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DUKAS_184178437_ZUM
Balikatan 25
April 25, 2025 - Philippines - U.S. Marines with 3d Littoral Anti-Air Battalion, 3d Marine Littoral Regiment, 3d Marine Division, fire the FIM-92 stinger missile system during the Integrated Air and Missile Defense event as a part of Exercise Balikatan 25, at Naval Station Leovigildo Gantioqui, Philippines, Apr. 25, 2025. The IAMD event consisted of dry- and live-fire demonstrations of counter-unmanned aerial systems, to include the U.S. Marine Corps�Marine Air Defense Integrated System, the U.S. Armys AN/TWQ-1 Avenger, and the Philippine Air Forces Surface-to-Air Python and Derby - Medium Range. Balikatan is a longstanding annual exercise between the Armed Forces of the Philippines and U.S. military designed to strengthen our ironclad alliance, improve our capable combined force, and demonstrate our commitment to regional security and stability. (Credit Image: � Iyer Ramakrishna/U.S. Marines/ZUMA Press Wire (FOTO: DUKAS/ZUMA)
� 2025 by ZUMA Press Wire -
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_183303527_NUR
CES 2025 In Las Vegas
LAS VEGAS, USA - JANUARY 08:
Dell, HP, and Lenovo laptops equipped with Intel Core Ultra processors, optimized for premium thin and powerful laptops, featuring 3D performance hybrid architecture, advanced AI capabilities, and built-in Intel Arc GPU, on display at the Consumer Electronics Show (CES) 2025, in Las Vegas, Nevada, USA, on January 8 2025. (Photo by Artur Widak/NurPhoto) -
DUKAS_181748609_BES
Tiny Camper est un mobil-home créé en 3D à partir de 7.000 bouteilles en plastique recyclées
Picture MUST credit: Lemki Robotics A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road. Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide. The recycled polypropylene from the bottles is reinforced with fibreglass. The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg. The interior has integrated sleeping area , a kitchenette and storage plus a TV screen. There is even ambient lighting which is controlled remotely from a handset. Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient. Integrated sensors monitor water level, battery charge and control temperature; It was created by Ukrainian-German company Lemki Robotix. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181748603_BES
Tiny Camper est un mobil-home créé en 3D à partir de 7.000 bouteilles en plastique recyclées
Picture MUST credit: Lemki Robotics A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road. Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide. The recycled polypropylene from the bottles is reinforced with fibreglass. The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg. The interior has integrated sleeping area , a kitchenette and storage plus a TV screen. There is even ambient lighting which is controlled remotely from a handset. Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient. Integrated sensors monitor water level, battery charge and control temperature; It was created by Ukrainian-German company Lemki Robotix. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181748597_BES
Tiny Camper est un mobil-home créé en 3D à partir de 7.000 bouteilles en plastique recyclées
Picture MUST credit: Lemki Robotics A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road. Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide. The recycled polypropylene from the bottles is reinforced with fibreglass. The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg. The interior has integrated sleeping area , a kitchenette and storage plus a TV screen. There is even ambient lighting which is controlled remotely from a handset. Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient. Integrated sensors monitor water level, battery charge and control temperature; It was created by Ukrainian-German company Lemki Robotix. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181748591_BES
Tiny Camper est un mobil-home créé en 3D à partir de 7.000 bouteilles en plastique recyclées
Picture MUST credit: Lemki Robotics A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road. Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide. The recycled polypropylene from the bottles is reinforced with fibreglass. The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg. The interior has integrated sleeping area , a kitchenette and storage plus a TV screen. There is even ambient lighting which is controlled remotely from a handset. Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient. Integrated sensors monitor water level, battery charge and control temperature; It was created by Ukrainian-German company Lemki Robotix. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181748586_BES
Tiny Camper est un mobil-home créé en 3D à partir de 7.000 bouteilles en plastique recyclées
Picture MUST credit: Lemki Robotics A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road. Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide. The recycled polypropylene from the bottles is reinforced with fibreglass. The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg. The interior has integrated sleeping area , a kitchenette and storage plus a TV screen. There is even ambient lighting which is controlled remotely from a handset. Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient. Integrated sensors monitor water level, battery charge and control temperature; It was created by Ukrainian-German company Lemki Robotix. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181748581_BES
Tiny Camper est un mobil-home créé en 3D à partir de 7.000 bouteilles en plastique recyclées
Picture MUST credit: Lemki Robotics A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road. Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide. The recycled polypropylene from the bottles is reinforced with fibreglass. The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg. The interior has integrated sleeping area , a kitchenette and storage plus a TV screen. There is even ambient lighting which is controlled remotely from a handset. Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient. Integrated sensors monitor water level, battery charge and control temperature; It was created by Ukrainian-German company Lemki Robotix. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181748576_BES
Tiny Camper est un mobil-home créé en 3D à partir de 7.000 bouteilles en plastique recyclées
Picture MUST credit: Lemki Robotics A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road. Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide. The recycled polypropylene from the bottles is reinforced with fibreglass. The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg. The interior has integrated sleeping area , a kitchenette and storage plus a TV screen. There is even ambient lighting which is controlled remotely from a handset. Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient. Integrated sensors monitor water level, battery charge and control temperature; It was created by Ukrainian-German company Lemki Robotix. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181748571_BES
Tiny Camper est un mobil-home créé en 3D à partir de 7.000 bouteilles en plastique recyclées
Picture MUST credit: Lemki Robotics A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road. Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide. The recycled polypropylene from the bottles is reinforced with fibreglass. The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg. The interior has integrated sleeping area , a kitchenette and storage plus a TV screen. There is even ambient lighting which is controlled remotely from a handset. Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient. Integrated sensors monitor water level, battery charge and control temperature; It was created by Ukrainian-German company Lemki Robotix. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181748567_BES
Tiny Camper est un mobil-home créé en 3D à partir de 7.000 bouteilles en plastique recyclées
Picture MUST credit: Lemki Robotics A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road. Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide. The recycled polypropylene from the bottles is reinforced with fibreglass. The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg. The interior has integrated sleeping area , a kitchenette and storage plus a TV screen. There is even ambient lighting which is controlled remotely from a handset. Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient. Integrated sensors monitor water level, battery charge and control temperature; It was created by Ukrainian-German company Lemki Robotix. Picture supplied by JLPPA
JLPPA / Bestimage -
DUKAS_181733660_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733655_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733650_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733645_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733640_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733635_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733630_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733625_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733618_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733611_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733604_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733597_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733711_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733705_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733699_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733693_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733682_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733676_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733670_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
DUKAS_181733665_FER
3D printed mobile home made from recycled plastic bottles.
Ferrari Press Agency
Tiny Camper 1
Ref 16580
26/02/2025
See Ferrari pictures
Picture MUST credit: Lemki Robotics
A mobile home, 3D printed from 7,000 recycled plastic bottles, has hit the road.
Called Tiny Camper, the bijou teardrop-shaped creation is eight metres long and just over three metres tall and wide.
The recycled polypropylene from the bottles is reinforced with fibreglass.
The 9 mm thick walls are able to maintain strength yet the shell weighs only 250 kg.
The interior has integrated sleeping area , a kitchenette and storage plus a TV screen.
There is even ambient lighting which is controlled remotely from a handset.
Tiny Camper also comes with integrated batteries that can be connected to solar panels to make the caravan self-sufficient.
Integrated sensors monitor water level, battery charge and control temperature;
It was created by Ukrainian-German company Lemki Robotix.
OPS: The 3D printed Tiny Camper made from 7,000 recycled plastic bottles.
Picture supplied by Ferrari (FOTO: DUKAS/FERRARI PRESS) -
