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DUKAS_31293043_POL
Yoga transforms lives of Kenyans
March 28, 2013 - Nairobi, Kenya: Yoga is taught to special needs students at Dagoretti Children's Center. The Africa Yoga Project and volunteer teachers, led by Sharon Moon, a Jois fellow, teach yoga to handicapped, autistic and deaf children as part of the outreach program that seeks to provide free yoga classes across Nairobi to marginalized communities. Each week 70 yoga teachers find their way into prisons, special needs schools, social centers for the disabled and into the shanty towns to offer free yoga classes to Kenya's most marginalized populations. Most of the teachers began lives among the people they now serve. The teachers, most born into the grinding poverty of Nairobi's slums, have been trained and offered teaching jobs with Africa Yoga Project, a charity organization. Africa Yoga Project was founded by American Yoga teacher Paige Elenson after a Safari to Kenya with her parents. She befriended a group of acrobats and offered a few lessons in yoga. The acrobats invited her back for more. She came back to teach and stayed to found the organization.Africa Yoga project continues to train Kenyan and other African yoga teachers. This year they held the first ever international teacher training session where American and Canadian students studied side by side with Students from Congo, Rwanda, Tanzania, Ethiopia, Uganda and South Africa. Elenson predicts that in addition to changing lives a blossoming yoga culture will have an economic impact on East Africa in the years to come. That transformation is already apparent in the lives of the teachers, formerly unemployed youth, who now earn a living teaching yoga across the city. (Brendan Bannon / Polaris) (FOTO:DUKAS/POLARIS)
DUKAS/POLARIS -
DUKAS_31293031_POL
Yoga transforms lives of Kenyans
March 28, 2013 - Nairobi, Kenya: A young boy demonstrated his strength to the amusement of his peers. Yoga is taught to special needs students at Dagoretti Children's Center. Africa Yoga Project and volunteer teachers led by Sharon Moon a Jois fellow, teach yoga to handicapped, autistic and deaf children as part of the outreach program that seeks to provide free yoga classes across Nairobi to marginalized communities. Each week 70 yoga teachers find their way into prisons, special needs schools, social centers for the disabled and into the shanty towns to offer free yoga classes to Kenya's most marginalized populations. Most of the teachers began lives among the people they now serve. The teachers, most born into the grinding poverty of Nairobi's slums, have been trained and offered teaching jobs with Africa Yoga Project, a charity organization. Africa Yoga Project was founded by American Yoga teacher Paige Elenson after a Safari to Kenya with her parents. She befriended a group of acrobats and offered a few lessons in yoga. The acrobats invited her back for more. She came back to teach and stayed to found the organization.Africa Yoga project continues to train Kenyan and other African yoga teachers. This year they held the first ever international teacher training session where American and Canadian students studied side by side with Students from Congo, Rwanda, Tanzania, Ethiopia, Uganda and South Africa. Elenson predicts that in addition to changing lives a blossoming yoga culture will have an economic impact on East Africa in the years to come. That transformation is already apparent in the lives of the teachers, formerly unemployed youth, who now earn a living teaching yoga across the city. (Brendan Bannon / Polaris) (FOTO:DUKAS/POLARIS)
DUKAS/POLARIS -
DUKAS_28749491_REX
Prince Harry visit to Maseru District, Lesotho - 27 Feb 2013
Mandatory Credit: Photo by Tim Rooke / Rex Features (2177317a)
Prince Harry - visit to the Kannanel Centre for the Deaf
Prince Harry visit to Maseru District, Lesotho - 27 Feb 2013
The Kananelo Centre for the Deaf strives to be a self-sustaining facility, which provides quality education and living standards for students with special needs. This is achieved by providing students with academic, social, emotional, spiritual opportunities as well as active participation of the Ha Buasono community. The centre provides 55 deaf children between the ages of 5-18 years with primary education and vocational training in a boarding school setting in which the national curriculum is taught in sign language.
(FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_184974163_EYE
Chelsea Flower Show in London, UK.
19/05/2025. London, United Kingdom.
Model and dancer Tasha Ghouri at the Chelsea Flower Show in London.
Picture by Stephen Lock / i-Images / eyevine
Contact eyevine for more information about using this image:
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(FOTO: DUKAS/EYEVINE)
©2025 Stephen Lock / i-Images -
DUKAS_184974238_EYE
Chelsea Flower Show in London, UK.
19/05/2025. London, United Kingdom.
Model and dancer Tasha Ghouri at the Chelsea Flower Show in London.
Picture by Stephen Lock / i-Images / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
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(FOTO: DUKAS/EYEVINE)
©2025 Stephen Lock / i-Images -
DUKAS_184974210_EYE
Chelsea Flower Show in London, UK.
19/05/2025. London, United Kingdom.
Model and dancer Tasha Ghouri at the Chelsea Flower Show in London.
Picture by Stephen Lock / i-Images / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
©2025 Stephen Lock / i-Images -
DUKAS_184974212_EYE
Chelsea Flower Show in London, UK.
19/05/2025. London, United Kingdom.
Model and dancer Tasha Ghouri at the Chelsea Flower Show in London.
Picture by Stephen Lock / i-Images / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com
(FOTO: DUKAS/EYEVINE)
©2025 Stephen Lock / i-Images -
DUKAS_184968417_POL
Chelsea Flower Show
Image Licensed to i-Images / Polaris) Picture Agency. 19/05/2025. London, United Kingdom: Model and dancer Tasha Ghouri at the Chelsea Flower Show in London. (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Stephen Lock / i-Images -
DUKAS_184967888_POL
Chelsea Flower Show
Image Licensed to i-Images / Polaris) Picture Agency. 19/05/2025. London, United Kingdom: Model and dancer Tasha Ghouri at the Chelsea Flower Show in London. (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Stephen Lock / i-Images -
DUKAS_184967882_POL
Chelsea Flower Show
Image Licensed to i-Images / Polaris) Picture Agency. 19/05/2025. London, United Kingdom: Model and dancer Tasha Ghouri at the Chelsea Flower Show in London. (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Stephen Lock / i-Images -
DUKAS_184967868_POL
Chelsea Flower Show
Image Licensed to i-Images / Polaris) Picture Agency. 19/05/2025. London, United Kingdom: Model and dancer Tasha Ghouri at the Chelsea Flower Show in London. (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Stephen Lock / i-Images -
DUKAS_184967864_POL
Chelsea Flower Show
Image Licensed to i-Images / Polaris) Picture Agency. 19/05/2025. London, United Kingdom: Model and dancer Tasha Ghouri at the Chelsea Flower Show in London. (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2025 Stephen Lock / i-Images -
DUKAS_182715318_FER
AI-powered ring coverts sign language for the deaf into text
Ferrari Press Agency
Sign language 1
Ref 16652
20/03/2025
See Ferrari text
Pictures must credit: Cornell University
A wearable ring equipped with artificial intelligence that converts sign language into texts for smartphones and computers has been developed by researchers.
The device, named SpellRing, can continuously and in real time track fingerspelling and will help deaf people to better communicate.
The ring is powered by what researchers from three US universities who combined on the project call micro-sonar technology.
Users put the wearable that comes with a microphone and speaker, on their thumb.
Together, they send and receive inaudible sound waves that track the wearer’s hand and finger movements.
A mini-gyroscope tracks the hand’s motion.
All of these are inside a 3D-printed ring and casing said to be no bigger than a standard U.S. 25 cent coin.
After that, a deep-learning algorithm processes the sonar images and predicts the finger-spelled letters in real time.
The team, from Cornell, Carnegie Mellon and Stony Brook universities, tested it by asking 20 experienced and novice signers to finger spell a total of more than 20,000 words of varying lengths.
The researchers said the translated text accuracy rate was between 82 and 92 percent, depending on the difficulty of words.
OPS: The prototype SpellRing for converting sign language into text.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_182715317_FER
AI-powered ring coverts sign language for the deaf into text
Ferrari Press Agency
Sign language 1
Ref 16652
20/03/2025
See Ferrari text
Pictures must credit: Cornell University
A wearable ring equipped with artificial intelligence that converts sign language into texts for smartphones and computers has been developed by researchers.
The device, named SpellRing, can continuously and in real time track fingerspelling and will help deaf people to better communicate.
The ring is powered by what researchers from three US universities who combined on the project call micro-sonar technology.
Users put the wearable that comes with a microphone and speaker, on their thumb.
Together, they send and receive inaudible sound waves that track the wearer’s hand and finger movements.
A mini-gyroscope tracks the hand’s motion.
All of these are inside a 3D-printed ring and casing said to be no bigger than a standard U.S. 25 cent coin.
After that, a deep-learning algorithm processes the sonar images and predicts the finger-spelled letters in real time.
The team, from Cornell, Carnegie Mellon and Stony Brook universities, tested it by asking 20 experienced and novice signers to finger spell a total of more than 20,000 words of varying lengths.
The researchers said the translated text accuracy rate was between 82 and 92 percent, depending on the difficulty of words.
OPS: The prototype SpellRing for converting sign language into text.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_182715316_FER
AI-powered ring coverts sign language for the deaf into text
Ferrari Press Agency
Sign language 1
Ref 16652
20/03/2025
See Ferrari text
Pictures must credit: Cornell University
A wearable ring equipped with artificial intelligence that converts sign language into texts for smartphones and computers has been developed by researchers.
The device, named SpellRing, can continuously and in real time track fingerspelling and will help deaf people to better communicate.
The ring is powered by what researchers from three US universities who combined on the project call micro-sonar technology.
Users put the wearable that comes with a microphone and speaker, on their thumb.
Together, they send and receive inaudible sound waves that track the wearer’s hand and finger movements.
A mini-gyroscope tracks the hand’s motion.
All of these are inside a 3D-printed ring and casing said to be no bigger than a standard U.S. 25 cent coin.
After that, a deep-learning algorithm processes the sonar images and predicts the finger-spelled letters in real time.
The team, from Cornell, Carnegie Mellon and Stony Brook universities, tested it by asking 20 experienced and novice signers to finger spell a total of more than 20,000 words of varying lengths.
The researchers said the translated text accuracy rate was between 82 and 92 percent, depending on the difficulty of words.
OPS: The prototype SpellRing for converting sign language into text.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_182715315_FER
AI-powered ring coverts sign language for the deaf into text
Ferrari Press Agency
Sign language 1
Ref 16652
20/03/2025
See Ferrari text
Pictures must credit: Cornell University
A wearable ring equipped with artificial intelligence that converts sign language into texts for smartphones and computers has been developed by researchers.
The device, named SpellRing, can continuously and in real time track fingerspelling and will help deaf people to better communicate.
The ring is powered by what researchers from three US universities who combined on the project call micro-sonar technology.
Users put the wearable that comes with a microphone and speaker, on their thumb.
Together, they send and receive inaudible sound waves that track the wearer’s hand and finger movements.
A mini-gyroscope tracks the hand’s motion.
All of these are inside a 3D-printed ring and casing said to be no bigger than a standard U.S. 25 cent coin.
After that, a deep-learning algorithm processes the sonar images and predicts the finger-spelled letters in real time.
The team, from Cornell, Carnegie Mellon and Stony Brook universities, tested it by asking 20 experienced and novice signers to finger spell a total of more than 20,000 words of varying lengths.
The researchers said the translated text accuracy rate was between 82 and 92 percent, depending on the difficulty of words.
OPS: The prototype SpellRing for converting sign language into text.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_182715314_FER
AI-powered ring coverts sign language for the deaf into text
Ferrari Press Agency
Sign language 1
Ref 16652
20/03/2025
See Ferrari text
Pictures must credit: Cornell University
A wearable ring equipped with artificial intelligence that converts sign language into texts for smartphones and computers has been developed by researchers.
The device, named SpellRing, can continuously and in real time track fingerspelling and will help deaf people to better communicate.
The ring is powered by what researchers from three US universities who combined on the project call micro-sonar technology.
Users put the wearable that comes with a microphone and speaker, on their thumb.
Together, they send and receive inaudible sound waves that track the wearer’s hand and finger movements.
A mini-gyroscope tracks the hand’s motion.
All of these are inside a 3D-printed ring and casing said to be no bigger than a standard U.S. 25 cent coin.
After that, a deep-learning algorithm processes the sonar images and predicts the finger-spelled letters in real time.
The team, from Cornell, Carnegie Mellon and Stony Brook universities, tested it by asking 20 experienced and novice signers to finger spell a total of more than 20,000 words of varying lengths.
The researchers said the translated text accuracy rate was between 82 and 92 percent, depending on the difficulty of words.
OPS: The prototype SpellRing for converting sign language into text.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_182715313_FER
AI-powered ring coverts sign language for the deaf into text
Ferrari Press Agency
Sign language 1
Ref 16652
20/03/2025
See Ferrari text
Pictures must credit: Cornell University
A wearable ring equipped with artificial intelligence that converts sign language into texts for smartphones and computers has been developed by researchers.
The device, named SpellRing, can continuously and in real time track fingerspelling and will help deaf people to better communicate.
The ring is powered by what researchers from three US universities who combined on the project call micro-sonar technology.
Users put the wearable that comes with a microphone and speaker, on their thumb.
Together, they send and receive inaudible sound waves that track the wearer’s hand and finger movements.
A mini-gyroscope tracks the hand’s motion.
All of these are inside a 3D-printed ring and casing said to be no bigger than a standard U.S. 25 cent coin.
After that, a deep-learning algorithm processes the sonar images and predicts the finger-spelled letters in real time.
The team, from Cornell, Carnegie Mellon and Stony Brook universities, tested it by asking 20 experienced and novice signers to finger spell a total of more than 20,000 words of varying lengths.
The researchers said the translated text accuracy rate was between 82 and 92 percent, depending on the difficulty of words.
OPS: The prototype SpellRing for converting sign language into text.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_182715310_FER
AI-powered ring coverts sign language for the deaf into text
Ferrari Press Agency
Sign language 1
Ref 16652
20/03/2025
See Ferrari text
Pictures must credit: Cornell University
A wearable ring equipped with artificial intelligence that converts sign language into texts for smartphones and computers has been developed by researchers.
The device, named SpellRing, can continuously and in real time track fingerspelling and will help deaf people to better communicate.
The ring is powered by what researchers from three US universities who combined on the project call micro-sonar technology.
Users put the wearable that comes with a microphone and speaker, on their thumb.
Together, they send and receive inaudible sound waves that track the wearer’s hand and finger movements.
A mini-gyroscope tracks the hand’s motion.
All of these are inside a 3D-printed ring and casing said to be no bigger than a standard U.S. 25 cent coin.
After that, a deep-learning algorithm processes the sonar images and predicts the finger-spelled letters in real time.
The team, from Cornell, Carnegie Mellon and Stony Brook universities, tested it by asking 20 experienced and novice signers to finger spell a total of more than 20,000 words of varying lengths.
The researchers said the translated text accuracy rate was between 82 and 92 percent, depending on the difficulty of words.
OPS: The prototype SpellRing for converting sign language into text.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_182715309_FER
AI-powered ring coverts sign language for the deaf into text
Ferrari Press Agency
Sign language 1
Ref 16652
20/03/2025
See Ferrari text
Pictures must credit: Cornell University
A wearable ring equipped with artificial intelligence that converts sign language into texts for smartphones and computers has been developed by researchers.
The device, named SpellRing, can continuously and in real time track fingerspelling and will help deaf people to better communicate.
The ring is powered by what researchers from three US universities who combined on the project call micro-sonar technology.
Users put the wearable that comes with a microphone and speaker, on their thumb.
Together, they send and receive inaudible sound waves that track the wearer’s hand and finger movements.
A mini-gyroscope tracks the hand’s motion.
All of these are inside a 3D-printed ring and casing said to be no bigger than a standard U.S. 25 cent coin.
After that, a deep-learning algorithm processes the sonar images and predicts the finger-spelled letters in real time.
The team, from Cornell, Carnegie Mellon and Stony Brook universities, tested it by asking 20 experienced and novice signers to finger spell a total of more than 20,000 words of varying lengths.
The researchers said the translated text accuracy rate was between 82 and 92 percent, depending on the difficulty of words.
OPS: The prototype SpellRing for converting sign language into text.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_182715308_FER
AI-powered ring coverts sign language for the deaf into text
Ferrari Press Agency
Sign language 1
Ref 16652
20/03/2025
See Ferrari text
Pictures must credit: Cornell University
A wearable ring equipped with artificial intelligence that converts sign language into texts for smartphones and computers has been developed by researchers.
The device, named SpellRing, can continuously and in real time track fingerspelling and will help deaf people to better communicate.
The ring is powered by what researchers from three US universities who combined on the project call micro-sonar technology.
Users put the wearable that comes with a microphone and speaker, on their thumb.
Together, they send and receive inaudible sound waves that track the wearer’s hand and finger movements.
A mini-gyroscope tracks the hand’s motion.
All of these are inside a 3D-printed ring and casing said to be no bigger than a standard U.S. 25 cent coin.
After that, a deep-learning algorithm processes the sonar images and predicts the finger-spelled letters in real time.
The team, from Cornell, Carnegie Mellon and Stony Brook universities, tested it by asking 20 experienced and novice signers to finger spell a total of more than 20,000 words of varying lengths.
The researchers said the translated text accuracy rate was between 82 and 92 percent, depending on the difficulty of words.
OPS: The prototype SpellRing for converting sign language into text.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_178394876_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178394871_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178394870_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178394828_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178394825_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178394824_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178394821_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392677_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392675_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392622_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392575_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392540_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392537_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392532_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392467_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392464_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392460_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392391_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_178392312_POL
Investiture at Windsor Castle
Image Licensed to i-Images / Polaris) Picture Agency. 04/12/2024. London, United Kingdom: Rose Ayling-Ellis with her MBE after an Investiture at Windsor Castle, United Kingdom: (Stephen Lock / i-Images / Polaris) (FOTO:DUKAS/POLARIS)
©2024 Stephen Lock / i-Images -
DUKAS_173560267_EYE
'We need to be seen': Nadia Nadarajah on portraying Shakespeare's greatest heroines - as a deaf actor.
When Nadia Nadarajah takes the stage at Shakespeare's Globe Theatre from tonight as Cleopatra, she will fulfil a longheld dream: to show others how far you can go as 'a deaf brown woman who uses sign language and doesn't speak'
Nadia wears suit by lisou.co.uk; top by uk.maje.com; shoes by casadei.com; and jewellery by Phase
Amelia Troubridge / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com (FOTO: DUKAS/EYEVINE) -
DUKAS_173560266_EYE
'We need to be seen': Nadia Nadarajah on portraying Shakespeare's greatest heroines - as a deaf actor.
When Nadia Nadarajah takes the stage at Shakespeare's Globe Theatre from tonight as Cleopatra, she will fulfil a longheld dream: to show others how far you can go as 'a deaf brown woman who uses sign language and doesn't speak'
Nadia wears suit by lisou.co.uk; top by uk.maje.com; shoes by casadei.com; and jewellery by Phase
Amelia Troubridge / Guardian / eyevine
Contact eyevine for more information about using this image:
T: +44 (0) 20 8709 8709
E: info@eyevine.com
http://www.eyevine.com (FOTO: DUKAS/EYEVINE) -
DUKAS_159696234_FER
dukas 159696234 fer
Ferrari Press Agency
Haptic 1
Ref 15066
29/08/2023
See Ferrari text
Pictures must credit: Rice University
A fabric wearable device that “taps” a user’s wrist with pressurised air, silently helping them navigate to a destination could be a game changing aid for the blind.
It could also help deaf people unable to hear satellite navigation commands.
The wearable , in a simple arm sleeve, embeds most of its control system within the fabric itself, using air instead of electronics.
Visual and auditory cues like a flashing light on a dashboard or the ping of a new text message can effectively transmit information.
But many people are overwhelmed by such cues in their daily lives—and with too many notifications conveyed the same way, information can get lost in the clutter.
Touch-based stimuli known as haptics use sensations or cues based on pressure applied to the skin could be an alternative.
But devices that use haptics are rare since they usually require bulky hardware.
Now a team at the USA’s Rice University in Houston, Texas, has developed a lightweight comfortable wearable GPS device from textile materials that can be worn on a user’s arm.
OPS: The wearable sleeve developed at Rice University bwinf teasted in the lab by researcher Barclay Jumet (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_159696231_FER
dukas 159696231 fer
Ferrari Press Agency
Haptic 1
Ref 15066
29/08/2023
See Ferrari text
Pictures must credit: Rice University
A fabric wearable device that “taps” a user’s wrist with pressurised air, silently helping them navigate to a destination could be a game changing aid for the blind.
It could also help deaf people unable to hear satellite navigation commands.
The wearable , in a simple arm sleeve, embeds most of its control system within the fabric itself, using air instead of electronics.
Visual and auditory cues like a flashing light on a dashboard or the ping of a new text message can effectively transmit information.
But many people are overwhelmed by such cues in their daily lives—and with too many notifications conveyed the same way, information can get lost in the clutter.
Touch-based stimuli known as haptics use sensations or cues based on pressure applied to the skin could be an alternative.
But devices that use haptics are rare since they usually require bulky hardware.
Now a team at the USA’s Rice University in Houston, Texas, has developed a lightweight comfortable wearable GPS device from textile materials that can be worn on a user’s arm.
OPS: The wearable sleeve developed at Rice University on a GPS electric scooter ride test around the streets on Houston, Texas. (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_159696227_FER
dukas 159696227 fer
Ferrari Press Agency
Haptic 1
Ref 15066
29/08/2023
See Ferrari text
Pictures must credit: Rice University
A fabric wearable device that “taps” a user’s wrist with pressurised air, silently helping them navigate to a destination could be a game changing aid for the blind.
It could also help deaf people unable to hear satellite navigation commands.
The wearable , in a simple arm sleeve, embeds most of its control system within the fabric itself, using air instead of electronics.
Visual and auditory cues like a flashing light on a dashboard or the ping of a new text message can effectively transmit information.
But many people are overwhelmed by such cues in their daily lives—and with too many notifications conveyed the same way, information can get lost in the clutter.
Touch-based stimuli known as haptics use sensations or cues based on pressure applied to the skin could be an alternative.
But devices that use haptics are rare since they usually require bulky hardware.
Now a team at the USA’s Rice University in Houston, Texas, has developed a lightweight comfortable wearable GPS device from textile materials that can be worn on a user’s arm.
OPS: The wearable sleeve developed at Rice University ona GPS walking test around the streets on Houston, Texas. (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_159696226_FER
dukas 159696226 fer
Ferrari Press Agency
Haptic 1
Ref 15066
29/08/2023
See Ferrari text
Pictures must credit: Rice University
A fabric wearable device that “taps” a user’s wrist with pressurised air, silently helping them navigate to a destination could be a game changing aid for the blind.
It could also help deaf people unable to hear satellite navigation commands.
The wearable , in a simple arm sleeve, embeds most of its control system within the fabric itself, using air instead of electronics.
Visual and auditory cues like a flashing light on a dashboard or the ping of a new text message can effectively transmit information.
But many people are overwhelmed by such cues in their daily lives—and with too many notifications conveyed the same way, information can get lost in the clutter.
Touch-based stimuli known as haptics use sensations or cues based on pressure applied to the skin could be an alternative.
But devices that use haptics are rare since they usually require bulky hardware.
Now a team at the USA’s Rice University in Houston, Texas, has developed a lightweight comfortable wearable GPS device from textile materials that can be worn on a user’s arm.
OPS: The wearable sleeve developed at Rice University on a GPS electric scooter ride test around the streets on Houston, Texas. (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_159696225_FER
dukas 159696225 fer
Ferrari Press Agency
Haptic 1
Ref 15066
29/08/2023
See Ferrari text
Pictures must credit: Rice University
A fabric wearable device that “taps” a user’s wrist with pressurised air, silently helping them navigate to a destination could be a game changing aid for the blind.
It could also help deaf people unable to hear satellite navigation commands.
The wearable , in a simple arm sleeve, embeds most of its control system within the fabric itself, using air instead of electronics.
Visual and auditory cues like a flashing light on a dashboard or the ping of a new text message can effectively transmit information.
But many people are overwhelmed by such cues in their daily lives—and with too many notifications conveyed the same way, information can get lost in the clutter.
Touch-based stimuli known as haptics use sensations or cues based on pressure applied to the skin could be an alternative.
But devices that use haptics are rare since they usually require bulky hardware.
Now a team at the USA’s Rice University in Houston, Texas, has developed a lightweight comfortable wearable GPS device from textile materials that can be worn on a user’s arm.
OPS: The wearable sleeve developed at Rice University. Cells on the sleeve are inflated to give commands (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_159696221_FER
dukas 159696221 fer
Ferrari Press Agency
Haptic 1
Ref 15066
29/08/2023
See Ferrari text
Pictures must credit: Rice University
A fabric wearable device that “taps” a user’s wrist with pressurised air, silently helping them navigate to a destination could be a game changing aid for the blind.
It could also help deaf people unable to hear satellite navigation commands.
The wearable , in a simple arm sleeve, embeds most of its control system within the fabric itself, using air instead of electronics.
Visual and auditory cues like a flashing light on a dashboard or the ping of a new text message can effectively transmit information.
But many people are overwhelmed by such cues in their daily lives—and with too many notifications conveyed the same way, information can get lost in the clutter.
Touch-based stimuli known as haptics use sensations or cues based on pressure applied to the skin could be an alternative.
But devices that use haptics are rare since they usually require bulky hardware.
Now a team at the USA’s Rice University in Houston, Texas, has developed a lightweight comfortable wearable GPS device from textile materials that can be worn on a user’s arm.
OPS: The wearable sleeve developed at Rice University (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_159696215_FER
dukas 159696215 fer
Ferrari Press Agency
Haptic 1
Ref 15066
29/08/2023
See Ferrari text
Pictures must credit: Rice University
A fabric wearable device that “taps” a user’s wrist with pressurised air, silently helping them navigate to a destination could be a game changing aid for the blind.
It could also help deaf people unable to hear satellite navigation commands.
The wearable , in a simple arm sleeve, embeds most of its control system within the fabric itself, using air instead of electronics.
Visual and auditory cues like a flashing light on a dashboard or the ping of a new text message can effectively transmit information.
But many people are overwhelmed by such cues in their daily lives—and with too many notifications conveyed the same way, information can get lost in the clutter.
Touch-based stimuli known as haptics use sensations or cues based on pressure applied to the skin could be an alternative.
But devices that use haptics are rare since they usually require bulky hardware.
Now a team at the USA’s Rice University in Houston, Texas, has developed a lightweight comfortable wearable GPS device from textile materials that can be worn on a user’s arm.
OPS: The wearable sleeve developed at Rice University on a GPS electric scooter ride test around the streets on Houston, Texas. (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_159696213_FER
dukas 159696213 fer
Ferrari Press Agency
Haptic 1
Ref 15066
29/08/2023
See Ferrari text
Pictures must credit: Rice University
A fabric wearable device that “taps” a user’s wrist with pressurised air, silently helping them navigate to a destination could be a game changing aid for the blind.
It could also help deaf people unable to hear satellite navigation commands.
The wearable , in a simple arm sleeve, embeds most of its control system within the fabric itself, using air instead of electronics.
Visual and auditory cues like a flashing light on a dashboard or the ping of a new text message can effectively transmit information.
But many people are overwhelmed by such cues in their daily lives—and with too many notifications conveyed the same way, information can get lost in the clutter.
Touch-based stimuli known as haptics use sensations or cues based on pressure applied to the skin could be an alternative.
But devices that use haptics are rare since they usually require bulky hardware.
Now a team at the USA’s Rice University in Houston, Texas, has developed a lightweight comfortable wearable GPS device from textile materials that can be worn on a user’s arm.
OPS: The wearable sleeve developed at Rice University on a GPS electric scooter ride test around the streets on Houston, Texas. (FOTO: DUKAS/FERRARI PRESS) -
