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DUKAS_187786812_FER
Sensor monitors military health and battlefield hazards
Ferrari Press Agency
Sensor 1
Ref 17078
14/08/2025
See Ferrari pictures
Picture MUST credit: LifeLens Technologies
A sensor to monitor how well military fighters are coping on the battlefield has been developed.
The WARP sensor system by US company LifeLens is designed to give commanders live insight into a fighter’s health.
The chest-worn sensor is said to be capable of tracking vital signs and detecting dangerous gases or chemicals.
They are initially to be worn by the USA’s special forces which are the elite military units from the Army, Marine Corps, Navy, and Air Force.
WARP stands for Wearable All-hazard Remote-monitoring Program.
The tech is made up of a small adhesive node containing 25 miniature sensors.
Data flows to a fob-sized “gateway” that fuses inputs from the sensors, giving commanders a live view of an operator’s condition and nearby environmental hazards.
The system can integrate with a US system called the MRI Global’s Tactical Awareness Kit.
This is a software platform designed to enhance situational awareness for military personnel.
OPS:A case full of WARP chest worn sensors and fobs ready for de[loyment to a special forces unit.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_187786811_FER
Sensor monitors military health and battlefield hazards
Ferrari Press Agency
Sensor 1
Ref 17078
14/08/2025
See Ferrari pictures
Picture MUST credit: LifeLens Technologies
A sensor to monitor how well military fighters are coping on the battlefield has been developed.
The WARP sensor system by US company LifeLens is designed to give commanders live insight into a fighter’s health.
The chest-worn sensor is said to be capable of tracking vital signs and detecting dangerous gases or chemicals.
They are initially to be worn by the USA’s special forces which are the elite military units from the Army, Marine Corps, Navy, and Air Force.
WARP stands for Wearable All-hazard Remote-monitoring Program.
The tech is made up of a small adhesive node containing 25 miniature sensors.
Data flows to a fob-sized “gateway” that fuses inputs from the sensors, giving commanders a live view of an operator’s condition and nearby environmental hazards.
The system can integrate with a US system called the MRI Global’s Tactical Awareness Kit.
This is a software platform designed to enhance situational awareness for military personnel.
OPS:The WARP chest worn sensor data flows to a fob-sized “gateway” kept by the user
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_187786810_FER
Sensor monitors military health and battlefield hazards
Ferrari Press Agency
Sensor 1
Ref 17078
14/08/2025
See Ferrari pictures
Picture MUST credit: LifeLens Technologies
A sensor to monitor how well military fighters are coping on the battlefield has been developed.
The WARP sensor system by US company LifeLens is designed to give commanders live insight into a fighter’s health.
The chest-worn sensor is said to be capable of tracking vital signs and detecting dangerous gases or chemicals.
They are initially to be worn by the USA’s special forces which are the elite military units from the Army, Marine Corps, Navy, and Air Force.
WARP stands for Wearable All-hazard Remote-monitoring Program.
The tech is made up of a small adhesive node containing 25 miniature sensors.
Data flows to a fob-sized “gateway” that fuses inputs from the sensors, giving commanders a live view of an operator’s condition and nearby environmental hazards.
The system can integrate with a US system called the MRI Global’s Tactical Awareness Kit.
This is a software platform designed to enhance situational awareness for military personnel.
OPS:The WARP chest worn sensor
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUK10125029_004
FEATURE - Winzig: Der kleinste Bildsensor der Welt
Ferrari Press Agency
Ref 11051
Sensor 1
03/11/2019
See Ferrari text
Picture must credit: OmniVision
The world’s smallest image sensor that fits into a wafer-thin camera is able to take photos and videos inside the human body.It was created by US company OmniVision. The OV6948 unit has been declared the world's smallest commercially available image sensor by Guinness World Records. And the company has now squeezed it into a new camera module.The unit8 measures a mere 0.575 x 0.575 x 0.232 mm and has been installed in a complete camera module measuring 0.65 x 0.65 mm.It can be used in a 1-mm-diameter catheter or endoscope for 200 x 200 back-illuminated color images from inside a body for medical purposes.The chip also features 120-degree field of view, 3 to 30 mm focus range and the ability to capture video at up 30 frames per second.
OPS: The OVM6948 camera cube containing the OV6948 image sensor on a finger.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10125029_003
FEATURE - Winzig: Der kleinste Bildsensor der Welt
Ferrari Press Agency
Ref 11051
Sensor 1
03/11/2019
See Ferrari text
Picture must credit: OmniVision
The world’s smallest image sensor that fits into a wafer-thin camera is able to take photos and videos inside the human body.It was created by US company OmniVision. The OV6948 unit has been declared the world's smallest commercially available image sensor by Guinness World Records. And the company has now squeezed it into a new camera module.The unit8 measures a mere 0.575 x 0.575 x 0.232 mm and has been installed in a complete camera module measuring 0.65 x 0.65 mm.It can be used in a 1-mm-diameter catheter or endoscope for 200 x 200 back-illuminated color images from inside a body for medical purposes.The chip also features 120-degree field of view, 3 to 30 mm focus range and the ability to capture video at up 30 frames per second.
OPS: The OV6948 image sensor next to US cent
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10125029_002
FEATURE - Winzig: Der kleinste Bildsensor der Welt
Ferrari Press Agency
Ref 11051
Sensor 1
03/11/2019
See Ferrari text
Picture must credit: OmniVision
The world’s smallest image sensor that fits into a wafer-thin camera is able to take photos and videos inside the human body.It was created by US company OmniVision. The OV6948 unit has been declared the world's smallest commercially available image sensor by Guinness World Records. And the company has now squeezed it into a new camera module.The unit8 measures a mere 0.575 x 0.575 x 0.232 mm and has been installed in a complete camera module measuring 0.65 x 0.65 mm.It can be used in a 1-mm-diameter catheter or endoscope for 200 x 200 back-illuminated color images from inside a body for medical purposes.The chip also features 120-degree field of view, 3 to 30 mm focus range and the ability to capture video at up 30 frames per second.
OPS: The OV6948 image sensor next to a pencil tip.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10125029_001
FEATURE - Winzig: Der kleinste Bildsensor der Welt
Ferrari Press Agency
Ref 11051
Sensor 1
03/11/2019
See Ferrari text
Picture must credit: OmniVision
The world’s smallest image sensor that fits into a wafer-thin camera is able to take photos and videos inside the human body.It was created by US company OmniVision. The OV6948 unit has been declared the world's smallest commercially available image sensor by Guinness World Records. And the company has now squeezed it into a new camera module.The unit8 measures a mere 0.575 x 0.575 x 0.232 mm and has been installed in a complete camera module measuring 0.65 x 0.65 mm.It can be used in a 1-mm-diameter catheter or endoscope for 200 x 200 back-illuminated color images from inside a body for medical purposes.The chip also features 120-degree field of view, 3 to 30 mm focus range and the ability to capture video at up 30 frames per second.
OPS: The OV6948 image sensor next to a ruler and paperclip
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUKAS_108920254_EYE
Yemen: Aden's changing alliances erupt into four-year conflict's newest front. Fighting in the south between separatists and government forces points to why peace is even more elusive.
Yemen: Aden's changing alliances erupt into four-year conflict's newest front. Fighting in the south between separatists and government forces points to why peace is even more elusive. The civil war has become a devastating proxy conflict and the world’s worst humanitarian crisis. The Yemeni Civil War is an ongoing conflict that began in 2015 between two factions: the Abdrabbuh Mansur Hadi led Yemeni government and the Houthi armed movement, along with their supporters and allies. Both claim to constitute the official government of Yemen. Pictured: U.K. made cluster-bomb sensors, illegal under international law because of the indiscriminate harm caused by the included bomblets once they are released, are seen at the Bomb and Mine Clearance Centre (YMAC) in Sana'a, on 12 September, 2019.
© Achilleas Zavallis / 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)
© Guardian / eyevine. All Rights Reserved. -
DUK10075194_036
REPORTAGE - Mexiko: Leben mit dem Prader-Willi Syndrome
Jorge is prepped to undergo a polysomnographic examination at the Salvador Zubirán National Institute of Health Sciences and Nutrition in Mexico City, Mexico on May 31, 2017. Polysomnography (PSG), a type of sleep study, is a test used to diagnose sleep disorders. Sleep disturbance is common among patients with Prader-Willi syndrome, independent of age and weight. Jorge Antonio Moreno Gaytán, a 34-year-old Mexican man, lives with his parents in Puebla, Mexico. He was diagnosed with Prader-Willi syndrome at age seven. He weighs 136 kilos (300 pounds) and stands 152 centimeters (4 feet 12 inches). Jorge is in the process of getting bariatric surgery. As a teenager, he would pawn his siblings’ belongings in order to have money to buy food. He was also known to leave restaurants without paying. “Our worst enemy is hunger, it’s what will kill us”, Jorge says. He is now part of a sports team for people with disabilities. He has been in a relationship for 11 years with, Maria Guadalupe Pilar Saucedo Granda, known as “Lupita’, also diagnosed with Prader-Willi syndrome. Prader-Willi Syndrome (PWS) is a rare genetic disorder caused by an abnormality in chromosome 15. In newborns symptoms include weak muscle tone (hypotonia), poor appetite and slow development. In childhood the person experiences a sensation of constant hunger no matter how much he/she eats which often leads to obesity and Type 2 diabetes. There may also be mild to moderate intellectual impairment and behavioral problems. Physical characteristics include a narrow forehead, small hands and feet, short in stature, and light skin color. Prader-Willi syndrome has no known cure. However, with early diagnosis and treatment such as growth hormone therapy, the condition may improve. Strict food supervision is typically required. PWS affects an estimated 1 in 10,000 to 30,000 people worldwide. (Photo by Bénédicte Desrus/Sipa USA) *** Local Caption *** 21272652
(c) Dukas -
DUK10075194_012
REPORTAGE - Mexiko: Leben mit dem Prader-Willi Syndrome
Jorge lies on a hospital bed during a polysomnographic examination at the Salvador Zubirán National Institute of Health Sciences and Nutrition in Mexico City, Mexico on May 31, 2017. Polysomnography (PSG), a type of sleep study, is a test used to diagnose sleep disorders. Sleep disturbance is common among patients with Prader-Willi syndrome independent of age and weight. Jorge Antonio Moreno Gaytán, a 34-year-old Mexican man, lives with his parents in Puebla, Mexico. He was diagnosed with Prader-Willi syndrome at age seven. He weighs 136 kilos (300 pounds) and stands 152 centimeters (4 feet 12 inches). Jorge is in the process of getting bariatric surgery. As a teenager, he would pawn his siblings’ belongings in order to have money to buy food. He was also known to leave restaurants without paying. “Our worst enemy is hunger, it’s what will kill us”, Jorge says. He is now part of a sports team for people with disabilities. He has been in a relationship for 11 years with, Maria Guadalupe Pilar Saucedo Granda, known as “Lupita’, also diagnosed with Prader-Willi syndrome. Prader-Willi Syndrome (PWS) is a rare genetic disorder caused by an abnormality in chromosome 15. In newborns symptoms include weak muscle tone (hypotonia), poor appetite and slow development. In childhood the person experiences a sensation of constant hunger no matter how much he/she eats which often leads to obesity and Type 2 diabetes. There may also be mild to moderate intellectual impairment and behavioral problems. Physical characteristics include a narrow forehead, small hands and feet, short in stature, and light skin color. Prader-Willi syndrome has no known cure. However, with early diagnosis and treatment such as growth hormone therapy, the condition may improve. Strict food supervision is typically required. PWS affects an estimated 1 in 10,000 to 30,000 people worldwide. (Photo by Bénédicte Desrus/Sipa USA) *** Local Caption *** 21272648
(c) Dukas -
DUK10075194_008
REPORTAGE - Mexiko: Leben mit dem Prader-Willi Syndrome
Jorge is prepped to undergo a polysomnographic examination at the Salvador Zubirán National Institute of Health Sciences and Nutrition in Mexico City, Mexico on May 31, 2017. Polysomnography (PSG), a type of sleep study, is a test used to diagnose sleep disorders. Sleep disturbance is common among patients with Prader-Willi syndrome, independent of age and weight. Jorge Antonio Moreno Gaytán, a 34-year-old Mexican man, lives with his parents in Puebla, Mexico. He was diagnosed with Prader-Willi syndrome at age seven. He weighs 136 kilos (300 pounds) and stands 152 centimeters (4 feet 12 inches). Jorge is in the process of getting bariatric surgery. As a teenager, he would pawn his siblings’ belongings in order to have money to buy food. He was also known to leave restaurants without paying. “Our worst enemy is hunger, it’s what will kill us”, Jorge says. He is now part of a sports team for people with disabilities. He has been in a relationship for 11 years with, Maria Guadalupe Pilar Saucedo Granda, known as “Lupita’, also diagnosed with Prader-Willi syndrome. Prader-Willi Syndrome (PWS) is a rare genetic disorder caused by an abnormality in chromosome 15. In newborns symptoms include weak muscle tone (hypotonia), poor appetite and slow development. In childhood the person experiences a sensation of constant hunger no matter how much he/she eats which often leads to obesity and Type 2 diabetes. There may also be mild to moderate intellectual impairment and behavioral problems. Physical characteristics include a narrow forehead, small hands and feet, short in stature, and light skin color. Prader-Willi syndrome has no known cure. However, with early diagnosis and treatment such as growth hormone therapy, the condition may improve. Strict food supervision is typically required. PWS affects an estimated 1 in 10,000 to 30,000 people worldwide. (Photo by Bénédicte Desrus/Sipa USA) *** Local Caption *** 21272638
(c) Dukas -
DUK10075194_005
REPORTAGE - Mexiko: Leben mit dem Prader-Willi Syndrome
Jorge lies on a hospital bed during a polysomnographic examination at the Salvador Zubirán National Institute of Health Sciences and Nutrition in Mexico City, Mexico on May 31, 2017. Polysomnography (PSG), a type of sleep study, is a test used to diagnose sleep disorders. Sleep disturbance is common among patients with Prader-Willi syndrome independent of age and weight. Jorge Antonio Moreno Gaytán, a 34-year-old Mexican man, lives with his parents in Puebla, Mexico. He was diagnosed with Prader-Willi syndrome at age seven. He weighs 136 kilos (300 pounds) and stands 152 centimeters (4 feet 12 inches). Jorge is in the process of getting bariatric surgery. As a teenager, he would pawn his siblings’ belongings in order to have money to buy food. He was also known to leave restaurants without paying. “Our worst enemy is hunger, it’s what will kill us”, Jorge says. He is now part of a sports team for people with disabilities. He has been in a relationship for 11 years with, Maria Guadalupe Pilar Saucedo Granda, known as “Lupita’, also diagnosed with Prader-Willi syndrome. Prader-Willi Syndrome (PWS) is a rare genetic disorder caused by an abnormality in chromosome 15. In newborns symptoms include weak muscle tone (hypotonia), poor appetite and slow development. In childhood the person experiences a sensation of constant hunger no matter how much he/she eats which often leads to obesity and Type 2 diabetes. There may also be mild to moderate intellectual impairment and behavioral problems. Physical characteristics include a narrow forehead, small hands and feet, short in stature, and light skin color. Prader-Willi syndrome has no known cure. However, with early diagnosis and treatment such as growth hormone therapy, the condition may improve. Strict food supervision is typically required. PWS affects an estimated 1 in 10,000 to 30,000 people worldwide. (Photo by Bénédicte Desrus/Sipa USA) *** Local Caption *** 21272662
(c) Dukas -
DUK10075194_004
REPORTAGE - Mexiko: Leben mit dem Prader-Willi Syndrome
Jorge is prepped to undergo a polysomnographic examination at the Salvador Zubirán National Institute of Health Sciences and Nutrition in Mexico City, Mexico on May 31, 2017. Polysomnography (PSG), a type of sleep study, is a test used to diagnose sleep disorders. Sleep disturbance is common among patients with Prader-Willi syndrome, independent of age and weight. Jorge Antonio Moreno Gaytán, a 34-year-old Mexican man, lives with his parents in Puebla, Mexico. He was diagnosed with Prader-Willi syndrome at age seven. He weighs 136 kilos (300 pounds) and stands 152 centimeters (4 feet 12 inches). Jorge is in the process of getting bariatric surgery. As a teenager, he would pawn his siblings’ belongings in order to have money to buy food. He was also known to leave restaurants without paying. “Our worst enemy is hunger, it’s what will kill us”, Jorge says. He is now part of a sports team for people with disabilities. He has been in a relationship for 11 years with, Maria Guadalupe Pilar Saucedo Granda, known as “Lupita’, also diagnosed with Prader-Willi syndrome. Prader-Willi Syndrome (PWS) is a rare genetic disorder caused by an abnormality in chromosome 15. In newborns symptoms include weak muscle tone (hypotonia), poor appetite and slow development. In childhood the person experiences a sensation of constant hunger no matter how much he/she eats which often leads to obesity and Type 2 diabetes. There may also be mild to moderate intellectual impairment and behavioral problems. Physical characteristics include a narrow forehead, small hands and feet, short in stature, and light skin color. Prader-Willi syndrome has no known cure. However, with early diagnosis and treatment such as growth hormone therapy, the condition may improve. Strict food supervision is typically required. PWS affects an estimated 1 in 10,000 to 30,000 people worldwide. (Photo by Bénédicte Desrus/Sipa USA) *** Local Caption *** 21272636
(c) Dukas -
DUK10008733_015
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057d)
Guide Helen Maria is pictured inside the waterfall cave
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_014
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057f)
Inside the 'ABC cave' - which stands for Amazing Blue Cave
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_013
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057b)
Inside the 'ABC cave' - which stands for Amazing Blue Cave
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_012
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057a)
Guide Einar Runar Sigurdsson is seen ice climbing inside the 'Waterfall Cave'
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_011
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057f)
Inside the 'ABC cave' - which stands for Amazing Blue Cave
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_010
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057h)
Inside the 'ABC cave' - which stands for Amazing Blue Cave. This view shows a snow storm outside the entrance to the cave
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_009
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057g)
Inside the 'ABC cave' - which stands for Amazing Blue Cave
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_008
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057i)
Looking up from inside the 'ABC cave' - which stands for Amazing Blue Cave. Guide Einar Runar Sigurdsson can be seen ice climbing on the glacier outside
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_007
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057j)
Inside the 'ABC cave' - which stands for Amazing Blue Cave
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_006
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057k)
Inside the 'ABC cave' - which stands for Amazing Blue Cave. Guide Einar Runar Sigurdsson is seen taking a photo at the entrance to the cave
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
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FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057c)
Guide Einar Runar Sigurdsson is seen ice climbing inside the 'Waterfall Cave'
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
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FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057e)
Guide Einar Runar Sigurdsson is seen ice climbing inside the 'Waterfall Cave'
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_003
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057l)
Looking up from inside the 'ABC cave' - which stands for Amazing Blue Cave. Guide Einar Runar Sigurdsson can be seen ice climbing on the glacier outside
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_002
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057n)
On top of the Vatnajökull glacier
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
DUK10008733_001
FEATURE - Island: Strahlend blaue Grotten des Vatnajökull Gletschers
EMBARGOED FOR USE ONLINE AND PRINT UNTIL 00:01 26/11/15
Mandatory Credit: Photo by Mikael Buck/REX Shutterstock (5431057m)
The view on top of the Vatnajökull glacier whilst hiking to access the caves
Photographer explores Vatnajökull glacie using Sony's back-illuminated full-frame sensor, Iceland - 25 Nov 2015
*Full story: http://www.rexfeatures.com/nanolink/rm22
Photographer Mikael Buck with assistance from renowned local Icelandic guide Einar Runar Sigurdsson, explored the frozen world of Vatnajökull glacier in Iceland using Sony's world first back-illuminated full-frame sensor, which features in the 7R II camera. His images were taken without use of a tripod or any image stitching techniques in photoshop. This was made possible through Sony's new sensor technology, allowing incredibly detailed low-light hand held photography. Previously images this detailed would have required carrying bulky equipment to the caves, some of which can require hiking and climbing over a glacier for up to two hours to to access. The images were taken without the use of any external sources - just the natural light that filters through the ice caves.
(FOTO:DUKAS/REX)
(c) Dukas -
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FEATURE: Rettung vor dem Aussterben: Biene mit Sensor
MANDATORY CREDIT: CSIRO/REX Shutterstock. Only for use in this story. Editorial Use Only. No stock, books, advertising or merchandising without photographer's permission
Mandatory Credit: Photo by CSIRO/REX Shutterstock (4994010a)
A sensor is placed onto the back of a drone bee. Data gathered by the Global Initiative for Honey bee Health (GIHH) will provide valuable information to scientists, beekeepers, primary producers, industry groups and governments to achieve impacts around improved biosecurity measures, crop pollination, bee health, food production and better strategies on sustainable farming practices, food security and impacts on ecosystems in general.
Honey Bees Get Backpacks To Save Their Species, Canberra, Australia - 26 Aug 2015
FULL BODY: http://www.rexfeatures.com/nanolink/qvtp
A research organisation in Australia is going to attach tiny "backpack" sensors to honey bees with an aim to prevent the further decline of bee populations.
The Commonwealth Scientific and Industrial Research Organisation (CSIRO), based outside of Australia's capital Canberra, say that bees across the world are in danger partly due to Colony Collapse Disorder and the Varroa Mite.
Without bees foods such as apples, berries, almonds and coffee would not exist.
(FOTO:DUKAS/REX)
(c) Dukas -
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Rain Room
(L-R) Hannes Koch, Stuart Wood and Florian Ortkrass of Random International stand inside their installation, Rain Room, at the Curve Gallery, Barbican Art Gallery, in London.
The installation is in place and open to the public from 4th October until 3rd March 2013.
Photograph by Felix Clay.
© Felix Clay / 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)
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Rain Room
(L-R) Hannes Koch, Stuart Wood and Florian Ortkrass of Random International stand inside their installation, Rain Room, at the Curve Gallery, Barbican Art Gallery, in London.
The installation is in place and open to the public from 4th October until 3rd March 2013.
Photograph by Felix Clay.
© Felix Clay / 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/EYEVINE -
DUKAS_26359690_EYE
Rain Room
(L-R) Hannes Koch, Stuart Wood and Florian Ortkrass of Random International stand inside their installation, Rain Room, at the Curve Gallery, Barbican Art Gallery, in London.
The installation is in place and open to the public from 4th October until 3rd March 2013.
Photograph by Felix Clay.
© Felix Clay / 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/EYEVINE -
DUKAS_26359689_EYE
Rain Room
(L-R) Hannes Koch, Stuart Wood and Florian Ortkrass of Random International stand inside their installation, Rain Room, at the Curve Gallery, Barbican Art Gallery, in London.
The installation is in place and open to the public from 4th October until 3rd March 2013.
Photograph by Felix Clay.
© Felix Clay / 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)
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DUKAS_23162325_REX
Tooth tattoos can tell when your ill, Princeton, America - Apr 2012
Mandatory Credit: Photo by Frank Wojciechowski / Rex Features (1686194e)
Michael McAlpine (pictured on the right) and his team at Princeton University have created a remote chemical sensor starting with graphene, a one-atom-thick layer of carbon.
Incredible Tooth Tattoos Can Screen Breath For Illness
A team of scientists at Princeton University have developed a 'tooth tattoo', which can pick up early warning signs of sickness or infection by bacteria in people's breath.
The wireless sensor can be tattooed onto teeth, diagnose an infection and transmit that information to medical professionals.
Michael McAlpine and his team at Princeton believe the sensors could be used for military personnel in the field to determine whether a wound has become infected, or in hospitals where patients with weakened immune systems are extra vulnerable to bacteria.
Mr McAlpine said: "We experimented with a cow's tooth and when a student breathes onto the sensor planted on it, the computer picked up molecules on his breath."
The scientists created the remote chemical sensor with graphene, a one-atom-thick layer of carbon, which is very sticky and has a super-sensitive surface.
They then planted carefully constructed peptides (a sequence of amino acids) onto the surface of graphene. McAlpine and his team have shown the sensors can detect bacteria individually picking them up like Velcro.
McAlpine is currently planning to license and commercialise the device.
MUST CREDIT PICTURES TO:
Frank Wojciechowski / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VGUQKFSPI (FOTO:DUKAS/REX)
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Tooth tattoos can tell when your ill, Princeton, America - Apr 2012
Mandatory Credit: Photo by Frank Wojciechowski / Rex Features (1686194c)
Michael McAlpine and his team at Princeton University have created a remote chemical sensor starting with graphene, a one-atom-thick layer of carbon.
Incredible Tooth Tattoos Can Screen Breath For Illness
A team of scientists at Princeton University have developed a 'tooth tattoo', which can pick up early warning signs of sickness or infection by bacteria in people's breath.
The wireless sensor can be tattooed onto teeth, diagnose an infection and transmit that information to medical professionals.
Michael McAlpine and his team at Princeton believe the sensors could be used for military personnel in the field to determine whether a wound has become infected, or in hospitals where patients with weakened immune systems are extra vulnerable to bacteria.
Mr McAlpine said: "We experimented with a cow's tooth and when a student breathes onto the sensor planted on it, the computer picked up molecules on his breath."
The scientists created the remote chemical sensor with graphene, a one-atom-thick layer of carbon, which is very sticky and has a super-sensitive surface.
They then planted carefully constructed peptides (a sequence of amino acids) onto the surface of graphene. McAlpine and his team have shown the sensors can detect bacteria individually picking them up like Velcro.
McAlpine is currently planning to license and commercialise the device.
MUST CREDIT PICTURES TO:
Frank Wojciechowski / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VGUQKFSPI (FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_23162323_REX
Tooth tattoos can tell when your ill, Princeton, America - Apr 2012
Mandatory Credit: Photo by Frank Wojciechowski / Rex Features (1686194d)
Michael McAlpine (not pictured) and his team at Princeton University have created a remote chemical sensor starting with graphene, a one-atom-thick layer of carbon.
Incredible Tooth Tattoos Can Screen Breath For Illness
A team of scientists at Princeton University have developed a 'tooth tattoo', which can pick up early warning signs of sickness or infection by bacteria in people's breath.
The wireless sensor can be tattooed onto teeth, diagnose an infection and transmit that information to medical professionals.
Michael McAlpine and his team at Princeton believe the sensors could be used for military personnel in the field to determine whether a wound has become infected, or in hospitals where patients with weakened immune systems are extra vulnerable to bacteria.
Mr McAlpine said: "We experimented with a cow's tooth and when a student breathes onto the sensor planted on it, the computer picked up molecules on his breath."
The scientists created the remote chemical sensor with graphene, a one-atom-thick layer of carbon, which is very sticky and has a super-sensitive surface.
They then planted carefully constructed peptides (a sequence of amino acids) onto the surface of graphene. McAlpine and his team have shown the sensors can detect bacteria individually picking them up like Velcro.
McAlpine is currently planning to license and commercialise the device.
MUST CREDIT PICTURES TO:
Frank Wojciechowski / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VGUQKFSPI (FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_23162322_REX
Tooth tattoos can tell when your ill, Princeton, America - Apr 2012
Mandatory Credit: Photo by Frank Wojciechowski / Rex Features (1686194b)
Michael McAlpine and his team at Princeton University have created a remote chemical sensor starting with graphene, a one-atom-thick layer of carbon.
Incredible Tooth Tattoos Can Screen Breath For Illness
A team of scientists at Princeton University have developed a 'tooth tattoo', which can pick up early warning signs of sickness or infection by bacteria in people's breath.
The wireless sensor can be tattooed onto teeth, diagnose an infection and transmit that information to medical professionals.
Michael McAlpine and his team at Princeton believe the sensors could be used for military personnel in the field to determine whether a wound has become infected, or in hospitals where patients with weakened immune systems are extra vulnerable to bacteria.
Mr McAlpine said: "We experimented with a cow's tooth and when a student breathes onto the sensor planted on it, the computer picked up molecules on his breath."
The scientists created the remote chemical sensor with graphene, a one-atom-thick layer of carbon, which is very sticky and has a super-sensitive surface.
They then planted carefully constructed peptides (a sequence of amino acids) onto the surface of graphene. McAlpine and his team have shown the sensors can detect bacteria individually picking them up like Velcro.
McAlpine is currently planning to license and commercialise the device.
MUST CREDIT PICTURES TO:
Frank Wojciechowski / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VGUQKFSPI (FOTO:DUKAS/REX)
DUKAS/REX -
DUKAS_23162321_REX
Tooth tattoos can tell when your ill, Princeton, America - Apr 2012
Mandatory Credit: Photo by Frank Wojciechowski / Rex Features (1686194a)
Michael McAlpine and his team at Princeton University have created a remote chemical sensor starting with graphene, a one-atom-thick layer of carbon.
Incredible Tooth Tattoos Can Screen Breath For Illness
A team of scientists at Princeton University have developed a 'tooth tattoo', which can pick up early warning signs of sickness or infection by bacteria in people's breath.
The wireless sensor can be tattooed onto teeth, diagnose an infection and transmit that information to medical professionals.
Michael McAlpine and his team at Princeton believe the sensors could be used for military personnel in the field to determine whether a wound has become infected, or in hospitals where patients with weakened immune systems are extra vulnerable to bacteria.
Mr McAlpine said: "We experimented with a cow's tooth and when a student breathes onto the sensor planted on it, the computer picked up molecules on his breath."
The scientists created the remote chemical sensor with graphene, a one-atom-thick layer of carbon, which is very sticky and has a super-sensitive surface.
They then planted carefully constructed peptides (a sequence of amino acids) onto the surface of graphene. McAlpine and his team have shown the sensors can detect bacteria individually picking them up like Velcro.
McAlpine is currently planning to license and commercialise the device.
MUST CREDIT PICTURES TO:
Frank Wojciechowski / Rex Features
For more information visit http://www.rexfeatures.com/stacklink/VGUQKFSPI (FOTO:DUKAS/REX)
DUKAS/REX