The New International Expo Centre in Pudong, Shanghai, has been very busy recently, from SNEC at the end of May to the CES that just ended in mid-June, to the 2018 World Mobile Congress to be held on June 27-29 - Shanghai (referred to as: MWC Shanghai) ), welcoming all walks of exhibitors and spectators. The theme of this conference is 'Meeting a bright future'. Most of the participants are mobile communication companies, which will show the changes and prospects of mobile technology for life.
As the top five smartphone brand in China, vivo also released the latest technology in MWC Shanghai - TOF super-induction technology. The emergence of this technology has broken through the limitations of the current stereoscopic imaging technology in the mobile phone industry, for future images, human-computer interaction, AR and so on have brought infinite possibilities, accelerating the arrival of the smart phone era, which has aroused the enthusiastic attention of the live media and exhibitors.
At last year's MWC conference, Vivo officially released the screen fingerprint technology, and in the subsequent release of the vivo X20 Plus screen fingerprint version, vivo X21 and the latest AI smart flagship vivo NEX mass production. Now, vivo screen fingerprint technology has evolved To the third generation, it has become one of the best solutions to achieve a true full screen.
Vivo constantly explores 3D to 3D evolution
The TOF 3D super-sensing technology released by Vivo has opened up new enthusiasm for the arrival of new human-computer interaction, and has become the key to breaking through the future of wisdom. In the era of 2D information, due to the lack of reading of deep information, the application scenarios and security of smartphones It is difficult to make further breakthroughs in other areas. Only by developing into the 3D field can we break through the bottleneck of current imaging technology.
Equipped with screen fingerprint technology, vivo NEX achieves zero-screen full screen
TOF 3D super induction technology structure diagram
Based on vivo TOF 3D super-induction technology, smartphones can acquire more detailed depth information and more powerful 3D modeling capabilities, such as face recognition, gesture and limb recognition, 3D camera, AR and other 3D vision applications. achieve.
Break through industry bottlenecks
The mainstream solutions in the current 3D vision field are structured light and TOF, of which structured light technology is the most commonly used solution. However, structured light technology has less effective depth information, large baseline (baseline), short working distance, and difficult mass production. In order to explore new human-computer interaction methods and more application scenarios of smart terminals, vivo chose 'TOF 3D super-induction technology', which has high effective depth information, long working distance, flexible structure and rich application scenarios. Such advantages, in order to meet the user's more expectations for stereoscopic experience.
TOF 3D super sensing technology advantage
Vivo TOF 3D super-induction technology realizes stereo vision by emitting near-infrared light, and the sensor calculates the difference between the infrared light and the target's reach return time. Compared with structured light technology, the effective depth information point of vivo TOF 3D super-sensing is as high as 300,000. 10 times the structured light technology is the highest effective depth information point in the industry.
At working distance, vivo TOF 3D super-sensing technology can increase the working distance to 3 meters, which further expands the application scene, such as 3D fitting, 3D photography, MR somatosensory games and other long-distance application scenarios. The TOF 3D super-sensing technology has zero demand for the baseline, which makes the body ID design more flexible, providing more possibilities for future mobile phone forms.
Strong application prospects
Hardware and technical conditions are prerequisites for implementing the application scenario. The arrival of vivo TOF 3D super-sensing technology also indicates that a wider application scenario is coming.
(Note: 2018MWCS live vivo demonstration 3D application)
For example, online clothing can not be tried on, resulting in a high return rate. With the vivo 3D fitting function, buyers can easily build a human body model with a mobile phone, try on the line, quickly and conveniently find the good goods. Avoid the embarrassment of 'buyers show'.
Like the somatosensory game, with the addition of 3D vision, players can remotely manipulate the characters in the game through gestures and limbs to gain a more immersive gaming experience and enjoy professional game console level anytime, anywhere.
In addition, the vivo 3D camera function provides a more stereoscopic data model. With AI, the face and body shape can be finely adjusted, and the lighting, blurring, coloring, etc. can be compared with the professional retoucher's retouching effect.
Vivo announced the opening of the '3D Vision Developer Program'
In order to put the vivo TOF 3D super-sensing technology into application as soon as possible, Vivo has officially launched the '3D Vision Developer Program', inviting industry developers, service providers and users to explore and continuously improve the performance and experience of 3D vision.
The New International Expo Centre in Pudong, Shanghai, has been very busy recently, from SNEC at the end of May to the CES that just ended in mid-June, to the 2018 World Mobile Congress to be held on June 27-29 - Shanghai (referred to as: MWC Shanghai) ), welcoming all walks of exhibitors and spectators. The theme of this conference is 'Meeting a bright future'. Most of the participants are mobile communication companies, which will show the changes and prospects of mobile technology for life.
As the top five smartphone brand in China, vivo also released the latest technology in MWC Shanghai - TOF super-induction technology. The emergence of this technology has broken through the limitations of the current stereoscopic imaging technology in the mobile phone industry, for future images, human-computer interaction, AR and so on have brought infinite possibilities, accelerating the arrival of the smart phone era, which has aroused the enthusiastic attention of the live media and exhibitors.
At last year's MWC conference, Vivo officially released the screen fingerprint technology, and in the subsequent release of the vivo X20 Plus screen fingerprint version, vivo X21 and the latest AI smart flagship vivo NEX mass production. Now, vivo screen fingerprint technology has evolved To the third generation, it has become one of the best solutions to achieve a true full screen.
Vivo constantly explores 3D to 3D evolution
The TOF 3D super-sensing technology released by Vivo has opened up new enthusiasm for the arrival of new human-computer interaction, and has become the key to breaking through the future of wisdom. In the era of 2D information, due to the lack of reading of deep information, the application scenarios and security of smartphones It is difficult to make further breakthroughs in other areas. Only by developing into the 3D field can we break through the bottleneck of current imaging technology.
Equipped with screen fingerprint technology, vivo NEX achieves zero-screen full screen
TOF 3D super induction technology structure diagram
Based on vivo TOF 3D super-induction technology, smartphones can acquire more detailed depth information and more powerful 3D modeling capabilities, such as face recognition, gesture and limb recognition, 3D camera, AR and other 3D vision applications. achieve.
Break through industry bottlenecks
The mainstream solutions in the current 3D vision field are structured light and TOF, of which structured light technology is the most commonly used solution. However, structured light technology has less effective depth information, large baseline (baseline), short working distance, and difficult mass production. In order to explore new human-computer interaction methods and more application scenarios of smart terminals, vivo chose 'TOF 3D super-induction technology', which has high effective depth information, long working distance, flexible structure and rich application scenarios. Such advantages, in order to meet the user's more expectations for stereoscopic experience.
TOF 3D super sensing technology advantage
Vivo TOF 3D super-induction technology realizes stereo vision by emitting near-infrared light, and the sensor calculates the difference between the infrared light and the target's reach return time. Compared with structured light technology, the effective depth information point of vivo TOF 3D super-sensing is as high as 300,000. 10 times the structured light technology is the highest effective depth information point in the industry.
At working distance, vivo TOF 3D super-sensing technology can increase the working distance to 3 meters, which further expands the application scene, such as 3D fitting, 3D photography, MR somatosensory games and other long-distance application scenarios. The TOF 3D super-sensing technology has zero demand for the baseline, which makes the body ID design more flexible, providing more possibilities for future mobile phone forms.
Strong application prospects
Hardware and technical conditions are prerequisites for implementing the application scenario. The arrival of vivo TOF 3D super-sensing technology also indicates that a wider application scenario is coming.
(Note: 2018MWCS live vivo demonstration 3D application)
For example, online clothing can not be tried on, resulting in a high return rate. With the vivo 3D fitting function, buyers can easily build a human body model with a mobile phone, try on the line, quickly and conveniently find the good goods. Avoid the embarrassment of 'buyers show'.
Like the somatosensory game, with the addition of 3D vision, players can remotely manipulate the characters in the game through gestures and limbs to gain a more immersive gaming experience and enjoy professional game console level anytime, anywhere.
In addition, the vivo 3D camera function provides a more stereoscopic data model. With AI, the face and body shape can be finely adjusted, and the lighting, blurring, coloring, etc. can be compared with the professional retoucher's retouching effect.
Vivo announced the opening of the '3D Vision Developer Program'
In order to put the vivo TOF 3D super-sensing technology into application as soon as possible, Vivo has officially launched the '3D Vision Developer Program', inviting industry developers, service providers and users to explore and continuously improve the performance and experience of 3D vision.
