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DUKAS_184141362_NUR
General Electricity Blackout In Portugal - Night
An ATM in the city center shuts down due to a power outage in Lisbon, Portugal, on April 28, 2025. A major blackout occurs on Monday morning, April 28, 2025, in Portugal, Spain, and parts of France, paralyzing services and communications throughout the country. (Photo by Anderson Coelho/NurPhoto) -
DUKAS_184065922_NUR
General Electricity Blackout In Portugal
Electric trams are paralyzed due to a lack of electricity in Rua da Conceicao in the center of Lisbon, Portugal, on April 28, 2025. A major blackout occurs on Monday morning, April 28, 2025, in Portugal, Spain, and parts of France, paralyzing services and communications throughout the country. (Photo by Anderson Coelho/NurPhoto) -
DUKAS_180215602_BES
Une interface cerveau-ordinateur a permis à un homme paralysé de piloter un drone virtuel en utilisant uniquement ses pensées
Pictures must credit: Willsey et al / Stanford University A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts. Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers. The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument. The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small. Each could move both vertically and horizontally. As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course. A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
JLPPA / Bestimage -
DUKAS_180215600_BES
Une interface cerveau-ordinateur a permis à un homme paralysé de piloter un drone virtuel en utilisant uniquement ses pensées
Pictures must credit: Willsey et al / Stanford University A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts. Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers. The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument. The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small. Each could move both vertically and horizontally. As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course. A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
JLPPA / Bestimage -
DUKAS_180215597_BES
Une interface cerveau-ordinateur a permis à un homme paralysé de piloter un drone virtuel en utilisant uniquement ses pensées
Pictures must credit: Willsey et al / Stanford University A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts. Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers. The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument. The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small. Each could move both vertically and horizontally. As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course. A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
JLPPA / Bestimage -
DUKAS_180215595_BES
Une interface cerveau-ordinateur a permis à un homme paralysé de piloter un drone virtuel en utilisant uniquement ses pensées
Pictures must credit: Willsey et al / Stanford University A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts. Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers. The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument. The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small. Each could move both vertically and horizontally. As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course. A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
JLPPA / Bestimage -
DUKAS_180215593_BES
Une interface cerveau-ordinateur a permis à un homme paralysé de piloter un drone virtuel en utilisant uniquement ses pensées
Pictures must credit: Willsey et al / Stanford University A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts. Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers. The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument. The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small. Each could move both vertically and horizontally. As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course. A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
JLPPA / Bestimage -
DUKAS_180215591_BES
Une interface cerveau-ordinateur a permis à un homme paralysé de piloter un drone virtuel en utilisant uniquement ses pensées
Pictures must credit: Willsey et al / Stanford University A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts. Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers. The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument. The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small. Each could move both vertically and horizontally. As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course. A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
JLPPA / Bestimage -
DUKAS_180215589_BES
Une interface cerveau-ordinateur a permis à un homme paralysé de piloter un drone virtuel en utilisant uniquement ses pensées
Pictures must credit: Willsey et al / Stanford University A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts. Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers. The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument. The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small. Each could move both vertically and horizontally. As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course. A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
JLPPA / Bestimage -
DUKAS_180169557_FER
Brain interface lets paralysed man fly virtual drone
Ferrari Press Agency
Brain 1
Ref 16491
24/01/2025
See Ferrari text
Pictures must credit: Willsey et al / Stanford University
A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts.
Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers.
The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument.
The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small.
Each could move both vertically and horizontally.
As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course.
A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
OPS: A screenshot of the game display shows the quadcopter following a green path around the rings. The inset shows a hand avatar. The finger positions are then used to control the virtual quadcopter.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_180169556_FER
Brain interface lets paralysed man fly virtual drone
Ferrari Press Agency
Brain 1
Ref 16491
24/01/2025
See Ferrari text
Pictures must credit: Willsey et al / Stanford University
A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts.
Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers.
The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument.
The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small.
Each could move both vertically and horizontally.
As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course.
A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
OPS: A screenshot of the game display shows the quadcopter following a green path around the rings. The inset shows a hand avatar. The finger positions are then used to control the virtual quadcopter.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_180169555_FER
Brain interface lets paralysed man fly virtual drone
Ferrari Press Agency
Brain 1
Ref 16491
24/01/2025
See Ferrari text
Pictures must credit: Willsey et al / Stanford University
A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts.
Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers.
The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument.
The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small.
Each could move both vertically and horizontally.
As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course.
A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
OPS: A screenshot of the game display shows the quadcopter following a green path around the rings. The inset shows a hand avatar. The finger positions are then used to control the virtual quadcopter.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_180169554_FER
Brain interface lets paralysed man fly virtual drone
Ferrari Press Agency
Brain 1
Ref 16491
24/01/2025
See Ferrari text
Pictures must credit: Willsey et al / Stanford University
A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts.
Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers.
The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument.
The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small.
Each could move both vertically and horizontally.
As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course.
A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
OPS: A screenshot of the game display shows the quadcopter following a green path around the rings. The inset shows a hand avatar. The finger positions are then used to control the virtual quadcopter.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_180169551_FER
Brain interface lets paralysed man fly virtual drone
Ferrari Press Agency
Brain 1
Ref 16491
24/01/2025
See Ferrari text
Pictures must credit: Willsey et al / Stanford University
A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts.
Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers.
The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument.
The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small.
Each could move both vertically and horizontally.
As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course.
A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
OPS: A screenshot of the game display shows the quadcopter following a green path around the rings. The inset shows a hand avatar. The finger positions are then used to control the virtual quadcopter.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_180169550_FER
Brain interface lets paralysed man fly virtual drone
Ferrari Press Agency
Brain 1
Ref 16491
24/01/2025
See Ferrari text
Pictures must credit: Willsey et al / Stanford University
A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts.
Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers.
The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument.
The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small.
Each could move both vertically and horizontally.
As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course.
A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
OPS: A screenshot of the game display shows the quadcopter following a green path around the rings. The inset shows a hand avatar. The finger positions are then used to control the virtual quadcopter.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_180169549_FER
Brain interface lets paralysed man fly virtual drone
Ferrari Press Agency
Brain 1
Ref 16491
24/01/2025
See Ferrari text
Pictures must credit: Willsey et al / Stanford University
A computer brain interface has allowed a man with paralysis to fly a virtual drone using only his thoughts.
Researchers said the implant gave the 69-year-old patient an unprecedented level of control over a virtual quadcopter—just by thinking about moving his unresponsive fingers.
The study by a team at the USA’s Stanford University was inspired by the participant’s own request after he said controlling the virtual object was like playing a musical instrument.
The technology divided the man’s hand into three parts: the thumb and two pairs of fingers — index and middle, ring and small.
Each could move both vertically and horizontally.
As the patient thought about moving the three groups, at times simultaneously, the virtual quadcopter drone responded, manoeuvring through a virtual obstacle course.
A spokesperson said: “It’s an exciting next step in providing those with paralysis the chance to enjoy games with friends while also demonstrating the potential for performing remote work.”
OPS: A screenshot of the game display shows the quadcopter following a green path around the rings. The inset shows a hand avatar. The finger positions are then used to control the virtual quadcopter.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_166934381_EYE
What's paralysing thousands of rainbow lorikeets? Scientists search for the cause as volunteer carers are overwhelmed
A mystery paralysis syndrome is afflicting lorikeet populations in south-east Queensland and northern NSW at a rate scientists say they have never seen.
Another delivery of an assortment of boxes containing lorikeets. Scores of lorikeets arriving everyday at the RSPCA Wildlife hospital at Wacol with a mystery paralysis syndrome. They've had more than 3500 come in to the Wacol and Eumundi hospitals since 1 Jan but about half have to be euthanised, with the rest eventually being moved on to volunteer carers. Brisbane. Australia
David Kelly / 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_166934383_EYE
What's paralysing thousands of rainbow lorikeets? Scientists search for the cause as volunteer carers are overwhelmed
A mystery paralysis syndrome is afflicting lorikeet populations in south-east Queensland and northern NSW at a rate scientists say they have never seen.
These rescued lorikeets are in aviary #2 will soon be released after recovery. Scores of lorikeets arriving everyday at the RSPCA Wildlife hospital at Wacol with a mystery paralysis syndrome. They've had more than 3500 come in to the Wacol and Eumundi hospitals since 1 Jan but about half have to be euthanised, with the rest eventually being moved on to volunteer carers. Brisbane. Australia
David Kelly / 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_166934385_EYE
What's paralysing thousands of rainbow lorikeets? Scientists search for the cause as volunteer carers are overwhelmed
A mystery paralysis syndrome is afflicting lorikeet populations in south-east Queensland and northern NSW at a rate scientists say they have never seen.
Dr. Tim Portis, wildlife vet director, assesses the health of another lorikeet. The paralysis affects the birds ability to blink and swallow and often are dehydrated. This bird was given fluids and released to Aviary #3. Scores of lorikeets arriving everyday at the RSPCA Wildlife hospital at Wacol with a mystery paralysis syndrome. They've had more than 3500 come in to the Wacol and Eumundi hospitals since 1 Jan but about half have to be euthanised, with the rest eventually being moved on to volunteer carers. Brisbane. Australia
David Kelly / 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_166934382_EYE
What's paralysing thousands of rainbow lorikeets? Scientists search for the cause as volunteer carers are overwhelmed
A mystery paralysis syndrome is afflicting lorikeet populations in south-east Queensland and northern NSW at a rate scientists say they have never seen.
Dr. Tim Portis, wildlife vet director, assesses the health of another lorikeet. The paralysis affects the birds ability to blink and swallow and often are dehydrated. This bird was given fluids and released to Aviary #3. Scores of lorikeets arriving everyday at the RSPCA Wildlife hospital at Wacol with a mystery paralysis syndrome. They've had more than 3500 come in to the Wacol and Eumundi hospitals since 1 Jan but about half have to be euthanised, with the rest eventually being moved on to volunteer carers. Brisbane. Australia
David Kelly / 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_166934384_EYE
What's paralysing thousands of rainbow lorikeets? Scientists search for the cause as volunteer carers are overwhelmed
A mystery paralysis syndrome is afflicting lorikeet populations in south-east Queensland and northern NSW at a rate scientists say they have never seen.
Dr. Tim Portis, wildlife vet director, assesses the health of another lorikeet. The paralysis affects the birds ability to blink and swallow and often are dehydrated. This bird was given fluids and released to Aviary #3. Scores of lorikeets arriving everyday at the RSPCA Wildlife hospital at Wacol with a mystery paralysis syndrome. They've had more than 3500 come in to the Wacol and Eumundi hospitals since 1 Jan but about half have to be euthanised, with the rest eventually being moved on to volunteer carers. Brisbane. Australia
David Kelly / 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_166934386_EYE
What's paralysing thousands of rainbow lorikeets? Scientists search for the cause as volunteer carers are overwhelmed
A mystery paralysis syndrome is afflicting lorikeet populations in south-east Queensland and northern NSW at a rate scientists say they have never seen.
The Bird Ward contains birds deemed well enough for recovery and are kept here until they are transfered to the aviary. Scores of lorikeets arriving everyday at the RSPCA Wildlife hospital at Wacol with a mystery paralysis syndrome. They've had more than 3500 come in to the Wacol and Eumundi hospitals since 1 Jan but about half have to be euthanised, with the rest eventually being moved on to volunteer carers. Brisbane. Australia
David Kelly / 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_157304953_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:Once hooked up to a computer, the aidlets the patient control it using just their thoughts, such as typing out messages using the keyboard.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304952_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The Stentrode mesh is fed into the brain via a tube inserted into a blood vessel. Within two days it will be covered in cell growth
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304951_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The Stentrode mesh which is inserted into the brain via blood vessels
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304947_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead who suffers from a debilitating illness called Amyotrophic lateral sclerosis, also known as ALS. He has lost the use of both arms and hands but is able to control his PC using the Stentrode implant and BrainOS software
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304945_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead who suffers from a debilitating illness called Amyotrophic lateral sclerosis, also known as ALS. He has lost the use of both arms and hands but is able to control his PC using the Stentrode implant and BrainOS software
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304943_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead who suffers from a debilitating illness called Amyotrophic lateral sclerosis, also known as ALS. He has lost the use of both arms and hands but is able to control his PC using the Stentrode implant and BrainOS software
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304940_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:Stentrode is connected to a chest implant which can then be connected to a computer using an external connector
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304939_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead. Here his chest implant with the connected BrainOS AI software is checked
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304938_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead. Here his chest implant with the connected BrainOS AI software is checked
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304937_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:Stentrode is connected to a chest implant.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304934_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The Stentrode mesh is fed into the brain via a tube inserted into a blood vessel. Here the mesh is being discourged. Within two days it will be covered in cell growth
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304932_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the transplant was Australian Graham Felstead with members of the Synchron team behind gthe Stentrode implant
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304929_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:Nancy Felstead, the wife of the first human to get the Stentrode inplant. She said: “I sort of got the concept of what they're doing but how it's working, I still find it a little bit awe-inspiring actually !”
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304928_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead who suffers from a debilitating illness called Amyotrophic lateral sclerosis, also known as ALS. He has lost the use of both arms and hands but is able to control his PC using the Stentrode implant and BrainOS software
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304926_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead who suffers from a debilitating illness called Amyotrophic lateral sclerosis, also known as ALS.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304925_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead who suffers from a debilitating illness called Amyotrophic lateral sclerosis, also known as ALS. He has lost the use of both arms and hands.Here his wife Nancy helps him take a drink
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304921_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The Stentrode wire mesh which is fed into the brain via a tube inserted into a blood vessel
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_157304920_FER
Brain implant for paralysis victims lets them control computers.
Ferrari Press Agency
Brain implant 1
Ref 14904
27/06/2023
See Ferrari text
Pictures must credit: Synchron
A brain implant for paralysis victims enabling them to operate computers and electronic gadgets has been successfully tested on ten people.
The implant, called Stentrode, lets users manipulate the devices simply by thought.
It is able to safely pass through curving blood vessels in the brain using a procedure called cerebral angiography, eliminating the need for open brain surgery.
By using blood vessels to deliver the technology, the technique may reduce risk of brain tissue rejection of the device, which has been a significant problem for other techniques.
It places 16 electrodes right next to specific areas.
Once in the brain, the Stentrode introduces a wire-like mesh inside the blood vessel which is covered with new cell growth within days.
It is then connected to modular training software implant called BrainOS which is attached to the patients chest.
It powered by artificial intelligence that helps patients to control technology directly through thought.
OPS:The first human to get the Stentrode implant was Australian Graham Felstead who suffers from a debilitating illness called Amyotrophic lateral sclerosis, also known as ALS. He has lost the use of both arms and hands but is able to control his PC using the Stentrode implant and BrainOS software
.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUK10112345_043
FEATURE - Pix of the Day: Bilder des Tages
Ferrari Press Agency
Ref 10000
Mobility 1
09/01/2019
See Ferrari text
Picture MUST credit: Toyota/Simon Mckeown/Craig McMullen
A global competition has inspired new technologies that change the lives of sufferers of lower limb paralysis. Five finalists will battle for $1 million USD prize, with an intelligent wheelchair and exoskeleton on wheels among the shortlisted projects.Engineers, inventors and designers from all around the world submitted concepts for the $4 million USD Mobility Unlimited Challenge organized by Japanese car giant Toyota’s Mobility Foundation.The aim is to give those with lower limb paralysis greater independence. The teams are expected to collaborate with these users throughout the development of their devices to make sure they were comfortable and easy to use.Each finalist has been given $500,000 USD for further research on their ideas.The winner to be crowned in Tokyo in 2020.The Challenge invited engineers, innovators, and designers from across the world to submit designs for game-changing technologies, incorporating intelligent systems, to improve the mobility and independence of people with lower-limb paralysis.
OPS: One of the five finalists in the Mobility Unlimited Challenge.Qolo (Quality of Life with Locomotion) by Team Qolo, University of Tsukuba, (Japan) - a mobile exoskeleton on wheels, allowing users to sit or stand with ease.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS)
(c) Dukas -
DUK10109893_061
FEATURE - Frankreich: Proteste der 'Gilets Jaunes' in Paris
Act IV of the mobilization of the Yellow Vests gathered 125 000 demonstrators on the whole French territory of which 10 000 in Paris having joined the Champs-Elysees.
The state had deployed 5,500 law enforcement personnel to ensure the safety of the day.
December 8, 2018, Paris, France.
L'acte IV de la mobilisation du mouvement des Gilets Jaunes a rassemble 125 000 manifestants sur l'ensemble du territoire Francais dont 10 000 a Paris qui ont rejoint les Champs Elysees.
L etat avait deploye 5500 membres des forces de l ordre pour assurer la securite de la journee.
8 decembre 2018, Paris, France.//SIPA_1135.25332/Credit:NeO Tony LEE/SIPA/1812091410 (FOTO: DUKAS/SIPA) *** Local Caption *** 00887477
(c) Dukas -
DUK10109893_029
FEATURE - Frankreich: Proteste der 'Gilets Jaunes' in Paris
Act IV of the mobilization of the Yellow Vests gathered 125 000 demonstrators on the whole French territory of which 10 000 in Paris having joined the Champs-Elysees.
The state had deployed 5,500 law enforcement personnel to ensure the safety of the day.
December 8, 2018, Paris, France.
L'acte IV de la mobilisation du mouvement des Gilets Jaunes a rassemble 125 000 manifestants sur l'ensemble du territoire Francais dont 10 000 a Paris qui ont rejoint les Champs Elysees.
L etat avait deploye 5500 membres des forces de l ordre pour assurer la securite de la journee.
8 decembre 2018, Paris, France.//SIPA_1135.25336/Credit:NeO Tony LEE/SIPA/1812091410 (FOTO: DUKAS/SIPA) *** Local Caption *** 00887477
(c) Dukas -
DUK10109893_041
FEATURE - Frankreich: Proteste der 'Gilets Jaunes' in Paris
Act IV of the mobilization of the Yellow Vests gathered 125 000 demonstrators on the whole French territory of which 10 000 in Paris having joined the Champs-Elysees.
The state had deployed 5,500 law enforcement personnel to ensure the safety of the day.
December 8, 2018, Paris, France.
L'acte IV de la mobilisation du mouvement des Gilets Jaunes a rassemble 125 000 manifestants sur l'ensemble du territoire Francais dont 10 000 a Paris qui ont rejoint les Champs Elysees.
L etat avait deploye 5500 membres des forces de l ordre pour assurer la securite de la journee.
8 decembre 2018, Paris, France.//SIPA_1135.25345/Credit:NeO Tony LEE/SIPA/1812091410 (FOTO: DUKAS/SIPA) *** Local Caption *** 00887477
(c) Dukas -
DUK10109893_045
FEATURE - Frankreich: Proteste der 'Gilets Jaunes' in Paris
Act IV of the mobilization of the Yellow Vests gathered 125 000 demonstrators on the whole French territory of which 10 000 in Paris having joined the Champs-Elysees.
The state had deployed 5,500 law enforcement personnel to ensure the safety of the day.
December 8, 2018, Paris, France.
L'acte IV de la mobilisation du mouvement des Gilets Jaunes a rassemble 125 000 manifestants sur l'ensemble du territoire Francais dont 10 000 a Paris qui ont rejoint les Champs Elysees.
L etat avait deploye 5500 membres des forces de l ordre pour assurer la securite de la journee.
8 decembre 2018, Paris, France.//SIPA_1135.25341/Credit:NeO Tony LEE/SIPA/1812091410 (FOTO: DUKAS/SIPA) *** Local Caption *** 00887477
(c) Dukas -
DUK10109893_043
FEATURE - Frankreich: Proteste der 'Gilets Jaunes' in Paris
Act IV of the mobilization of the Yellow Vests gathered 125 000 demonstrators on the whole French territory of which 10 000 in Paris having joined the Champs-Elysees.
The state had deployed 5,500 law enforcement personnel to ensure the safety of the day.
December 8, 2018, Paris, France.
L'acte IV de la mobilisation du mouvement des Gilets Jaunes a rassemble 125 000 manifestants sur l'ensemble du territoire Francais dont 10 000 a Paris qui ont rejoint les Champs Elysees.
L etat avait deploye 5500 membres des forces de l ordre pour assurer la securite de la journee.
8 decembre 2018, Paris, France.//SIPA_1135.25342/Credit:NeO Tony LEE/SIPA/1812091410 (FOTO: DUKAS/SIPA) *** Local Caption *** 00887477
(c) Dukas -
DUK10109893_022
FEATURE - Frankreich: Proteste der 'Gilets Jaunes' in Paris
Act IV of the mobilization of the Yellow Vests gathered 125 000 demonstrators on the whole French territory of which 10 000 in Paris having joined the Champs-Elysees.
The state had deployed 5,500 law enforcement personnel to ensure the safety of the day.
December 8, 2018, Paris, France.
L'acte IV de la mobilisation du mouvement des Gilets Jaunes a rassemble 125 000 manifestants sur l'ensemble du territoire Francais dont 10 000 a Paris qui ont rejoint les Champs Elysees.
L etat avait deploye 5500 membres des forces de l ordre pour assurer la securite de la journee.
8 decembre 2018, Paris, France.//SIPA_1135.25326/Credit:NeO Tony LEE/SIPA/1812091410 (FOTO: DUKAS/SIPA) *** Local Caption *** 00887477
(c) Dukas -
DUK10109893_058
FEATURE - Frankreich: Proteste der 'Gilets Jaunes' in Paris
Act IV of the mobilization of the Yellow Vests gathered 125 000 demonstrators on the whole French territory of which 10 000 in Paris having joined the Champs-Elysees.
The state had deployed 5,500 law enforcement personnel to ensure the safety of the day.
December 8, 2018, Paris, France.
L'acte IV de la mobilisation du mouvement des Gilets Jaunes a rassemble 125 000 manifestants sur l'ensemble du territoire Francais dont 10 000 a Paris qui ont rejoint les Champs Elysees.
L etat avait deploye 5500 membres des forces de l ordre pour assurer la securite de la journee.
8 decembre 2018, Paris, France.//SIPA_1135.25329/Credit:NeO Tony LEE/SIPA/1812091410 (FOTO: DUKAS/SIPA) *** Local Caption *** 00887477
(c) Dukas -
DUK10109893_023
FEATURE - Frankreich: Proteste der 'Gilets Jaunes' in Paris
Act IV of the mobilization of the Yellow Vests gathered 125 000 demonstrators on the whole French territory of which 10 000 in Paris having joined the Champs-Elysees.
The state had deployed 5,500 law enforcement personnel to ensure the safety of the day.
December 8, 2018, Paris, France.
L'acte IV de la mobilisation du mouvement des Gilets Jaunes a rassemble 125 000 manifestants sur l'ensemble du territoire Francais dont 10 000 a Paris qui ont rejoint les Champs Elysees.
L etat avait deploye 5500 membres des forces de l ordre pour assurer la securite de la journee.
8 decembre 2018, Paris, France.//SIPA_1135.25346/Credit:NeO Tony LEE/SIPA/1812091410 (FOTO: DUKAS/SIPA) *** Local Caption *** 00887477
(c) Dukas -
DUK10109893_030
FEATURE - Frankreich: Proteste der 'Gilets Jaunes' in Paris
Act IV of the mobilization of the Yellow Vests gathered 125 000 demonstrators on the whole French territory of which 10 000 in Paris having joined the Champs-Elysees.
The state had deployed 5,500 law enforcement personnel to ensure the safety of the day.
December 8, 2018, Paris, France.
L'acte IV de la mobilisation du mouvement des Gilets Jaunes a rassemble 125 000 manifestants sur l'ensemble du territoire Francais dont 10 000 a Paris qui ont rejoint les Champs Elysees.
L etat avait deploye 5500 membres des forces de l ordre pour assurer la securite de la journee.
8 decembre 2018, Paris, France.//SIPA_1135.25344/Credit:NeO Tony LEE/SIPA/1812091410 (FOTO: DUKAS/SIPA) *** Local Caption *** 00887477
(c) Dukas -
