Congrats on the launch! The constraint of a ~60W compute budget for fully onboard autonomy in a GPS-denied environment is impressive, I'm curious about the 'feature-poor' aspect you mentioned. Warehouses are notorious for having repetitive scenery which usually hard for visual SLAM regarding loop closures. How do you prevent the drone from getting lost when aisle 4 looks exactly like aisle 40? Best of luck!
Very cool!
A drone makes sense for existing infrastructure. If a client built their warehouse to your specifications, would you still use drone tech, or would this sensing be embedded within?
Congrats on the launch! The constraint of a ~60W compute budget for fully onboard autonomy in a GPS-denied environment is impressive, I'm curious about the 'feature-poor' aspect you mentioned. Warehouses are notorious for having repetitive scenery which usually hard for visual SLAM regarding loop closures. How do you prevent the drone from getting lost when aisle 4 looks exactly like aisle 40? Best of luck!
Very cool! A drone makes sense for existing infrastructure. If a client built their warehouse to your specifications, would you still use drone tech, or would this sensing be embedded within?
Congrats team! Really enjoyed the warts and all video - those fly-away moments remind me of my first drone flights :D
Are you mostly software stack focused or designing lots of hardware too?
thanks lol - we design the entire stack including the hardware!
Congratulations on the wins!
The product looks top tier.