages. 115-129, 1-2008
Betty LEMAIRE-SEMAIL, Frédéric GIRAUD
Advances in the Development of a New Force-Feedback Tactile Device
11th international conference on new actuators (ACTUATOR’08), 6-2008
Frédéric GIRAUD, Mélisande Biet, Betty LEMAIRE-SEMAIL
Discrimination of Virtual Square Gratings by Dynamic Touch on Friction Based Tactile Displays
Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR), pages. 41 - 48, 3-2008,
Melisande BIET, Géry CASIEZ, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Using an ultrasonic transducer: Evidence for an anisotropic deprivation of frictional cues in microtexture perception
WorldHaptics, The Second Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environnment and Teleoperator Systems, pages. 385 - 390, 3-2007
Melisande BIET, Loïc BOULON, François MARTINOT, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
A Piezoelectric Tactile Display Using Travelling Lamb Wave
EUROHAPTICS 2006, pages. 567–570, 7-2006,
Melisande BIET, Frédéric GIRAUD, François MARTINOT, Betty LEMAIRE-SEMAIL
NEW TACTILE DEVICES USING PIEZOELECTRIC ACTUATORS
Actuator, 6-2006
Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Dynamics of the lateral motion EP : a perceptual role.
Eurohaptics. 2006
François Martinot, Patricia Plénacoste, Betty Semail
Mechanical Responses of the Fingerpad and Distal Phalanx to Friction of a Grooved Surface : Effect of the Contact Angle
In Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR). 2006
François Martinot, Patricia Plénacoste and Christophe Chaillou.
The Influence of Surface Commensurability on Roughness Perception With a Bare Finger
In Eurohaptics. 2006
François Martinot.
ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS
Journée Française de Tribologie, Albi (France), 5-2010
Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
CONCEPTION D’UN STIMULATEUR TACTILE
CESAM’07, ENSEEIHT, Toulouse, 6-7 Septembre 2007, 9-2007
Frédéric GIRAUD, Melisande BIET, Betty LEMAIRE-SEMAIL
Typologie des Technologies pour le Rendu Tactile
Journée scientifique internationale IRCICA, Lille, 3-2004
Frédéric GIRAUD, François MARTINOT
Touch analysis and tactile device design: an overview of STIMTAC project
Virtual Concept Biarritz, 11-2005
Betty LEMAIRE-SEMAIL, Fraçois Martinot, Frédéric GIRAUD, Patricia Plénacoste, Karim Talbi, CH. Chaillou, Ph. Pernod
to:
[[http://interaction.lille.inria.fr/~roussel/publications/2011-UIST-stimtac.pdf|Paper presenting the different versions of the Stimtac device]] and the [[http://interaction.lille.inria.fr/~roussel/digital-library/media/2011-stimtac.mov|corresponding video]]
May 20, 2011, at 05:00 PM
by -
Deleted line 6:
* [[#device | Previous Devices]]
Changed lines 14-15 from:
'''Stimtac is a touchPad like tactile display'''
to:
!! Stimtac is a touchPad like tactile display
Deleted lines 17-18:
Watch the video about stimtac: [[Attach:stimtac.mpg | .MPG ]]
Changed lines 19-20 from:
'''How it Works'''
to:
'''How it works'''
Watch the video about stimtac: [[Attach:stimtac.mpg | .MPG ]]
Watch the video about stimtac: [[Attach:stimtac.mpg | .MPG ]]
Deleted lines 26-30:
Discover the Stimtac's story
[[#device]]
'''Previous devices'''
[[#device]]
'''Previous devices'''
Added line 56:
[[<<]]
May 20, 2011, at 04:55 PM
by -
Changed lines 32-60 from:
At the begining, prototypes were not as compact and lightweight as today. Discover in this [[http://www.lifl.fr/mint/pmwiki.php?n=Stimtac.Gallery | gallery]] the ancestors of the new tactile display
to:
%rframe height=200px% Attach:stator.jpg | ''2004: stator of USR60''
'''2004: Prehistoric time.'''
First prototype of StimTac used a free stator of an Ultrasonic Motor called USR60. This ring shaped resonator can provide 3µm vibrations at 40kHz. A plastic tape was bonded to level the touched surface, and eliminate the effect of the teeth machined on the original stator. A Linear Variable Differential Transformer (LVDT) was used to detect fingertip's position. This solution wasn't optimal: it's one dimension, with contact, and doesn't measure touch area's position acurately.
[[<<]]
%lframe height=200px% Attach:proto1.jpg | ''2007: made at the lab''
'''2007: First prototypes made at the lab.'''
The idea of StimTac was to produce a tactile device which can render good tactile stimulation, and which can be as small as possible in the same time. « Squeeze film effect » was found to be the interaction process between the vibrating plate and the fingertip. A specific prototype was then manufactured. The design results in a plate, on which a stationary wave propagates. Width and length have been chosen in order to favour squeeze film.
[[<<]]
%rframe height=200px% Attach:proto2.jpg | ''2008: Stimtac becomes a portable tactile stimulator''
'''2008: A portable tactile stimulator.'''
To operate, Stimtac need an accurate finger position sensor.In order to remove the LVDT, a custom-made optical sensor is thus used to locate the user’s finger. The sensor was built from two white LEDs, a set of mirrors and a linear 200 dpi CCD array. An on-board DSP computes the centroids of two shadow images created by the user’s finger and sends them on a serial line as absolute (x; y) coordinates at a rate of 120 Hz. The final resolution
of the sensor is 170 dpi due to optical constraints and post-treatments.
[[<<]]
%lframe height=200px% Attach:proto3.jpg | ''2010: improvement in power consumption''
'''2010: Stimtac is thin, lightweight and sobre.'''
A more convenient design of Stimtac could cut the power losses
down by 90%. Consequently, the tactile plate doesn't get warm, allowing the
user to play a long time with the device. Moreover, the rated power (0.5W) is
sufficiently small to allow a power supply from a lightweight power source, or
directly from an USB port for example.
'''2004: Prehistoric time.'''
First prototype of StimTac used a free stator of an Ultrasonic Motor called USR60. This ring shaped resonator can provide 3µm vibrations at 40kHz. A plastic tape was bonded to level the touched surface, and eliminate the effect of the teeth machined on the original stator. A Linear Variable Differential Transformer (LVDT) was used to detect fingertip's position. This solution wasn't optimal: it's one dimension, with contact, and doesn't measure touch area's position acurately.
[[<<]]
%lframe height=200px% Attach:proto1.jpg | ''2007: made at the lab''
'''2007: First prototypes made at the lab.'''
The idea of StimTac was to produce a tactile device which can render good tactile stimulation, and which can be as small as possible in the same time. « Squeeze film effect » was found to be the interaction process between the vibrating plate and the fingertip. A specific prototype was then manufactured. The design results in a plate, on which a stationary wave propagates. Width and length have been chosen in order to favour squeeze film.
[[<<]]
%rframe height=200px% Attach:proto2.jpg | ''2008: Stimtac becomes a portable tactile stimulator''
'''2008: A portable tactile stimulator.'''
To operate, Stimtac need an accurate finger position sensor.In order to remove the LVDT, a custom-made optical sensor is thus used to locate the user’s finger. The sensor was built from two white LEDs, a set of mirrors and a linear 200 dpi CCD array. An on-board DSP computes the centroids of two shadow images created by the user’s finger and sends them on a serial line as absolute (x; y) coordinates at a rate of 120 Hz. The final resolution
of the sensor is 170 dpi due to optical constraints and post-treatments.
[[<<]]
%lframe height=200px% Attach:proto3.jpg | ''2010: improvement in power consumption''
'''2010: Stimtac is thin, lightweight and sobre.'''
A more convenient design of Stimtac could cut the power losses
down by 90%. Consequently, the tactile plate doesn't get warm, allowing the
user to play a long time with the device. Moreover, the rated power (0.5W) is
sufficiently small to allow a power supply from a lightweight power source, or
directly from an USB port for example.
May 20, 2011, at 04:45 PM
by -
Changed line 32 from:
At the begining, prototypes were not as compact and lightweight as today. Discover in this [[http://www.lifl.fr/mint/pmwiki.php?n=gallery | gallery]] the ancestors of the new tactile display
to:
At the begining, prototypes were not as compact and lightweight as today. Discover in this [[http://www.lifl.fr/mint/pmwiki.php?n=Stimtac.Gallery | gallery]] the ancestors of the new tactile display
May 20, 2011, at 04:44 PM
by -
Changed line 32 from:
At the begining, prototypes were not as compact and lightweight as today. Discover in this [[http://www.lifl.fr/mint/pmwiki.php?n=gallery]] the ancestors of the new tactile display
to:
At the begining, prototypes were not as compact and lightweight as today. Discover in this [[http://www.lifl.fr/mint/pmwiki.php?n=gallery | gallery]] the ancestors of the new tactile display
May 20, 2011, at 04:43 PM
by -
Changed line 32 from:
At the begining, prototypes were not as compact and lightweight as today. Discover in this [[gallery]] the ancestors of the new tactile display
to:
At the begining, prototypes were not as compact and lightweight as today. Discover in this [[http://www.lifl.fr/mint/pmwiki.php?n=gallery]] the ancestors of the new tactile display
May 12, 2011, at 05:04 PM
by -
Changed lines 17-18 from:
Computer environments become richer of outstanding output devices; while visual or auditive devices are common, the use of force feedback is becoming more widespread and helps users to interact with computer applications. However, a specific stimulation of the finger pulp is not often provided by those interfaces yet. Touch felling is thus missing, so that there's a lack of realism and applications don't take profit of the tactile channel. So there's a need for a tactile stimulator sufficiently small to be laid next to a computer desktop, but sufficiently realistic to simulate different surface textures.
to:
Computer environments become richer of outstanding output devices; while visual or auditive devices are common, the use of force feedback is becoming more widespread and helps users to interact with computer applications. However, a specific stimulation of the finger pulp is not often provided by those interfaces yet. Touch feeling is thus missing, so that there's a lack of realism and applications don't take profit of the tactile channel. So there's a need for a tactile stimulator sufficiently small to be laid next to a computer desktop, but sufficiently realistic to simulate different surface textures.
Changed lines 30-32 from:
'''previous devices'''
At the begining, prototypes was not as compact and lightweight as today. Discover in this [[gallery]] the ancestors of the new tactile display
At the begining, prototypes was not as compact and lightweight as today. Discover in this [[gallery]] the ancestors of the new tactile display
to:
'''Previous devices'''
At the begining, prototypes were not as compact and lightweight as today. Discover in this [[gallery]] the ancestors of the new tactile display
At the begining, prototypes were not as compact and lightweight as today. Discover in this [[gallery]] the ancestors of the new tactile display
May 12, 2011, at 04:53 PM
by -
Changed lines 96-97 from:
A Piezoelectric Tactile Display Using Travelling Lamb Wave, EUROHAPTICS 2006, pages. 567–570, 7-2006,
to:
A Piezoelectric Tactile Display Using Travelling Lamb Wave
EUROHAPTICS 2006, pages. 567–570, 7-2006,
EUROHAPTICS 2006, pages. 567–570, 7-2006,
Deleted line 104:
May 12, 2011, at 04:51 PM
by -
Changed lines 38-39 from:
'+''Phd Thesis''+'
to:
'+''Phd Thesis''+'
May 12, 2011, at 04:50 PM
by -
Changed lines 43-45 from:
to:
[[#patents]]
Added lines 50-52:
[[#articles]]
May 12, 2011, at 04:49 PM
by -
Added lines 100-101:
Dynamics of the lateral motion EP : a perceptual role.
Deleted line 111:
Changed lines 127-129 from:
Betty LEMAIRE-SEMAIL, Fraçois Martinot, Frédéric GIRAUD, Patricia Plénacoste, Karim Talbi, CH. Chaillou, Ph. Pernod
Dynamics of the lateral motion EP : a perceptual role.
Dynamics of the lateral motion EP : a perceptual role.
to:
Betty LEMAIRE-SEMAIL, Fraçois Martinot, Frédéric GIRAUD, Patricia Plénacoste, Karim Talbi, CH. Chaillou, Ph. Pernod
May 12, 2011, at 04:49 PM
by -
Added lines 9-11:
* [[#phd | PhD Thesis]]
* [[#patents | Patents]]
* [[#articles | Articles]]
* [[#patents | Patents]]
* [[#articles | Articles]]
Added lines 36-45:
[[#phd]]
'+''Phd Thesis''+'
Melisande Biet
Conception et contrôle d'actionneurs électro-actifs dédiés à la stimulation tactile,
University Lille1 [[http://l2ep.univ-lille1.fr/fileupload/file/theses/BIET.pdf | URL]]
'+''Phd Thesis''+'
Melisande Biet
Conception et contrôle d'actionneurs électro-actifs dédiés à la stimulation tactile,
University Lille1 [[http://l2ep.univ-lille1.fr/fileupload/file/theses/BIET.pdf | URL]]
Changed line 93 from:
A Piezoelectric Tactile Display Using Travelling Lamb Wave, EUROHAPTICS 2006, pages. 567–570,, 7-2006,
to:
A Piezoelectric Tactile Display Using Travelling Lamb Wave, EUROHAPTICS 2006, pages. 567–570, 7-2006,
Changed lines 98-102 from:
Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS
Journée Française de Tribologie, Albi (France), 5-2010
Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS
Journée Française de Tribologie, Albi (France), 5-2010
Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
to:
Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Eurohaptics. 2006
François Martinot, Patricia Plénacoste, Betty Semail
Eurohaptics. 2006
François Martinot, Patricia Plénacoste, Betty Semail
Added lines 103-115:
Mechanical Responses of the Fingerpad and Distal Phalanx to Friction of a Grooved Surface : Effect of the Contact Angle
In Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR). 2006
François Martinot, Patricia Plénacoste and Christophe Chaillou.
The Influence of Surface Commensurability on Roughness Perception With a Bare Finger
In Eurohaptics. 2006
François Martinot.
ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS
Journée Française de Tribologie, Albi (France), 5-2010
Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
In Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR). 2006
François Martinot, Patricia Plénacoste and Christophe Chaillou.
The Influence of Surface Commensurability on Roughness Perception With a Bare Finger
In Eurohaptics. 2006
François Martinot.
ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS
Journée Française de Tribologie, Albi (France), 5-2010
Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
Added lines 127-128:
Dynamics of the lateral motion EP : a perceptual role.
May 12, 2011, at 04:31 PM
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Watch the video about stimtac: Attach:stimtac.mpg
to:
Watch the video about stimtac: [[Attach:stimtac.mpg | .MPG ]]
May 12, 2011, at 03:19 PM
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At the begining, prototypes was not as compact and lightweight as today. Discover in this [[gallery]] the ancestors of the new tactile display
May 12, 2011, at 03:12 PM
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Changed line 43 from:
Frédéric GIRAUD, Michel Amberg, Romuald Vanbelleghem, Betty LEMAIRE-SEMAIL
to:
Frédéric GIRAUD, Michel Amberg, Romuald Vanbelleghem, Betty LEMAIRE-SEMAIL [[http://portal.acm.org/citation.cfm?id=1893768 | URL]]
Changed lines 55-56 from:
Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
to:
Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL [[http://www.epjap.org/component/option,com_intuition/task,output/lang,en/ | URL]]
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Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
to:
Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL [[http://ieeexplore.ieee.org/iel5/58/4430010/04430060.pdf?tp=&arnumber=4430060&isnumber=4430010 | URL]]
May 12, 2011, at 03:08 PM
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Changed line 51 from:
Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
to:
Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL [[http://dx.doi.org/10.1016/j.sna.2010.05.001| URL ]]
May 12, 2011, at 03:06 PM
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Watch the video about stimtac: stimtac.mpg
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Watch the video about stimtac: Attach:stimtac.mpg
May 12, 2011, at 03:04 PM
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%25center%25 Attach:stimtac.mpg
to:
Watch the video about stimtac: stimtac.mpg
May 12, 2011, at 03:03 PM
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* [[#history | Hystory]]
to:
* [[#squeeze |How it works ]]
* [[#history | History]]
* [[#history | History]]
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[[#hystory]]
'''Hystory'''
to:
[[#squeeze]]
'''How it Works'''
[[#history]]
'''History'''
'''How it Works'''
[[#history]]
'''History'''
May 12, 2011, at 03:01 PM
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* [[#history | Hystory]]
* [[#device | Previous Devices]]
* [[#device | Previous Devices]]
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[[#hystory]]
'''Hystory'''
Discover the Stimtac's story
[[#device]]
'''previous devices'''
May 12, 2011, at 02:58 PM
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[[#publication]
to:
[[#publication]]
May 12, 2011, at 02:57 PM
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!! [[#contents]] Table of Contents
* [[#using | Beginner Topics for Creating/Editing Pages]]
* [[#intermed |Intermediate Editing Topics]]
* [[#struct | Wiki Structures: Organizing and Protecting Pages]]
* [[#admin | PmWiki Site Administration]]
** [[#install|Install]]
** [[#customise|Customise]]
** [[#troubleshoot|Troubleshoot]]
** [[#security|Security]]
* [[#development|Development]]
* [[#misc |About PmWiki]]
* [[#using | Beginner Topics for Creating/Editing Pages]]
* [[#intermed |Intermediate Editing Topics]]
* [[#struct | Wiki Structures: Organizing and Protecting Pages]]
* [[#admin | PmWiki Site Administration]]
** [[#install|Install]]
** [[#customise|Customise]]
** [[#troubleshoot|Troubleshoot]]
** [[#security|Security]]
* [[#development|Development]]
* [[#misc |About PmWiki]]
to:
!! [[#presentation| Presentation of Stimtac]]
!! [[#publication | Publications]]
!! [[#publication | Publications]]
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to:
[[#presentation]]
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[[#publication]
May 12, 2011, at 02:48 PM
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(:title Stimtac:)(:Summary:Presentation of Stimtac:)
>>rframe font-size:smaller<<
!! [[#contents]] Table of Contents
* [[#using | Beginner Topics for Creating/Editing Pages]]
* [[#intermed |Intermediate Editing Topics]]
* [[#struct | Wiki Structures: Organizing and Protecting Pages]]
* [[#admin | PmWiki Site Administration]]
** [[#install|Install]]
** [[#customise|Customise]]
** [[#troubleshoot|Troubleshoot]]
** [[#security|Security]]
* [[#development|Development]]
* [[#misc |About PmWiki]]
>><<
>>rframe font-size:smaller<<
!! [[#contents]] Table of Contents
* [[#using | Beginner Topics for Creating/Editing Pages]]
* [[#intermed |Intermediate Editing Topics]]
* [[#struct | Wiki Structures: Organizing and Protecting Pages]]
* [[#admin | PmWiki Site Administration]]
** [[#install|Install]]
** [[#customise|Customise]]
** [[#troubleshoot|Troubleshoot]]
** [[#security|Security]]
* [[#development|Development]]
* [[#misc |About PmWiki]]
>><<
May 12, 2011, at 02:27 PM
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%25center%25 Attach:stimtac.mpg
May 12, 2011, at 01:37 PM
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''Patents''
to:
'+''Patents''+'
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''Publications''
to:
'+''Publications''+'
May 12, 2011, at 01:35 PM
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Power consumption reduction of a controlled friction Tactile Plate Eurohaptics 2010, Amsterdam, 7-2010
to:
Power consumption reduction of a controlled friction Tactile Plate
Eurohaptics 2010 Amsterdam, 7-2010
Eurohaptics 2010 Amsterdam, 7-2010
Changed line 17 from:
Analysis of a New Haptic Display Coupling Tactile and Kinesthetic Feedback to Render Texture and Shape"
to:
Analysis of a New Haptic Display Coupling Tactile and Kinesthetic Feedback to Render Texture and Shape
Changed lines 21-25 from:
Geometrical optimization of an ultrasonic tactile plate for surface texture rendering, Sensors and Actuators: A Physical, Vol. 191, N°. 1-2, pages. 91-100, 6-2010, Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Implementation of tactile feedback by modifying the perceived friction, The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008 Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Squeeze film effect for the design of an ultrasonic tactile plate, IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Implementation of tactile feedback by modifying the perceived friction, The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008 Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Squeeze film effect for the design of an ultrasonic tactile plate, IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
to:
Geometrical optimization of an ultrasonic tactile plate for surface texture rendering
Sensors and Actuators: A Physical, Vol. 191, N°. 1-2, pages. 91-100, 6-2010
Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Implementation of tactile feedback by modifying the perceived friction
The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008
Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Squeeze film effect for the design of an ultrasonic tactile plate
IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007
Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Sensors and Actuators: A Physical, Vol. 191, N°. 1-2, pages. 91-100, 6-2010
Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Implementation of tactile feedback by modifying the perceived friction
The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008
Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Squeeze film effect for the design of an ultrasonic tactile plate
IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007
Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Changed line 33 from:
Dispositifs à frottement variable pour le retour tactile "
to:
Dispositifs à frottement variable pour le retour tactile
Changed lines 38-40 from:
Advances in the Development of a New Force-Feedback Tactile Device 11th international conference on new actuators (ACTUATOR’08), 6-2008 Frédéric GIRAUD, Mélisande Biet, Betty LEMAIRE-SEMAIL
to:
Advances in the Development of a New Force-Feedback Tactile Device
11th international conference on new actuators (ACTUATOR’08), 6-2008
Frédéric GIRAUD, Mélisande Biet, Betty LEMAIRE-SEMAIL
11th international conference on new actuators (ACTUATOR’08), 6-2008
Frédéric GIRAUD, Mélisande Biet, Betty LEMAIRE-SEMAIL
Changed lines 42-43 from:
Discrimination of Virtual Square Gratings by Dynamic Touch on Friction Based Tactile Displays, Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR), pages. 41 - 48, 3-2008,
to:
Discrimination of Virtual Square Gratings by Dynamic Touch on Friction Based Tactile Displays
Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR), pages. 41 - 48, 3-2008,
Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR), pages. 41 - 48, 3-2008,
Changed lines 46-48 from:
Using an ultrasonic transducer: Evidence for an anisotropic deprivation of frictional cues in microtexture perception, WorldHaptics, The Second Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environnment and Teleoperator Systems, pages. 385 - 390, 3-2007, Melisande BIET, Loïc BOULON, François MARTINOT, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
to:
Using an ultrasonic transducer: Evidence for an anisotropic deprivation of frictional cues in microtexture perception
WorldHaptics, The Second Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environnment and Teleoperator Systems, pages. 385 - 390, 3-2007
Melisande BIET, Loïc BOULON, François MARTINOT, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
WorldHaptics, The Second Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environnment and Teleoperator Systems, pages. 385 - 390, 3-2007
Melisande BIET, Loïc BOULON, François MARTINOT, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Changed lines 53-55 from:
NEW TACTILE DEVICES USING PIEZOELECTRIC ACTUATORS Actuator, 6-2006, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
to:
NEW TACTILE DEVICES USING PIEZOELECTRIC ACTUATORS
Actuator, 6-2006
Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Actuator, 6-2006
Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Changed lines 57-59 from:
ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS, Journée Française de Tribologie, Albi (France), 5-2010, Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
to:
ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS
Journée Française de Tribologie, Albi (France), 5-2010
Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
Journée Française de Tribologie, Albi (France), 5-2010
Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
Changed lines 61-63 from:
CONCEPTION D’UN STIMULATEUR TACTILE CESAM’07, ENSEEIHT, Toulouse, 6-7 Septembre 2007, 9-2007, Frédéric GIRAUD, Melisande BIET, Betty LEMAIRE-SEMAIL
Typologie des Technologies pour le Rendu Tactile, Journée scientifique internationale IRCICA, Lille, 3-2004
Typologie des Technologies pour le Rendu Tactile, Journée scientifique internationale IRCICA, Lille, 3-2004
to:
CONCEPTION D’UN STIMULATEUR TACTILE
CESAM’07, ENSEEIHT, Toulouse, 6-7 Septembre 2007, 9-2007
Frédéric GIRAUD, Melisande BIET, Betty LEMAIRE-SEMAIL
Typologie des Technologies pour le Rendu Tactile
Journée scientifique internationale IRCICA, Lille, 3-2004
CESAM’07, ENSEEIHT, Toulouse, 6-7 Septembre 2007, 9-2007
Frédéric GIRAUD, Melisande BIET, Betty LEMAIRE-SEMAIL
Typologie des Technologies pour le Rendu Tactile
Journée scientifique internationale IRCICA, Lille, 3-2004
Changed lines 69-70 from:
Touch analysis and tactile device design: an overview of STIMTAC project, Virtual Concept Biarritz, 11-2005
to:
Touch analysis and tactile device design: an overview of STIMTAC project
Virtual Concept Biarritz, 11-2005
Virtual Concept Biarritz, 11-2005
May 12, 2011, at 01:31 PM
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[1] Patent n°WO2008116980 (A1), publication date 2008-10-02, BIET MELISANDRE, GIRAUD FREDERIC, LEMAIRE SEMAIL BETTY
to:
Patent n°WO2008116980 (A1), publication date 2008-10-02, BIET MELISANDRE, GIRAUD FREDERIC, LEMAIRE SEMAIL BETTY
Changed lines 8-20 from:
Type : Revue internationale avec comité de lecture
[1] Geometrical optimization of an ultrasonic tactile plate for surface texture rendering, Sensors and Actuators: A Physical, Vol. 191, N°. 1-2, pages. 91-100, 6-2010, Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[2] Implementation of tactile feedback by modifying the perceived friction, The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008 Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[3] Squeeze film effect for the design of an ultrasonic tactile plate, IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[4] Dispositifs à frottement variable pour le retour tactile "
Sciences et Technologies pour le Handicap, editions Hermes, Vol. 2, N°. 2, pages. 115-129, 1-2008
Betty LEMAIRE-SEMAIL, Frédéric GIRAUD
[5] Efficacité et robustesse aux distracteurs d’un retour tactile pour faciliter le pointage.
[1] Geometrical optimization of an ultrasonic tactile plate for surface texture rendering, Sensors and Actuators: A Physical, Vol. 191, N°. 1-2, pages. 91-100, 6-2010, Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[2] Implementation of tactile feedback by modifying the perceived friction, The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008 Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[3] Squeeze film effect for the design of an ultrasonic tactile plate, IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[4] Dispositifs à frottement variable pour le retour tactile "
Sciences et Technologies pour le Handicap, editions Hermes, Vol. 2, N°. 2, pages. 115-129, 1-2008
Betty LEMAIRE-SEMAIL, Frédéric GIRAUD
[5] Efficacité et robustesse aux distracteurs d’un retour tactile pour faciliter le pointage.
to:
Efficacité et robustesse aux distracteurs d’un retour tactile pour faciliter le pointage.
Changed line 13 from:
[6] Power consumption reduction of a controlled friction Tactile Plate Eurohaptics 2010, Amsterdam, 7-2010
to:
Power consumption reduction of a controlled friction Tactile Plate Eurohaptics 2010, Amsterdam, 7-2010
Changed line 16 from:
[7] Analysis of a New Haptic Display Coupling Tactile and Kinesthetic Feedback to Render Texture and Shape"
to:
Analysis of a New Haptic Display Coupling Tactile and Kinesthetic Feedback to Render Texture and Shape"
Changed lines 18-29 from:
Tao ZENG, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL, Michel AMBERG
to:
Tao ZENG, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL, Michel AMBERG
Geometrical optimization of an ultrasonic tactile plate for surface texture rendering, Sensors and Actuators: A Physical, Vol. 191, N°. 1-2, pages. 91-100, 6-2010, Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Implementation of tactile feedback by modifying the perceived friction, The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008 Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Squeeze film effect for the design of an ultrasonic tactile plate, IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Dispositifs à frottement variable pour le retour tactile "
Sciences et Technologies pour le Handicap, editions Hermes, Vol. 2, N°. 2, pages. 115-129, 1-2008
Betty LEMAIRE-SEMAIL, Frédéric GIRAUD
Geometrical optimization of an ultrasonic tactile plate for surface texture rendering, Sensors and Actuators: A Physical, Vol. 191, N°. 1-2, pages. 91-100, 6-2010, Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Implementation of tactile feedback by modifying the perceived friction, The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008 Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Squeeze film effect for the design of an ultrasonic tactile plate, IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Dispositifs à frottement variable pour le retour tactile "
Sciences et Technologies pour le Handicap, editions Hermes, Vol. 2, N°. 2, pages. 115-129, 1-2008
Betty LEMAIRE-SEMAIL, Frédéric GIRAUD
Changed line 31 from:
[8] Advances in the Development of a New Force-Feedback Tactile Device 11th international conference on new actuators (ACTUATOR’08), 6-2008 Frédéric GIRAUD, Mélisande Biet, Betty LEMAIRE-SEMAIL
to:
Advances in the Development of a New Force-Feedback Tactile Device 11th international conference on new actuators (ACTUATOR’08), 6-2008 Frédéric GIRAUD, Mélisande Biet, Betty LEMAIRE-SEMAIL
Changed line 33 from:
[9] Discrimination of Virtual Square Gratings by Dynamic Touch on Friction Based Tactile Displays, Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR), pages. 41 - 48, 3-2008,
to:
Discrimination of Virtual Square Gratings by Dynamic Touch on Friction Based Tactile Displays, Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR), pages. 41 - 48, 3-2008,
Changed line 36 from:
[10] Using an ultrasonic transducer: Evidence for an anisotropic deprivation of frictional cues in microtexture perception, WorldHaptics, The Second Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environnment and Teleoperator Systems, pages. 385 - 390, 3-2007, Melisande BIET, Loïc BOULON, François MARTINOT, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
to:
Using an ultrasonic transducer: Evidence for an anisotropic deprivation of frictional cues in microtexture perception, WorldHaptics, The Second Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environnment and Teleoperator Systems, pages. 385 - 390, 3-2007, Melisande BIET, Loïc BOULON, François MARTINOT, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Changed line 38 from:
[11] A Piezoelectric Tactile Display Using Travelling Lamb Wave, EUROHAPTICS 2006, pages. 567–570,, 7-2006,
to:
A Piezoelectric Tactile Display Using Travelling Lamb Wave, EUROHAPTICS 2006, pages. 567–570,, 7-2006,
Changed line 41 from:
[12] NEW TACTILE DEVICES USING PIEZOELECTRIC ACTUATORS Actuator, 6-2006, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
to:
NEW TACTILE DEVICES USING PIEZOELECTRIC ACTUATORS Actuator, 6-2006, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
Changed line 43 from:
[13] ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS, Journée Française de Tribologie, Albi (France), 5-2010, Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
to:
ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS, Journée Française de Tribologie, Albi (France), 5-2010, Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
Changed lines 45-47 from:
[14] CONCEPTION D’UN STIMULATEUR TACTILE CESAM’07, ENSEEIHT, Toulouse, 6-7 Septembre 2007, 9-2007, Frédéric GIRAUD, Melisande BIET, Betty LEMAIRE-SEMAIL
[15] Typologie des Technologies pour le Rendu Tactile, Journée scientifique internationale IRCICA, Lille, 3-2004
[15] Typologie des Technologies pour le Rendu Tactile, Journée scientifique internationale IRCICA, Lille, 3-2004
to:
CONCEPTION D’UN STIMULATEUR TACTILE CESAM’07, ENSEEIHT, Toulouse, 6-7 Septembre 2007, 9-2007, Frédéric GIRAUD, Melisande BIET, Betty LEMAIRE-SEMAIL
Typologie des Technologies pour le Rendu Tactile, Journée scientifique internationale IRCICA, Lille, 3-2004
Typologie des Technologies pour le Rendu Tactile, Journée scientifique internationale IRCICA, Lille, 3-2004
Changed line 50 from:
[16] Touch analysis and tactile device design: an overview of STIMTAC project, Virtual Concept Biarritz, 11-2005
to:
Touch analysis and tactile device design: an overview of STIMTAC project, Virtual Concept Biarritz, 11-2005
May 12, 2011, at 01:29 PM
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Computer environments become richer of outstanding output devices; while visual or auditive devices are common, the use of force feedback is becoming more widespread and helps users to interact with computer applications. However, a specific stimulation of the finger pulp is not often provided by those interfaces yet. Touch felling is thus missing, so that there's a lack of realism and applications don't take profit of the tactile channel. So there's a need for a tactile stimulator sufficiently small to be laid next to a computer desktop, but sufficiently realistic to simulate different surface textures.
to:
Computer environments become richer of outstanding output devices; while visual or auditive devices are common, the use of force feedback is becoming more widespread and helps users to interact with computer applications. However, a specific stimulation of the finger pulp is not often provided by those interfaces yet. Touch felling is thus missing, so that there's a lack of realism and applications don't take profit of the tactile channel. So there's a need for a tactile stimulator sufficiently small to be laid next to a computer desktop, but sufficiently realistic to simulate different surface textures.
''Patents''
[1] Patent n°WO2008116980 (A1), publication date 2008-10-02, BIET MELISANDRE, GIRAUD FREDERIC, LEMAIRE SEMAIL BETTY
''Publications''
Type : Revue internationale avec comité de lecture
[1] Geometrical optimization of an ultrasonic tactile plate for surface texture rendering, Sensors and Actuators: A Physical, Vol. 191, N°. 1-2, pages. 91-100, 6-2010, Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[2] Implementation of tactile feedback by modifying the perceived friction, The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008 Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[3] Squeeze film effect for the design of an ultrasonic tactile plate, IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[4] Dispositifs à frottement variable pour le retour tactile "
Sciences et Technologies pour le Handicap, editions Hermes, Vol. 2, N°. 2, pages. 115-129, 1-2008
Betty LEMAIRE-SEMAIL, Frédéric GIRAUD
[5] Efficacité et robustesse aux distracteurs d’un retour tactile pour faciliter le pointage.
22ième conférence sur l’interaction Homme-Machine (IHM 2010), ACM Press, pages. 25-32, 9-2010
Géry Casiez, Nicolas Roussel, Romuald Van Belleghem, Frédéric GIRAUD
[6] Power consumption reduction of a controlled friction Tactile Plate Eurohaptics 2010, Amsterdam, 7-2010
Frédéric GIRAUD, Michel Amberg, Romuald Vanbelleghem, Betty LEMAIRE-SEMAIL
[7] Analysis of a New Haptic Display Coupling Tactile and Kinesthetic Feedback to Render Texture and Shape"
EuroHaptic2010, Vol. 6192, N°. 2, pages. 87-93, ISBN. 10.1007/978-3-642-14075-4_13, 7-2010,
Tao ZENG, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL, Michel AMBERG
[8] Advances in the Development of a New Force-Feedback Tactile Device 11th international conference on new actuators (ACTUATOR’08), 6-2008 Frédéric GIRAUD, Mélisande Biet, Betty LEMAIRE-SEMAIL
[9] Discrimination of Virtual Square Gratings by Dynamic Touch on Friction Based Tactile Displays, Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR), pages. 41 - 48, 3-2008,
Melisande BIET, Géry CASIEZ, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[10] Using an ultrasonic transducer: Evidence for an anisotropic deprivation of frictional cues in microtexture perception, WorldHaptics, The Second Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environnment and Teleoperator Systems, pages. 385 - 390, 3-2007, Melisande BIET, Loïc BOULON, François MARTINOT, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[11] A Piezoelectric Tactile Display Using Travelling Lamb Wave, EUROHAPTICS 2006, pages. 567–570,, 7-2006,
Melisande BIET, Frédéric GIRAUD, François MARTINOT, Betty LEMAIRE-SEMAIL
[12] NEW TACTILE DEVICES USING PIEZOELECTRIC ACTUATORS Actuator, 6-2006, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[13] ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS, Journée Française de Tribologie, Albi (France), 5-2010, Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
[14] CONCEPTION D’UN STIMULATEUR TACTILE CESAM’07, ENSEEIHT, Toulouse, 6-7 Septembre 2007, 9-2007, Frédéric GIRAUD, Melisande BIET, Betty LEMAIRE-SEMAIL
[15] Typologie des Technologies pour le Rendu Tactile, Journée scientifique internationale IRCICA, Lille, 3-2004
Frédéric GIRAUD, François MARTINOT
[16] Touch analysis and tactile device design: an overview of STIMTAC project, Virtual Concept Biarritz, 11-2005
Betty LEMAIRE-SEMAIL, Fraçois Martinot, Frédéric GIRAUD, Patricia Plénacoste, Karim Talbi, CH. Chaillou, Ph. Pernod
''Patents''
[1] Patent n°WO2008116980 (A1), publication date 2008-10-02, BIET MELISANDRE, GIRAUD FREDERIC, LEMAIRE SEMAIL BETTY
''Publications''
Type : Revue internationale avec comité de lecture
[1] Geometrical optimization of an ultrasonic tactile plate for surface texture rendering, Sensors and Actuators: A Physical, Vol. 191, N°. 1-2, pages. 91-100, 6-2010, Peter Sergeant, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[2] Implementation of tactile feedback by modifying the perceived friction, The European Physical Journal - Applied Physics, Vol. 43, N°. 1, pages. 123-135, 7-2008 Mélisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[3] Squeeze film effect for the design of an ultrasonic tactile plate, IEEE Transactions on Ultrasonic, Ferroelectric and Frequency Control, Vol. 54, N°. 12, pages. 2678 - 2688, 12-2007, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[4] Dispositifs à frottement variable pour le retour tactile "
Sciences et Technologies pour le Handicap, editions Hermes, Vol. 2, N°. 2, pages. 115-129, 1-2008
Betty LEMAIRE-SEMAIL, Frédéric GIRAUD
[5] Efficacité et robustesse aux distracteurs d’un retour tactile pour faciliter le pointage.
22ième conférence sur l’interaction Homme-Machine (IHM 2010), ACM Press, pages. 25-32, 9-2010
Géry Casiez, Nicolas Roussel, Romuald Van Belleghem, Frédéric GIRAUD
[6] Power consumption reduction of a controlled friction Tactile Plate Eurohaptics 2010, Amsterdam, 7-2010
Frédéric GIRAUD, Michel Amberg, Romuald Vanbelleghem, Betty LEMAIRE-SEMAIL
[7] Analysis of a New Haptic Display Coupling Tactile and Kinesthetic Feedback to Render Texture and Shape"
EuroHaptic2010, Vol. 6192, N°. 2, pages. 87-93, ISBN. 10.1007/978-3-642-14075-4_13, 7-2010,
Tao ZENG, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL, Michel AMBERG
[8] Advances in the Development of a New Force-Feedback Tactile Device 11th international conference on new actuators (ACTUATOR’08), 6-2008 Frédéric GIRAUD, Mélisande Biet, Betty LEMAIRE-SEMAIL
[9] Discrimination of Virtual Square Gratings by Dynamic Touch on Friction Based Tactile Displays, Haptic Interfaces for Virtual Environment and Teleoperator Systems (part of IEEE-VR), pages. 41 - 48, 3-2008,
Melisande BIET, Géry CASIEZ, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[10] Using an ultrasonic transducer: Evidence for an anisotropic deprivation of frictional cues in microtexture perception, WorldHaptics, The Second Joint Eurohaptics Conference and Symposium on Haptic Interfaces for Virtual Environnment and Teleoperator Systems, pages. 385 - 390, 3-2007, Melisande BIET, Loïc BOULON, François MARTINOT, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[11] A Piezoelectric Tactile Display Using Travelling Lamb Wave, EUROHAPTICS 2006, pages. 567–570,, 7-2006,
Melisande BIET, Frédéric GIRAUD, François MARTINOT, Betty LEMAIRE-SEMAIL
[12] NEW TACTILE DEVICES USING PIEZOELECTRIC ACTUATORS Actuator, 6-2006, Melisande BIET, Frédéric GIRAUD, Betty LEMAIRE-SEMAIL
[13] ANALYSE DU TOUCHER ET SIMULATION DE SURFACES FIBREUSES ANISOTROPES A L’AIDE D’UN EFFECTEUR : EXEMPLE DU VELOURS, Journée Française de Tribologie, Albi (France), 5-2010, Marie-Ange BUENO, Frédéric GIRAUD, R. BOCQUET, Betty LEMAIRE-SEMAIL, M. TOURLONIAS, R.ROSSI, Michel AMBERG
[14] CONCEPTION D’UN STIMULATEUR TACTILE CESAM’07, ENSEEIHT, Toulouse, 6-7 Septembre 2007, 9-2007, Frédéric GIRAUD, Melisande BIET, Betty LEMAIRE-SEMAIL
[15] Typologie des Technologies pour le Rendu Tactile, Journée scientifique internationale IRCICA, Lille, 3-2004
Frédéric GIRAUD, François MARTINOT
[16] Touch analysis and tactile device design: an overview of STIMTAC project, Virtual Concept Biarritz, 11-2005
Betty LEMAIRE-SEMAIL, Fraçois Martinot, Frédéric GIRAUD, Patricia Plénacoste, Karim Talbi, CH. Chaillou, Ph. Pernod
May 12, 2011, at 01:13 PM
by -
Added lines 1-2:
'''Stimtac is a touchPad like tactile display'''
Computer environments become richer of outstanding output devices; while visual or auditive devices are common, the use of force feedback is becoming more widespread and helps users to interact with computer applications. However, a specific stimulation of the finger pulp is not often provided by those interfaces yet. Touch felling is thus missing, so that there's a lack of realism and applications don't take profit of the tactile channel. So there's a need for a tactile stimulator sufficiently small to be laid next to a computer desktop, but sufficiently realistic to simulate different surface textures.
Computer environments become richer of outstanding output devices; while visual or auditive devices are common, the use of force feedback is becoming more widespread and helps users to interact with computer applications. However, a specific stimulation of the finger pulp is not often provided by those interfaces yet. Touch felling is thus missing, so that there's a lack of realism and applications don't take profit of the tactile channel. So there's a need for a tactile stimulator sufficiently small to be laid next to a computer desktop, but sufficiently realistic to simulate different surface textures.