sir, can you give me the circuit diagram and the codes to the obstacle avoiding the drone and also give me the library for the obstacle avoiding drone.
I would think it possible the FAA had a word in it at the time. It wasn't until December of 2020 the FAA started allowing flights over people/densely populated areas. Until then, in a situation like in the video, they would have had to fly below "head level" except in sparsely populated areas. Even so, the need for a rapidly responding anti collision system in a world where we can now fly high over large gatherings of people is even more important considering the airspace itself will become congested and drones running into each other wouldn't be conducive to the safety of those below. And what if Bigfoot isn't fast enough to swat it out of the air.............
The underlying control policy (rule based) was relatively simple but it can definitely be extended into more advanced systems. The demo shown in this video served as proof of concept for the underlying algorithms and the use of our sensor technology in the field of drones.
Nice, the response seemed really quick. Did you guys solve in relative frame? And did you guys look for any other non cooperative solutions?geometrical,MIP etc.
Hey, sharer. In fact, a single camera has been used here to detect moving objects in different directions ten years ago, for your reference. ruclips.net/video/VRtdLKOp3rk/видео.html
loved the Ubuntu in the back at 2:47
sir, I love your obstacle-avoiding drone. good.
sir, can you give me the circuit diagram and the codes to the obstacle avoiding the drone and also give me the library for the obstacle avoiding drone.
😂 😂
Can you make a video how to construct it .
Give me the link of this product.
man I just randomly had this idea. Low and behold. RUclips was 3 years ahead of me lol just put Roomba sensors on a drone! lol
😁
this tech will be indispensable in the near future with drones and flying cars.
Still in operation?
Do you see some sort of AI algorithm for obstacle avoidance ?
Should a drone ever be allowed to fly horizontally at this altitude in autonomous mode? What's the point of flying like this?
I would think it possible the FAA had a word in it at the time. It wasn't until December of 2020 the FAA started allowing flights over people/densely populated areas. Until then, in a situation like in the video, they would have had to fly below "head level" except in sparsely populated areas. Even so, the need for a rapidly responding anti collision system in a world where we can now fly high over large gatherings of people is even more important considering the airspace itself will become congested and drones running into each other wouldn't be conducive to the safety of those below. And what if Bigfoot isn't fast enough to swat it out of the air.............
Which type of collision avoidance system did you use? I am assuming its rule based.
The underlying control policy (rule based) was relatively simple but it can definitely be extended into more advanced systems. The demo shown in this video served as proof of concept for the underlying algorithms and the use of our sensor technology in the field of drones.
Nice, the response seemed really quick. Did you guys solve in relative frame? And did you guys look for any other non cooperative solutions?geometrical,MIP etc.
amazing, i built a drone and i would liek to install this tecnology to it , subscribed to your channel and like for your video!!
Could I implement this into a personal project or is it only aimed at manufacturers?
It is intended for manufacturers. Sorry.
@@insightnessag2211 thank you for the reply! I hope this all goes well for you looks promising
Hey, sharer. In fact, a single camera has been used here to detect moving objects in different directions ten years ago, for your reference. ruclips.net/video/VRtdLKOp3rk/видео.html
Amazing!
Super drone
Have not digrme and cod 😒
Nice !!
cool