Electric control member, a rotary wing aircraft, and a method

What is claimed is: 1. An electric control device comprising: a support; manipulation means, the manipulation means being movable relative to the support by a person; a first measurement system that takes a first measurement of a current position of the manipulation means relative to a neutral position; a second measurement system that takes a second measurement of the current position of the manipulation means, the first measurement system and the second measurement system being independent and dissimilar; and a processor unit that compares the first measurement and the second measurement and generates a control signal as a function of either (i) the current position of the manipulation means when the first measurement and the second measurement correspond to the same position for the manipulation means or (ii) the neutral position when the first measurement and the second measurement do not correspond to the same position for the manipulation means. 2. The electric control device according to claim 1 , wherein: the first measurement system includes means delivering the first measurement in the form of a first signal of analog type, the second measurement system includes means delivering the second measurement in the form of a second signal of digital type. 3. The electric control device according to claim 1 , wherein: the first measurement system includes a potentiometer or a Hall effect sensor or an active electrical sensor for sensing rotary movements, the first measurement being expressed in the form of a first signal presenting a voltage that depends on the current position of the manipulation means. 4. The electric control device according to claim 1 , wherein: the second measurement system includes a code wheel constrained to rotate with the manipulation means and a processor system co-operating with the code wheel in order to determine a current binary value corresponding to the current position, the second measurement being expressed in the form of a second signal comprising the binary value. 5. The electric control device according to claim 1 , further comprising: a return system tending to return the manipulation means to the neutral position. 6. The electric control device according to claim 5 , wherein: the return system includes a first spring and a second spring that are provided respectively with a first movable end and with a second movable end, the manipulation means having an element that is arranged circumferentially between the first movable end and the second movable end, the return system including an abutment, the first spring tending to move the first movable end circumferentially against the abutment in a first direction in order to position the manipulation member in the neutral position, the second spring tending to move the second movable end circumferentially against the abutment in a second direction in order to position the manipulation member in the neutral position. 7. The electric control device according to claim 1 , further comprising: a retention system tending to retain the manipulation means in at least one indexed position relative to the support. 8. The electric control device according to claim 1 , further comprising: a first assembly provided with the support, the manipulation means, and the first and second measurement systems, the processor unit being attached to the first assembly and being secured to the support, the processor unit being connected to at least one computer that is physically independent from the first assembly for transmitting the control signal to the computer, the control signal relating to a parameter of value that is established either as a function of the current position of the manipulation means when the first measurement and the second measurement both correspond to the current position of the manipulation or as a function of the neutral position when the first measurement and the second measurement do not correspond to the same position for the manipulation means. 9. The electric control device according to claim 1 , further comprising: a first assembly provided with the support, the manipulation means, and the first and second measurement systems, the processor unit not being attached to the first assembly, the processor unit being remote from the first assembly, the processor unit being connected to the first assembly by at least one bus, the bus being connected to the first measurement system and to the second measurement system, the control signal relating to a parameter of value that is established as a function of the current position of the manipulation means when the first measurement and the second measurement both correspond to the current position of the manipulation means or as a function of the neutral position when the first measurement and the second measurement do not correspond to the same position for the manipulation means. 10. An aircraft comprising: at least one main rotor contributing at least in part to providing the aircraft with lift; at least one propulsion system distinct from the main rotor, the propulsion system generating an additional thrust to contribute at least in part to causing the aircraft to advance; an electric control device having a support, manipulation means movable relative to the support by a person, a first measurement system that takes a first measurement of a current position of the manipulation means relative to a neutral position, a second measurement system that takes a second measurement of the current position of the manipulation means, the first measurement system and the second measurement system being independent and dissimilar, and a processor unit that compares the first measurement and the second measurement and generates a control signal as a function of either (i) the current position of the manipulation means when the first measurement and the second measurement correspond to the same position for the manipulation means or (ii) the neutral position when the first measurement and the second measurement do not correspond to the same position for the manipulation means; and wherein the processor unit is connected to the at least one propulsion system to control the additional thrust, at least in part, the control signal requesting a variation rate for the additional thrust transmitted to the at least one propulsion system. 11. The aircraft according to claim 10 , wherein: the at least one propulsion system includes at least one propeller having a plurality of variable pitch blades, and the at least one propulsion system includes a pitch modification system for modifying a pitch of the plurality of variable pitch blades, the processor unit being connected to the pitch modification system to provide the control signal to the pitch modification system. 12. The aircraft according to claim 10 , further comprising: an emergency electric manipulation member connected to the at least one propulsion system. 13. The aircraft according to claim 10 , further comprising: an emergency mechanical manipulation member connected to the at least one propulsion system. 14. A method of controlling a propulsion system of an aircraft, the aircraft further having a manipulation means that is movable relative to a support by a person, the method comprising: generating a first measurement of a current position of the manipulation means by a first measurement system; generating a second measurement of the current position of the manipulation means by a second measurement system, wherein the first measurement system and the second measurement system are independent and dissimilar; comparing the first and seco