Making Virtual Reality Better
- Scientists have developed a new optical sensor for cameras that creates 3D images, which could lead to holograms in cell phones.
- Holograms allow you to view life-like 3D images without wearing additional 3D glasses.
- Proto builds infrastructure for holographic phone calls and conferencing.
Matt Bird/Getty Images:max_bytes(150000):strip_icc()/GettyImages-523356972-21f328ba22464cd8a7ae377d3495368e.jpg)
Smartphones will soon have the ability to display holograms.
Researchers in South Korea claim in a recent publication that they have developed a new light sensor in a camera that generates 3D images. The technology could lead to the long-awaited goal of producing holograms without bulky equipment.
Stanford University professor Gordon Wetzstein, who studied holograms and was not involved in the study, told Lifewire in an email interview that holograms could “provide glasses-free 3D capabilities” for smartphones.
Holograms go mobile.
Scientists at the Korea Institute of Science and Technology (KIST) and a joint research team announced that they have developed a photodiode that detects polarization of near-infrared rays without an additional polarization filter. This technology can create miniature holographic image sensors for 3D digital holograms.
Photodiodes convert light into electrical signals and are responsible for image sensor pixels in digital and smartphone cameras. Using polarization of light as an image sensor can turn a regular camera into a camera that can store 3D holograms. However, previous polarization sensor cameras were too bulky to be embedded in portable electronics.
Researchers have developed a new type of photodiode by stacking special semiconductors.
Do-kyung Hwang, the author of the paper, said in a press release, “In order to finally miniaturize the hologram system, it is necessary to study the miniaturization and integration of individual elements.” “The results of our research will lay the groundwork for the future development of miniature holographic camera sensor modules.”
Holographic displays offer a unique opportunity, Wetzstein said. For example, you can view life-like 3D images without wearing separate 3D glasses.
“It also offers unique benefits in the context of VR/AR displays, as they are very light-efficient and provide users with a more natural 3D image that enhances the perceptual realism and visual comfort of these immersive experiences,” he said. added.
“Real holograms are either consumer-facing or cost-effective enough.”
Call a friend with a hologram
Holograms have appeared in science fiction for decades without being transformed into real devices that can be purchased. “There really aren’t any solutions available today,” Timothy Wilkinson, a professor of photonics at the University of Cambridge who studies holograms, told Lifewire in an email. “Holographic displays have been studied for decades, but the technology is not ready for commercial use.”
David Nussbaum, CEO of Proto, who is researching hologram technology, said, “These days, devices using the word hologram are not holograms at all.
“There are no consumer-ready or cost-effective real holograms outside the lab,” Nussbaum adds. “It’s still a few more years before this technology becomes suitable for everyday use.”
Some small companies are commercializing holographic displays such as: B. VividQ to create business components. Wilkinson said holographic devices are manufactured in small batches, so they are expensive.
Matt Bird/Getty Images:max_bytes(150000):strip_icc()/GettyImages-523441026-66137b01a98e4858a42ac0a027ec1e94.jpg)
“The main problem on the market right now is that most LCD displays are built for refractive imaging and are not suitable for diffraction,” Wilkinson added. “The technology exists, but large LCD manufacturers need market convincing to invest in the cost of producing low-cost, holographic-capable liquid crystal devices.”
But holograms can finally have their moments. Proto builds infrastructure for holographic phone calls and conferencing. “People are using it every day with the easiest 4K quality, near-zero latency, and most cost-effective solution today. So it needs to be in a place that is familiar to networks, software, content streams, and even the masses,” said Walnut. . “We want to be the makers of real holograms that run on the systems we build.”
If they become mainstream, holographic displays could have a wide range of applications. Whether a doctor is trying to explain a joint injury to a patient or an engineer is trying to explain how to make a complex part, using holography to make an object exist is helpful, Nussbaum said.
“This presence helps the brain understand things faster than flat-panel displays,” adds Nussbaum. “Being able to do this without a hat or goggles allows the team to collaborate more effectively and build more understanding. And being able to tell the world about it could benefit telemedicine and many other industries.”
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Holograms Could Put 3D on Your Phone Without the Dorky Glasses
Making virtual reality even better
Scientists have created new light sensors inside a camera that produce 3D images in a development that could lead to holograms in your phone.
Holograms allow you to see a life-like 3D image without the necessity of wearing additional 3D glasses.
Proto is building the infrastructure for hologram phone calls and meetings.
Matt Bird / Getty Images
Your smartphone could soon feature the ability to show holograms.
Researchers in South Korea claim in a recent paper that they’ve created new light sensors inside a camera that create 3D images. The technique could lead to the long-sought goal of producing holograms without bulky equipment.
Holograms “could offer glasses-free 3D capabilities,” for smartphones, Gordon Wetzstein, a professor at Stanford University who studies holograms and was not part of the study, told Lifewire in an email interview.
Holograms Go Mobile
Scientists at the Korea Institute of Science and Technology and collaborators say they have developed a photodiode that detects the polarization of light in the near-infrared region without additional polarization filters. The technology can create a miniaturized holographic image sensor for 3D digital holograms.
Photodiodes turn light into electrical signals and are responsible for the pixels of image sensors in digital and smartphone cameras. Using the polarization of light with an image sensor can turn an ordinary camera into one capable of storing 3D holograms. But previous polarization-sensing cameras were too bulky to be put into portable electronic devices.
The researchers developed a new type of photodiode by stacking special semiconductors.
“Research on the downsizing and integration of individual elements is required to ultimately miniaturize holographic systems,” Do Kyung Hwang, one of the paper’s authors, said in a news release. “The results of our research will lay the foundation for the future development of miniaturized holographic camera sensor modules.”
Holographic displays offer unique capabilities, Wetzstein said. For example, they allow you to see a life-like 3D image without the necessity of wearing additional 3D glasses.
“In the context of VR/AR displays, they also offer unique benefits in being very light efficient and offering more natural 3D images to the user, which improve the perceptual realism and visual comfort of these immersive experiences,” he added.
“There’s no true hologram outside of a lab that is ready, or cost-effective enough, for consumers.”
Calling Your Friends Via Hologram
Holograms have spent decades appearing in science fiction without turning into real devices you can buy. “There are really no solutions available today,” Timothy Wilkinson, a professor of Photonic Engineering at the University of Cambridge who studies holograms, told Lifewire via email. “Holographic displays have been studied for decades, but the technology hasn’t been ready for commercial products.”
David Nussbaum, the CEO of Proto, which is working on holographic technology, said gadgets using the word “hologram” these days aren’t really holograms at all.
“There’s no true hologram outside of a lab that is ready, or cost-effective enough, for consumers,” Nussbaum added. “We’re many years away from that technology becoming practical for everyday use.”
A few small companies are commercializing holographic displays, such as VividQ which makes components for business use. Wilkinson said the holographic devices are produced in low volume and therefore expensive.
Matt Bird / Getty Images
“The main problem in the market at the moment is that most LCD displays are built for refractive imaging and do not suit diffraction,” Wilkinson added. “The technology is there, but the large LCD manufacturers need to be convinced of the market in order for them to invest in the costs of producing low-cost liquid crystal devices suitable for holography.”
But holograms may finally be having their moment. Proto is building the infrastructure for hologram phone calls and meetings. “People are using them every day in the easiest to operate, 4K quality, near-zero latency, the most cost-effective solution now—so the networks and software and content streams, and even the familiarity for the public, will all be in place,” Nussbaum said. “We’d like to be the ones making the true holograms to run on the systems we’re creating.”
If they ever become mainstream, holographic displays could have a wide range of uses. When a doctor wants to explain a joint injury to a patient—or an engineer seeks to explain how a complex part should be manufactured—it’s helpful to have holography to give presence to the objects, Nussbaum said.
“That presence helps the brain understand things quicker than a flat display,” Nussbaum added. “Being able to do this without headgear or isolating goggles lets a team collaborate more effectively, building even more understanding. And being able to beam this around the world can help in telehealth and so many other industries.”
#Holograms #Put #Phone #Dorky #Glasses
Holograms Could Put 3D on Your Phone Without the Dorky Glasses
Making virtual reality even better
Scientists have created new light sensors inside a camera that produce 3D images in a development that could lead to holograms in your phone.
Holograms allow you to see a life-like 3D image without the necessity of wearing additional 3D glasses.
Proto is building the infrastructure for hologram phone calls and meetings.
Matt Bird / Getty Images
Your smartphone could soon feature the ability to show holograms.
Researchers in South Korea claim in a recent paper that they’ve created new light sensors inside a camera that create 3D images. The technique could lead to the long-sought goal of producing holograms without bulky equipment.
Holograms “could offer glasses-free 3D capabilities,” for smartphones, Gordon Wetzstein, a professor at Stanford University who studies holograms and was not part of the study, told Lifewire in an email interview.
Holograms Go Mobile
Scientists at the Korea Institute of Science and Technology and collaborators say they have developed a photodiode that detects the polarization of light in the near-infrared region without additional polarization filters. The technology can create a miniaturized holographic image sensor for 3D digital holograms.
Photodiodes turn light into electrical signals and are responsible for the pixels of image sensors in digital and smartphone cameras. Using the polarization of light with an image sensor can turn an ordinary camera into one capable of storing 3D holograms. But previous polarization-sensing cameras were too bulky to be put into portable electronic devices.
The researchers developed a new type of photodiode by stacking special semiconductors.
“Research on the downsizing and integration of individual elements is required to ultimately miniaturize holographic systems,” Do Kyung Hwang, one of the paper’s authors, said in a news release. “The results of our research will lay the foundation for the future development of miniaturized holographic camera sensor modules.”
Holographic displays offer unique capabilities, Wetzstein said. For example, they allow you to see a life-like 3D image without the necessity of wearing additional 3D glasses.
“In the context of VR/AR displays, they also offer unique benefits in being very light efficient and offering more natural 3D images to the user, which improve the perceptual realism and visual comfort of these immersive experiences,” he added.
“There’s no true hologram outside of a lab that is ready, or cost-effective enough, for consumers.”
Calling Your Friends Via Hologram
Holograms have spent decades appearing in science fiction without turning into real devices you can buy. “There are really no solutions available today,” Timothy Wilkinson, a professor of Photonic Engineering at the University of Cambridge who studies holograms, told Lifewire via email. “Holographic displays have been studied for decades, but the technology hasn’t been ready for commercial products.”
David Nussbaum, the CEO of Proto, which is working on holographic technology, said gadgets using the word “hologram” these days aren’t really holograms at all.
“There’s no true hologram outside of a lab that is ready, or cost-effective enough, for consumers,” Nussbaum added. “We’re many years away from that technology becoming practical for everyday use.”
A few small companies are commercializing holographic displays, such as VividQ which makes components for business use. Wilkinson said the holographic devices are produced in low volume and therefore expensive.
Matt Bird / Getty Images
“The main problem in the market at the moment is that most LCD displays are built for refractive imaging and do not suit diffraction,” Wilkinson added. “The technology is there, but the large LCD manufacturers need to be convinced of the market in order for them to invest in the costs of producing low-cost liquid crystal devices suitable for holography.”
But holograms may finally be having their moment. Proto is building the infrastructure for hologram phone calls and meetings. “People are using them every day in the easiest to operate, 4K quality, near-zero latency, the most cost-effective solution now—so the networks and software and content streams, and even the familiarity for the public, will all be in place,” Nussbaum said. “We’d like to be the ones making the true holograms to run on the systems we’re creating.”
If they ever become mainstream, holographic displays could have a wide range of uses. When a doctor wants to explain a joint injury to a patient—or an engineer seeks to explain how a complex part should be manufactured—it’s helpful to have holography to give presence to the objects, Nussbaum said.
“That presence helps the brain understand things quicker than a flat display,” Nussbaum added. “Being able to do this without headgear or isolating goggles lets a team collaborate more effectively, building even more understanding. And being able to beam this around the world can help in telehealth and so many other industries.”
#Holograms #Put #Phone #Dorky #Glasses
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