If you place it at 1/2 that distance the pitch angle is 63 degrees. I would suggest that you determine how high your rocket goes in 1 second, and make that the baseline distance as the pitch angle is 45 degrees for that orientation. The more important question to ask is how far away from the launch pad do you place the antenna tracker? The answer is it depends on how fast your rocket accelerates. They go upwards of tens of millions of $ when you get to the large trailer mounted units.Ĭlick to expand.The Flying Dream AAT pitch (tilt) rate is 90 degrees in 0.8 seconds and the tile (pan) rate is 240 degrees per second which is fine for rocket tracking. If you think the $380 price tag is steep, I have worked with real rocket tracking units and the cheaper ready made professional setups I know of is about $70,000+ for the tracker by itself for a unit not all that much larger. Then even if you lost GPS it would still track it. It would be really cool if you could get it to do highest signal tracking with an antenna on it. You would need to make a camera mount for it, it would be interesting to see how stable the image would be. It can traverse its full range in about a second which should be good enough for about any rocket. It would work off the position from the GPS on your rocket, and would point at it. Bobkrech posted it in another thread in recovery: ( )Īpparently if you go to the manufacturers website you can get a version with double the feed-through channels in the slip ring for $30 more. There is something already made that pretty much does what you want. If it were more expensive then maybe a club could buy one to document its launches. If one were available for reasonable cost I'd almost certainly buy one. But I think it should be able to at least capture the launch and most of the ascent without too much problem (assuming a fast enough gimbal could be built at reasonable cost). There are certain challenges, like what should the camera do if it loses site of the rocket. But once it's set up, you arm it and then go enjoy your flight. The app could let you select some different filming patterns (like when to zoom in or out). It would have to have fast response to keep up. The app would analyze the incoming video and control the gimbal accordingly to keep the rocket centered. Someone should build an automatic tracking motorized gimbal.Īlthough a smartphone is not the ideal tool for video recording a rocket flight (really need an optical zoom), a mount designed to work with a smartphone, along with a companion app, could be a good starting point. Manually tracking a fast-launching rocket can also be quite difficult. It features object and face tracking.I have a good deal of trouble enjoying my launches if I'm also trying to video (or photograph) them. It supports 360-degree horizontal rotation. It can rotate your camera in horizontal and vertical mode.Īpai Genie II: a robot cameraman for iPhone with AI composition optimization that keeps you in the frame. It has a smart camera built-in to track your face without any WiFi connection. It lasts up to 13.5 hours on a fully charged battery.ģ60° Auto Face Tracking Selfie Stick: a 360-degree auto tracking smartphone holder for TikTok and YouTube. It has a rotating speed of up to 180-degrees per second. This pocket-sized device has 12+ modes for you to get creative with your video (e.g tiny planet, timelapse, clone trail).Ĭapture Genie: an auto face/object tracking iPhone mount that turns your device 360-degrees. Pivo Pod: an auto body and action tracking smartphone holder for TikTok, Facebook, and YouTube. ![]() It rotates 360-degrees to keep up with you. ![]() Check out these uniquely awesome ✔️ iPhone gadgets & gizmosįollow by Edgee: an auto face tracking iPhone camera mount for TikTok, YouTube, and other livestreaming platforms.
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