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Against near-peers, unmanned systems must maintain autonomy even when contested

Against near-peers, unmanned systems must maintain autonomy even when contested
Against near-peers, unmanned systems must maintain autonomy even when contested

Continued operation in RF environments — whether that’s GPS denial or communications disruption — is arguably the number-one requirement for overmatch against near peers.

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For UAS to operate in contested airspace, autonomy is key

For UAS to operate in contested airspace, autonomy is key
For UAS to operate in contested airspace, autonomy is key

UAVs capable of operating independently from human control will still, however, require the ability to talk to each other within a swarm while being jammed.

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Better, smarter UAS have intelligence and resilience for denied operations

Better, smarter UAS have intelligence and resilience for denied operations
Better, smarter UAS have intelligence and resilience for denied operations

Continued operation in RF environments — whether that’s GPS denial or communications disruption — is the number one need for tactical unmanned aerial systems.

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