Just wrapped up my attention mechanisms project. Results weren’t what I expected, but the underlying reasons are clear (hint: hardware matters more than you’d think). Next up: diving under the hood of PyTorch, starting with Autograd.
https://t.co/nt0BtBQMdW
Athena wargames engagements between two UAV swarms (interceptors and attackers) on a real world 3D Mapbox terrain and includes: sensor detection, electronic warfare, kinematic flight, net-cost effectiveness of an attack. It runs up to 1,000 Monte Carlo scenarios via the API.
I've been fascinated by how the recent rise of low-cost UAV drones have allowed countries to go toe-to-toe with much larger countries and bigger defence budgets. Because of this I started a project, Athena, to simulate the use of UAVs in war to target assets.
I've been fascinated by how the recent rise of low-cost UAV drones have allowed countries to go toe-to-toe with much larger countries and bigger defence budgets. Because of this I started a project, Athena, to simulate the use of UAVs in war to target assets.
Athena wargames engagements between two UAV swarms (interceptors and attackers) on a real world 3D Mapbox terrain and includes: sensor detection, electronic warfare, kinematic flight, net-cost effectiveness of an attack. It runs up to 1,000 Monte Carlo scenarios via the API.