Propeller in-hub power generation and control

The invention claimed is: 1. A power generation unit for generating electric power within a rotating reference frame, comprising: a propeller shaft rotatably driven by a turbo-prop engine; a stationary shaft concentric with the propeller shaft and rotatably restrained by the turbo-prop engine; a propeller hub coupled to the propeller shaft; a generator comprising a plurality of first and second generator parts, wherein the first generator parts are rotatably coupled to the propeller hub such that the first generator parts rotate in the same direction and at the same rotational speed as the propeller hub, and wherein the first generator parts are disposed concentrically with and radially outward from the second generator parts; and a gear assembly rotatably coupled to the propeller hub and configured to counter-rotate the first and second generator parts, wherein the gear assembly is driven by the propeller hub and thereby rotates the second generator parts at a rotational speed that is greater than the rotational speed of the propeller hub and in a rotational direction opposite a rotational direction of the first generator parts, and wherein the generator and the gear assembly are axially disposed along a common rotational axis. 2. The power generation unit of claim 1 , further comprising: an inductive coupling comprising a first winding and a second winding, wherein the second winding is rotatable with respect to the first winding; and an auxiliary power connection comprising a slip ring and a plurality of brushes, wherein the slip ring is rotatable with respect to the plurality of brushes, and wherein the auxiliary power connection is configured to transmit electric current between the plurality of brushes and the slip ring, and wherein the generator, the inductive coupling, the auxiliary power connection, and the gear assembly are axially disposed along the common rotational axis. 3. The power generation unit of claim 1 , wherein the first generator parts are disposed around a periphery of a generator hub rotatably connected to the propeller hub. 4. The power generation unit of claim 1 , wherein the first generator parts are electrical windings and the second generator parts are permanent magnets. 5. The power generation unit of claim 2 , wherein the auxiliary power connection is configured to transmit electric current from the slip ring to the plurality of brushes. 6. The power generation unit of claim 2 , wherein the propeller hub is concentrically attached to and encloses the generator, the inductive coupling, and the auxiliary power connection, and wherein rotating potions of the propeller hub, the generator, the inductive coupling, and the auxiliary power connection rotate about the common rotational axis. 7. A method of manufacturing a generator assembly for installation within a propeller hub, the method comprising: providing a propeller hub configured to rotate about an axis; providing a generator concentrically enclosed within the propeller hub, the generator comprising a plurality of first and second generator parts, wherein the plurality of first generator parts are connected to the propeller hub such that the first generator parts rotate at the same speed and in the same direction as the propeller hub; and providing a gear assembly concentrically enclosed within the propeller hub and rotatably attached to the second generator parts and the propeller hub, wherein the propeller hub is configured to drive the gear assembly and thereby drive rotation of the plurality of second generator parts in a direction opposite to a rotational direction of the propeller hub and at a greater rotational speed than a rotational speed of the propeller hub. 8. The method of claim 7 , the method further comprising: providing a control unit attached to the propeller hub that governs the pitch of a plurality of propeller blades; providing an inductive coupling configured to transmit a control signal between a stationary winding of the inductive coupling and a rotatable winding of the inductive coupling and transmit the control signal from the rotatable winding to the control unit; providing a motor electrically connected to the generator; and providing an actuator configured to change the pitch of the plurality of propeller blades in response to the signal from the control unit, wherein the motor drives the actuator. 9. The method of claim 7 , the method further comprising: providing a device configured to de-ice a plurality of propeller blades and electrically connected to the generator. 10. The method of claim 7 , the method further comprising: providing an auxiliary power connection comprising a slip ring and a plurality of brushes, wherein the slip ring is rotatable with respect to the plurality of brushes and electrically connected to the generator. 11. The power generation unit of claim 1 , wherein the propeller hub rotates in the same direction and at the same speed as the propeller shaft. 12. The method of claim 7 , and further comprising: providing a propeller shaft coupled to the propeller hub and configured to rotate in the same direction and at the same speed as the propeller hub. 13. The method of claim 8 , and further comprising: attaching the control unit to the propeller hub such that the control unit rotates at the same speed and in the same direction as the propeller hub.