With the information from this file, programs such as PTGui or Autopano can make a rough pre-alignment of the images, Papywizard XMLĪfter RCPano has taken the pictures for a panorama, a Papywizard-XML file is created which describes the panorama taken. Here you will find more information on the Sun-EV. The automatic reduction is applied to images with the sky covering at least 50% of the image, having the gimbal positioned horizontally or pointing upwards. In manual mode the exposure can be reduced while the camera is moving towards the sun to reduce overexposures. To compensate the underexposure when facing the camera towards the ground. For this purpose, RCPano has the Row-EV: An EV value can be added to the exposure per row of the panorama ![]() If you take photos in manual mode, you know the situation: Exposure is correct for the sky, but as soon as the gimbal moves towards the ground, Here you can find further information on the enhanced AEB. Since mid-2017, DJI's firmware only allows EV values of ☐.7 EV, which is not sufficient for 360º panoramas when the sun is visible in the scene. Typically, the photographer is almost free to choose these values. The AEB mode is intended either for HDR shooting or to select the best image from a series of shots.įor this purpose, each scene is shot multiple times with different exposure values (EV). Using the OSMO+ panoramas with up to 1.4 gigapixel can be shot. This makes real gigapixel panoramas possible. Position and overlapping for every image at the current zoom level and requested row and column count. RCPano supports the zoom lens of the OSMO+ and the standard zoom lenses for the Zenmuse X5 and X7 camera series and calculates Models capable of adjusting the aperture can also be operated in AV (aperture) mode.īesides that, you can set the white balance and AEB picture count.Īll other parameters like picture style can be configured in the DJI GO App and will not be changed by RCPano.ĭuring operation, RCPano will show you the current ISO, shutter speed and EV, which can be changed as you would do in the DJI GO App. Using RCPano you can operate the camera of your device in three modes: M (manual), P (program) and TV (shutter). This decreases the number of images for post processing and the time needed to shoot a full panorama. Optionally, you can reduce the picture count when the camera is facing towards the ground while maintaining the overlapping percentage defined by the column count. The nadir image (camera facing straight down) is always taken. With RCPano, you configure the number of rows and columns the software will shoot images at. You will find more information regarding the Mavic Pro here: Shooting Panoramas with the Mavic Pro. ![]() This can lead to stitching problems as you might know from panoramas taken with a cell phone.Īs with the other supported drones RCPano compensates the camera position by rotating the drone around the camera axis, not the center or the drone. With the Spark, DJI continued to build aircrafts this way.įor the shooting of panorama images the position is disadvantageous, because the camera is moved out of the nodal point considerably. With this technique the height of the drone could be significantly reduced and transportation is much more easier. The Mavic Pro is DJI's first drone where the camera is not mounted underneath the copter but in front of it. ![]() In low wind situations this significantly enhances stiching quality especially when operating at low altitudes or with objects near the camera. Instead of rotating the drone with yaw commands (as you would do with your left stick on the remote), RCPano also utilizes pitch and roll to rotate the aircraft around the nodal point of the camera. Panorama with rotation around the nodal point This reduces drifting and stitching errors. It does not rely on the built-in programs of the aircraft to let the drone stay in position but tracks the position ten times per second and makes adjustments as needed in realtime. RCPano will take care of altitude, pitch, roll and yaw to maintain the aircraft's position as accurate as possible to minimize stitching errors. Why the Spark is only partially usable for the creation of a panorama can be read in the Statement on the Spark. The app works with the OSMO to take the images of the sky or for a ground based panorama. Navigate your aircraft to the location you want to take the images and let RCPano do the rest. RCPano is an iOS App that takes images for a 360° aerial panorama using your Phantom, Mavic or other DJI drones.
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