Find X, which comes in the name of 'Future Flagship', carries the highest mission of the OPPO product concept, the 'front and back non-porous, seamless' body design, the innovative dual-track predatory structure, and OPPO Find X In a short period of time, it has aroused widespread concern and praise from the industry and users.
However, compared to the intuitive differences in design, structure, etc., the technology behind a product is often not noticed by users, as many people may not know, Find X is the first to carry 3D structured light technology and mass production. Product, this technology is called - OPPO FaceKey 3D structured light.
In fact, as early as 2016, OPPO began to invest in R&D in 3D technology. Finally, two months after the completion of Find X, the relevant project team was formally established in May 2017, and the 3D structured light special research work began. From the official establishment to the official release of Find X in June 2018, OPPO FaceKey 3D structured light has undergone three major iterations of hardware, plus multiple DOE verifications in the later period, and a total of 10 rounds of tests were performed before and after. More than 10,000 Find X put into the test, only to enable OPPO FaceKey 3D structured light to give users a more excellent experience.
As an emerging technology in the industry, to achieve the ultimate experience of OPPO FaceKey 3D structured light, we must start from the core of technology. The indicators for measuring the comprehensive performance of structured light are mainly divided into depth and precision, and OPPO is standard around the above two indicators. In addition, OPPO has also added a self-calibration detection function to prevent the structural light module deformation from affecting the structural light recognition accuracy when the user falls.
OPPO has said that OPPO FaceKey 3D structured light has a number of lattices of 15,000, resolution of 1 million, structural light accuracy of up to millimeters, security level can reach one millionth. The speed of 3D acquisition and the speed of face recognition are all up to the millimeter level.
In the face recognition section, a test of 3D face data of 70,000 people and 100 copies per person was performed. The number of test samples alone reached 7 million, and the number of trainings exceeded 1 million times. OPPO conducted this. Many attempts have been made to ensure that face payment and recognition are foolproof, and that OPPO FaceKey 3D structured light has reached the industry-standard 3D model accuracy measurement standard.
In OPPO's view, the application of 3D structured light will continue to rise in the future, and it has been applied to unlocking, paying and photographing, etc., bringing users a highly technical user experience. In 3D structured light demand Before the large-scale outbreak, OPPO is constantly improving the user experience of 3D structured light through painstaking research and development and technology accumulation, laying a solid foundation for the subsequent functional iteration.
Find X, which comes in the name of 'Future Flagship', carries the highest mission of the OPPO product concept, the 'front and back non-porous, seamless' body design, the innovative dual-track predatory structure, and OPPO Find X In a short period of time, it has aroused widespread concern and praise from the industry and users.
However, compared to the intuitive differences in design, structure, etc., the technology behind a product is often not noticed by users, as many people may not know, Find X is the first to be equipped with 3D structured light technology and mass production. Product, this technology is called - OPPO FaceKey 3D structured light.
In fact, as early as 2016, OPPO began to invest in R&D in 3D technology. Finally, two months after the completion of Find X, the relevant project team was formally established in May 2017, and the 3D structured light special research work began. From the official establishment to the official release of Find X in June 2018, OPPO FaceKey 3D structured light has undergone three major iterations of hardware, plus multiple DOE verifications in the later period, and a total of 10 rounds of tests were performed before and after. More than 10,000 Find X put into the test, only to enable OPPO FaceKey 3D structured light to give users a more excellent experience.
As an emerging technology in the industry, to achieve the ultimate experience of OPPO FaceKey 3D structured light, we must start from the core of technology. The indicators for measuring the comprehensive performance of structured light are mainly divided into depth and precision, and OPPO is standard around the above two indicators. In addition, OPPO has also added a self-calibration detection function to prevent the structural light module deformation from affecting the structural light recognition accuracy when the user falls.
OPPO has said that OPPO FaceKey 3D structured light has a number of lattices of 15,000, resolution of 1 million, structural light accuracy of up to millimeters, security level can reach one millionth. The speed of 3D acquisition and the speed of face recognition are all up to the millimeter level.
In the face recognition section, a test of 3D face data of 70,000 people and 100 copies per person was performed. The number of test samples alone reached 7 million, and the number of trainings exceeded 1 million times. OPPO did this. Many attempts have been made to ensure that face payment and recognition are foolproof, and that OPPO FaceKey 3D structured light has reached the industry-standard 3D model accuracy measurement standard.
In OPPO's view, the application of 3D structured light will continue to rise in the future, and it has been applied to unlocking, paying and photographing, etc., bringing users a highly technical user experience. In 3D structured light demand Before the large-scale outbreak, OPPO is constantly improving the user experience of 3D structured light through painstaking research and development and technology accumulation, laying a solid foundation for the subsequent functional iteration.