LiDAR
(Light Detection and Ranging) is used to determine distance by
measuring how long it takes light to reach an object and reflect back.
It is so advanced, it’s being used by NASA for the next Mars landing
mission. And it’s now been engineered to fit in the thin and light
iPad Pro.
The
custom-designed LiDAR Scanner uses direct time of flight to measure
reflected light from up to five meters away, both indoors and out. It
works at the photon level, operates at nanosecond speeds, and opens up
tremendous possibilities for augmented reality and beyond.
LiDAR
(Light Detection and Ranging) is used to determine distance by
measuring how long it takes light to reach an object and reflect back.
It is so advanced, it’s being used by NASA for the next Mars landing
mission. And it’s now been engineered to fit in the thin and light
iPad Pro.
The
custom-designed LiDAR Scanner uses direct time of flight to measure
reflected light from up to five meters away, both indoors and out. It
works at the photon level, operates at nanosecond speeds, and opens up
tremendous possibilities for augmented reality and beyond.
LiDAR
(Light Detection and Ranging) is used to determine distance by
measuring how long it takes light to reach an object and reflect back.
It is so advanced, it’s being used by NASA for the next Mars landing
mission. And it’s now been engineered to fit in the thin and light
iPad Pro.
The
custom-designed LiDAR Scanner uses direct time of flight to measure
reflected light from up to five meters away, both indoors and out. It
works at the photon level, operates at nanosecond speeds, and opens up
tremendous possibilities for augmented reality and beyond.
LiDAR
(Light Detection and Ranging) is used to determine distance by
measuring how long it takes light to reach an object and reflect back.
It is so advanced, it’s being used by NASA for the next Mars landing
mission. And it’s now been engineered to fit in the thin and light
iPad Pro.
The
custom-designed LiDAR Scanner uses direct time of flight to measure
reflected light from up to five meters away, both indoors and out. It
works at the photon level, operates at nanosecond speeds, and opens up
tremendous possibilities for augmented reality and beyond.