The camera has 2 180 lenses, that it uses to record two circular hemispherical images side by size on a very large 2:1 video frame. Modern video players can convert (undistort) the two circular images into a player rectangle. The player then uses user input or motion sensors to pan the display.That is some cool technology, how is able to simultaneously record vid 360 degrees? But what really impresses me is the driver triple tasking - jib sheet in one hand, spin sheet in the other and knee steering the tiller!
The YouTube app automatically makes any video work in VR if you tell the app you have a Cardboard style viewer. I just push the cardboard button in the app, and it splits the screen into a view for each eye. With 360 degree videos it uses the accelerometer input to move the picture when the goggles/phone move, but even for standard videos it can split them for VR viewing (just in a static direction).I think I can create a VR style version of the video....
You need to click the video player in his post... you just watched an S/V Delos video... at least it sounds like it... hahahaNow that is cool. You can tilt up and look at the top of the mast. Tilt down and see the shark following. Swing it around. Nice. And someone needs to pull their britches up.
Good call! I tried that om my work/android phone and it worked perfectly with my 3D headset. With this video you can use the goggles to look in a fully spherical world, you just lose the depth queuing that you would get with a true 3D effect.The YouTube app automatically makes any video work in VR if you tell the app you have a Cardboard style viewer. I just push the cardboard button in the app, and it splits the screen into a view for each eye. With 360 degree videos it uses the accelerometer input to move the picture when the goggles/phone move, but even for standard videos it can split them for VR viewing (just in a static direction).
That 7 minute video is approx 1 Gigabyte.What size is a file like yours?