HELICOPTER HUB MOUNTED VIBRATION CONTROL AND CIRCULAR FORCE GENERATION SYSTEMS FOR CANCELING VIBRATIONS

1. A rotary wing aircraft, said rotary wing aircraft having a nonrotating aerostructure body and a rotating rotary wing hub driven to rotate about a rotating hub center Z axis of rotation by an engine through a gear box transmission,said rotary wing aircraft including a vehicle vibration control system,a rotating hub mounted vibration control system, said rotating hub mounted vibration control system mounted to said rotating rotary wing hub with said rotating hub mounted vibration control system rotating with said rotating rotary wing hub, said rotating hub mounted vibration control system including a plurality of imbalance mass concentration rotors driven to rotate about said rotating hub center Z axis of rotation,a rotary wing aircraft member sensor for outputting rotary wing aircraft member data correlating to said relative rotation of said rotating rotary wing hub member rotating relative to said nonrotating body,at least a first nonrotating body vibration sensor, said at least first nonrotating body vibration sensor outputting at least first nonrotating body vibration sensor data correlating to vibrations,at least a first nonrotating body circular force generator having a first circular force generator rotating masses axis, said at least first nonrotating body circular force generator fixedly coupled with said nonrotating body proximate said gear box transmission with said first circular force generator rotating masses axis perpendicular to said rotating hub center Z axis of rotation,at least a second nonrotating body circular force generator having a second circular force generator rotating masses axis, said at least second nonrotating body circular force generator fixedly coupled with said nonrotating body proximate said gear box transmission with said second circular force generator rotating masses axis perpendicular to said rotating hub center Z axis of rotation,a distributed force generation data communications network link, said distributed force generation data communications system network link linking together at least said first nonrotating body circular force generator, said second nonrotating body circular force generator, and said rotating hub mounted vibration control system wherein said rotating hub mounted vibration control system and said nonrotating body circular force generators communicate force generation vibration control data through said distributed force generation data communications network,said first nonrotating body circular force generator controlled to produce a first nonrotating body circular force generator rotating force centered about said first nonrotating body circular force generator rotating masses axis with a controllable rotating force magnitude and a controllable rotating force phase, said controllable rotating force magnitude controlled from a minimal force magnitude up to a maximum force magnitude, and with said controllable rotating force phase controlled in reference to said rotary wing aircraft member sensor data correlating to said relative rotation of said rotating rotary wing hub rotating relative to said nonrotating body wherein said vibration sensed by said at least first nonrotating body vibration sensor is reduced.