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DUKAS_183408840_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408839_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408838_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408837_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408836_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408835_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408834_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408833_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408832_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408831_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408830_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408829_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408828_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: One of the elasticated strips used for making the FlexiVol diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408827_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Showing different interactions with the elasticated FlexiVol diffuser strips.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408826_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Showing different interactions with the elasticated FlexiVol diffuser strips.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408825_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram skull projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408824_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram skull projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408823_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_183408822_FER
Team creates touchable holograms
Ferrari Press Agency
Hologram 1
Ref 16724
10/04/2025
See Ferrari text
Picture MUST credit: Public University of Navarra
Holograms that people can directly manipulate with their hands just like a scene from a sci-fi movie, have been developed by researchers.
It means virtual 3D objects can be manipulated by grabbing and dragging, similar to tapping and dragging icons on a 2D smartphone screen.
This technology could have practical applications in educational settings such as classrooms and museums.
Currently, holograms, also known as volumetric displays, use a rapidly oscillating sheet called a diffuser.
Images are projected onto the diffuser at different points to create a 3D effect.
It happens so fast that the human eye sees all the projections at once as a complete volume.
While this produces reliable 3D graphics, they can’t be manipulated directly.
Now a team in Spain from the Public University of Navarra, Pamplona, claim to be the first to have overcome this problem with a new kind of diffuser — an elastic one they call FlexiVol.
OPS: Manipulating a hologram skull projected onto the FlexiVol elastic diffusers.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179151634_BES
La société canadienne Sanctuary AI indique que sa nouvelle main, destinée à son robot humanoïde Phoenix, possède des doigts à 21 degrés de liberté, ce qui lui permet de tout manipuler
Picture MUST credit: Sanctuary AI A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed. Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass. The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons. Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density. It admitted that currently the hydraulics can require more maintenance than electric-powered control systems. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179151633_BES
La société canadienne Sanctuary AI indique que sa nouvelle main, destinée à son robot humanoïde Phoenix, possède des doigts à 21 degrés de liberté, ce qui lui permet de tout manipuler
Picture MUST credit: Sanctuary AI A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed. Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass. The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons. Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density. It admitted that currently the hydraulics can require more maintenance than electric-powered control systems. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179151632_BES
La société canadienne Sanctuary AI indique que sa nouvelle main, destinée à son robot humanoïde Phoenix, possède des doigts à 21 degrés de liberté, ce qui lui permet de tout manipuler
Picture MUST credit: Sanctuary AI A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed. Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass. The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons. Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density. It admitted that currently the hydraulics can require more maintenance than electric-powered control systems. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179151631_BES
La société canadienne Sanctuary AI indique que sa nouvelle main, destinée à son robot humanoïde Phoenix, possède des doigts à 21 degrés de liberté, ce qui lui permet de tout manipuler
Picture MUST credit: Sanctuary AI A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed. Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass. The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons. Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density. It admitted that currently the hydraulics can require more maintenance than electric-powered control systems. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179151630_BES
La société canadienne Sanctuary AI indique que sa nouvelle main, destinée à son robot humanoïde Phoenix, possède des doigts à 21 degrés de liberté, ce qui lui permet de tout manipuler
Picture MUST credit: Sanctuary AI A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed. Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass. The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons. Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density. It admitted that currently the hydraulics can require more maintenance than electric-powered control systems. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179151629_BES
La société canadienne Sanctuary AI indique que sa nouvelle main, destinée à son robot humanoïde Phoenix, possède des doigts à 21 degrés de liberté, ce qui lui permet de tout manipuler
Picture MUST credit: Sanctuary AI A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed. Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass. The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons. Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density. It admitted that currently the hydraulics can require more maintenance than electric-powered control systems. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179151628_BES
La société canadienne Sanctuary AI indique que sa nouvelle main, destinée à son robot humanoïde Phoenix, possède des doigts à 21 degrés de liberté, ce qui lui permet de tout manipuler
Picture MUST credit: Sanctuary AI A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed. Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass. The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons. Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density. It admitted that currently the hydraulics can require more maintenance than electric-powered control systems. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179151626_BES
La société canadienne Sanctuary AI indique que sa nouvelle main, destinée à son robot humanoïde Phoenix, possède des doigts à 21 degrés de liberté, ce qui lui permet de tout manipuler
Picture MUST credit: Sanctuary AI A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed. Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass. The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons. Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density. It admitted that currently the hydraulics can require more maintenance than electric-powered control systems. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179151624_BES
La société canadienne Sanctuary AI indique que sa nouvelle main, destinée à son robot humanoïde Phoenix, possède des doigts à 21 degrés de liberté, ce qui lui permet de tout manipuler
Picture MUST credit: Sanctuary AI A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed. Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass. The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons. Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density. It admitted that currently the hydraulics can require more maintenance than electric-powered control systems. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179151623_BES
La société canadienne Sanctuary AI indique que sa nouvelle main, destinée à son robot humanoïde Phoenix, possède des doigts à 21 degrés de liberté, ce qui lui permet de tout manipuler
Picture MUST credit: Sanctuary AI A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed. Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass. The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons. Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density. It admitted that currently the hydraulics can require more maintenance than electric-powered control systems. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179151620_BES
La société canadienne Sanctuary AI indique que sa nouvelle main, destinée à son robot humanoïde Phoenix, possède des doigts à 21 degrés de liberté, ce qui lui permet de tout manipuler
Picture MUST credit: Sanctuary AI A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed. Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass. The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons. Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density. It admitted that currently the hydraulics can require more maintenance than electric-powered control systems. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_179025971_FER
AI equipped robot gets new hands for tricky jobs
Ferrari Press Agency
Hands 1
Ref 16411
20/12/2024
See Ferrari text
Picture MUST credit: Sanctuary AI
A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed.
Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass.
The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons.
Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density.
It admitted that currently the hydraulics can require more maintenance than electric-powered control systems.
OPS:The new dextrous hands for the Phoenix robot showing off skills in the engineering lab.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179025970_FER
AI equipped robot gets new hands for tricky jobs
Ferrari Press Agency
Hands 1
Ref 16411
20/12/2024
See Ferrari text
Picture MUST credit: Sanctuary AI
A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed.
Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass.
The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons.
Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density.
It admitted that currently the hydraulics can require more maintenance than electric-powered control systems.
OPS:The new dextrous hands for the Phoenix robot showing off skills in the engineering lab. Manouvering a die around in its fingers
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179025969_FER
AI equipped robot gets new hands for tricky jobs
Ferrari Press Agency
Hands 1
Ref 16411
20/12/2024
See Ferrari text
Picture MUST credit: Sanctuary AI
A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed.
Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass.
The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons.
Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density.
It admitted that currently the hydraulics can require more maintenance than electric-powered control systems.
OPS:The new dextrous hands for the Phoenix robot showing off skills in the engineering lab. Manouvering a die around in its fingers
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179025968_FER
AI equipped robot gets new hands for tricky jobs
Ferrari Press Agency
Hands 1
Ref 16411
20/12/2024
See Ferrari text
Picture MUST credit: Sanctuary AI
A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed.
Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass.
The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons.
Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density.
It admitted that currently the hydraulics can require more maintenance than electric-powered control systems.
OPS:The new dextrous hands for the Phoenix robot showing off skills in the engineering lab.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179025966_FER
AI equipped robot gets new hands for tricky jobs
Ferrari Press Agency
Hands 1
Ref 16411
20/12/2024
See Ferrari text
Picture MUST credit: Sanctuary AI
A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed.
Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass.
The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons.
Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density.
It admitted that currently the hydraulics can require more maintenance than electric-powered control systems.
OPS:The new dextrous hands for the Phoenix robot showing off skills in the engineering lab.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179025965_FER
AI equipped robot gets new hands for tricky jobs
Ferrari Press Agency
Hands 1
Ref 16411
20/12/2024
See Ferrari text
Picture MUST credit: Sanctuary AI
A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed.
Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass.
The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons.
Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density.
It admitted that currently the hydraulics can require more maintenance than electric-powered control systems.
OPS:The new dextrous hands for the Phoenix robot showing off skills in the engineering lab.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179025964_FER
AI equipped robot gets new hands for tricky jobs
Ferrari Press Agency
Hands 1
Ref 16411
20/12/2024
See Ferrari text
Picture MUST credit: Sanctuary AI
A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed.
Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass.
The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons.
Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density.
It admitted that currently the hydraulics can require more maintenance than electric-powered control systems.
OPS:The new dextrous hands for the Phoenix robot showing off skills in the engineering lab.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179025963_FER
AI equipped robot gets new hands for tricky jobs
Ferrari Press Agency
Hands 1
Ref 16411
20/12/2024
See Ferrari text
Picture MUST credit: Sanctuary AI
A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed.
Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass.
The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons.
Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density.
It admitted that currently the hydraulics can require more maintenance than electric-powered control systems.
OPS:The new dextrous hands for the Phoenix robot showing off skills in the engineering lab. Manouvering a die around in its fingers
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179025962_FER
AI equipped robot gets new hands for tricky jobs
Ferrari Press Agency
Hands 1
Ref 16411
20/12/2024
See Ferrari text
Picture MUST credit: Sanctuary AI
A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed.
Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass.
The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons.
Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density.
It admitted that currently the hydraulics can require more maintenance than electric-powered control systems.
OPS:The new dextrous hands for the Phoenix robot showing off skills in the engineering lab. Manouvering a die around in its fingers
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179025961_FER
AI equipped robot gets new hands for tricky jobs
Ferrari Press Agency
Hands 1
Ref 16411
20/12/2024
See Ferrari text
Picture MUST credit: Sanctuary AI
A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed.
Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass.
The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons.
Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density.
It admitted that currently the hydraulics can require more maintenance than electric-powered control systems.
OPS:The new dextrous hands for the Phoenix robot showing off skills in the engineering lab.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_179025960_FER
AI equipped robot gets new hands for tricky jobs
Ferrari Press Agency
Hands 1
Ref 16411
20/12/2024
See Ferrari text
Picture MUST credit: Sanctuary AI
A new set of dextrous robotic hands designed to give an AI-equipped android even more functions has been developed.
Canada-based Sanctuary AI says its new hand, made for its Phoenix humanoid robot, has fingers 21-degree-of-freedom making it able to manipulating everything from a hexagonal die to delicate glass.
The hand uses miniaturised hydraulic valves rather than servos or cable-based tendons.
Sanctuary said this method of hydraulic actuation offers an order of magnitude higher power density.
It admitted that currently the hydraulics can require more maintenance than electric-powered control systems.
OPS:The Phoenix robot by Sanctuary AI
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_170533229_FER
Robot dog that can stand on rear legs is handy
Ferrari Press Agency
LocoMan 1
Ref 15896
30/05/2024
See Ferrari text
Pictures must credit: Carnegie Mellon University
A robot dog that can use its two front legs to pick up and handle objects while walking on its hind ones has been developed by researchers.
The bot, called LocoMan, was created to enhance the uses for quadruped machines to more than just factory or plant video inspections.
It uses lightweight loco-manipulators to expand its abilities allowing it to perform fairly complex manipulation tasks.
These include opening drawers and cupboards to place or retrieve items, pouring drinks and even hoisting a basket.
Four legged robots are also known for their ability to walk over challenging terrain at speed thanks to their low centres of gravity.
LocoMan , developed at the USA’s Carnegie Mellon University in Pittsburgh, is unique because it can transition from its all-fours stance to a standing pose and use its two front legs to manipulate objects.
OPS: LocoMan robot pouring a soft cola drink from one cup to another
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_170533228_FER
Robot dog that can stand on rear legs is handy
Ferrari Press Agency
LocoMan 1
Ref 15896
30/05/2024
See Ferrari text
Pictures must credit: Carnegie Mellon University
A robot dog that can use its two front legs to pick up and handle objects while walking on its hind ones has been developed by researchers.
The bot, called LocoMan, was created to enhance the uses for quadruped machines to more than just factory or plant video inspections.
It uses lightweight loco-manipulators to expand its abilities allowing it to perform fairly complex manipulation tasks.
These include opening drawers and cupboards to place or retrieve items, pouring drinks and even hoisting a basket.
Four legged robots are also known for their ability to walk over challenging terrain at speed thanks to their low centres of gravity.
LocoMan , developed at the USA’s Carnegie Mellon University in Pittsburgh, is unique because it can transition from its all-fours stance to a standing pose and use its two front legs to manipulate objects.
OPS: LocoMan robot plugging in a tablet charger
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_170533225_FER
Robot dog that can stand on rear legs is handy
Ferrari Press Agency
LocoMan 1
Ref 15896
30/05/2024
See Ferrari text
Pictures must credit: Carnegie Mellon University
A robot dog that can use its two front legs to pick up and handle objects while walking on its hind ones has been developed by researchers.
The bot, called LocoMan, was created to enhance the uses for quadruped machines to more than just factory or plant video inspections.
It uses lightweight loco-manipulators to expand its abilities allowing it to perform fairly complex manipulation tasks.
These include opening drawers and cupboards to place or retrieve items, pouring drinks and even hoisting a basket.
Four legged robots are also known for their ability to walk over challenging terrain at speed thanks to their low centres of gravity.
LocoMan , developed at the USA’s Carnegie Mellon University in Pittsburgh, is unique because it can transition from its all-fours stance to a standing pose and use its two front legs to manipulate objects.
OPS: LocoMan robot opening a drawer and placing an object inside before closing it.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_170533223_FER
Robot dog that can stand on rear legs is handy
Ferrari Press Agency
LocoMan 1
Ref 15896
30/05/2024
See Ferrari text
Pictures must credit: Carnegie Mellon University
A robot dog that can use its two front legs to pick up and handle objects while walking on its hind ones has been developed by researchers.
The bot, called LocoMan, was created to enhance the uses for quadruped machines to more than just factory or plant video inspections.
It uses lightweight loco-manipulators to expand its abilities allowing it to perform fairly complex manipulation tasks.
These include opening drawers and cupboards to place or retrieve items, pouring drinks and even hoisting a basket.
Four legged robots are also known for their ability to walk over challenging terrain at speed thanks to their low centres of gravity.
LocoMan , developed at the USA’s Carnegie Mellon University in Pittsburgh, is unique because it can transition from its all-fours stance to a standing pose and use its two front legs to manipulate objects.
OPS: LocoMan robot on hind legs grasping socks
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_170533221_FER
Robot dog that can stand on rear legs is handy
Ferrari Press Agency
LocoMan 1
Ref 15896
30/05/2024
See Ferrari text
Pictures must credit: Carnegie Mellon University
A robot dog that can use its two front legs to pick up and handle objects while walking on its hind ones has been developed by researchers.
The bot, called LocoMan, was created to enhance the uses for quadruped machines to more than just factory or plant video inspections.
It uses lightweight loco-manipulators to expand its abilities allowing it to perform fairly complex manipulation tasks.
These include opening drawers and cupboards to place or retrieve items, pouring drinks and even hoisting a basket.
Four legged robots are also known for their ability to walk over challenging terrain at speed thanks to their low centres of gravity.
LocoMan , developed at the USA’s Carnegie Mellon University in Pittsburgh, is unique because it can transition from its all-fours stance to a standing pose and use its two front legs to manipulate objects.
OPS: LocoMan robot on hind legs grasping socks
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_170533220_FER
Robot dog that can stand on rear legs is handy
Ferrari Press Agency
LocoMan 1
Ref 15896
30/05/2024
See Ferrari text
Pictures must credit: Carnegie Mellon University
A robot dog that can use its two front legs to pick up and handle objects while walking on its hind ones has been developed by researchers.
The bot, called LocoMan, was created to enhance the uses for quadruped machines to more than just factory or plant video inspections.
It uses lightweight loco-manipulators to expand its abilities allowing it to perform fairly complex manipulation tasks.
These include opening drawers and cupboards to place or retrieve items, pouring drinks and even hoisting a basket.
Four legged robots are also known for their ability to walk over challenging terrain at speed thanks to their low centres of gravity.
LocoMan , developed at the USA’s Carnegie Mellon University in Pittsburgh, is unique because it can transition from its all-fours stance to a standing pose and use its two front legs to manipulate objects.
OPS: LocoMan robot plugging in a tablet charger
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_170533219_FER
Robot dog that can stand on rear legs is handy
Ferrari Press Agency
LocoMan 1
Ref 15896
30/05/2024
See Ferrari text
Pictures must credit: Carnegie Mellon University
A robot dog that can use its two front legs to pick up and handle objects while walking on its hind ones has been developed by researchers.
The bot, called LocoMan, was created to enhance the uses for quadruped machines to more than just factory or plant video inspections.
It uses lightweight loco-manipulators to expand its abilities allowing it to perform fairly complex manipulation tasks.
These include opening drawers and cupboards to place or retrieve items, pouring drinks and even hoisting a basket.
Four legged robots are also known for their ability to walk over challenging terrain at speed thanks to their low centres of gravity.
LocoMan , developed at the USA’s Carnegie Mellon University in Pittsburgh, is unique because it can transition from its all-fours stance to a standing pose and use its two front legs to manipulate objects.
OPS: LocoMan robot opening a cabinet
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_170533217_FER
Robot dog that can stand on rear legs is handy
Ferrari Press Agency
LocoMan 1
Ref 15896
30/05/2024
See Ferrari text
Pictures must credit: Carnegie Mellon University
A robot dog that can use its two front legs to pick up and handle objects while walking on its hind ones has been developed by researchers.
The bot, called LocoMan, was created to enhance the uses for quadruped machines to more than just factory or plant video inspections.
It uses lightweight loco-manipulators to expand its abilities allowing it to perform fairly complex manipulation tasks.
These include opening drawers and cupboards to place or retrieve items, pouring drinks and even hoisting a basket.
Four legged robots are also known for their ability to walk over challenging terrain at speed thanks to their low centres of gravity.
LocoMan , developed at the USA’s Carnegie Mellon University in Pittsburgh, is unique because it can transition from its all-fours stance to a standing pose and use its two front legs to manipulate objects.
OPS: LocoMan robot opening a drawer and placing an object inside before closing it.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
DUKAS_170533216_FER
Robot dog that can stand on rear legs is handy
Ferrari Press Agency
LocoMan 1
Ref 15896
30/05/2024
See Ferrari text
Pictures must credit: Carnegie Mellon University
A robot dog that can use its two front legs to pick up and handle objects while walking on its hind ones has been developed by researchers.
The bot, called LocoMan, was created to enhance the uses for quadruped machines to more than just factory or plant video inspections.
It uses lightweight loco-manipulators to expand its abilities allowing it to perform fairly complex manipulation tasks.
These include opening drawers and cupboards to place or retrieve items, pouring drinks and even hoisting a basket.
Four legged robots are also known for their ability to walk over challenging terrain at speed thanks to their low centres of gravity.
LocoMan , developed at the USA’s Carnegie Mellon University in Pittsburgh, is unique because it can transition from its all-fours stance to a standing pose and use its two front legs to manipulate objects.
OPS: LocoMan robot opening a drawer and placing an object inside before closing it.
Picture supplied by Ferrari
(FOTO: DUKAS/FERRARI PRESS) -
