Methods and systems for remote piloting a two-pilot aircraft for extended flights

What is claimed is: 1. A system for both onboard piloting and remote piloting an aircraft having thereon at least one onboard pilot, the system comprising: an aircraft including an onboard first pilot seat and an onboard second pilot seat each adjustable between an upright position and a reclined position, onboard sensors, onboard actuators, and an onboard flight control system, the onboard flight control system including onboard flight control devices and onboard condition indicators mounted proximal the first pilot seat and the second pilot seat; and a remote flight control system in electronic communication with the onboard flight control system by way of a two-way communication channel including at least one wireless segment, the remote flight control system including remote flight control devices and remote condition indicators; wherein, the onboard flight control system is operative to receive condition-related inputs from the onboard sensors, to activate the onboard condition indicators according to the received condition-related inputs, and: at least in an onboard piloting mode, to actuate the onboard actuators according to the onboard flight control devices, thereby onboard piloting the aircraft; and at least in a remote piloting mode, transmit the condition-related signals to the remote flight control system, to receive flight control signals from the remote flight control system, and to actuate, according to the flight control signals received from the remote flight control system, the onboard actuators thereby remote piloting the aircraft; wherein, the onboard flight control system is further operative to enter the remote piloting mode upon either the first pilot seat or the second pilot seat being adjusted to a fully reclined position, and wherein, only one of the first pilot seat and the second pilot seat is able to be reclined at a time. 2. The system of claim 1 , wherein the remote flight control system includes at least one display on which the remote condition indicators are graphically displayed. 3. The system of claim 1 , wherein the aircraft further includes a partition wall deployable between the first pilot seat and second pilot seat. 4. The system of claim 3 , wherein the partition wall stows automatically as either of the first pilot seat and second pilot seat is adjusted from the reclined position thereof to the upright position thereof. 5. The system of claim 1 , wherein, at least in the remote piloting mode, the remote pilot is simulated as placed into the aircraft by a virtual reality (VR) presentation viewable at the second pilot seat. 6. The system of claim 1 , wherein the remote piloting system is used to extend the range of the aircraft by permitting a first pilot in the first pilot seat and a second pilot in the second pilot seat to alternately rest as a third pilot at the remote flight control system pilots the aircraft cooperatively with the non-resting one of the first pilot and second pilot. 7. The system of claim 1 , wherein at least one of the first pilot seat and the second pilot seat comprises a seat position sensor in electronic communication with the onboard flight control system, and wherein the onboard flight control system is operative to alert the remote flight control system when the at least one of the first pilot seat and the second pilot seat is adjusted to the reclined position. 8. An aircraft for both onboard piloting and remote piloting, the aircraft comprising: an onboard first pilot seat adjustable between an upright position and a reclined position; an onboard second pilot seat adjustable between an upright position and a reclined position; multiple onboard sensors; multiple onboard actuators; and an onboard flight control system including onboard flight control devices and onboard condition indicators mounted proximal the first pilot seat and the second pilot seat, the onboard flight control system in electronic communication with a remote flight control system by way of a two-way communication channel including at least one wireless segment, the remote flight control system including remote flight control devices and remote condition indicators, wherein; the onboard flight control system is operative to receive condition-related inputs from the onboard sensors, to activate the onboard condition indicators according to the received condition-related inputs, and: at least in an onboard piloting mode, to actuate the onboard actuators according to the onboard flight control devices, thereby onboard piloting the aircraft; and at least in a remote piloting mode, transmit the condition-related signals to the remote flight control system, to receive flight control signals from the remote flight control system, and to actuate, according to the flight control signals received from the remote flight control system, the onboard actuators thereby remote piloting the aircraft; wherein, the onboard flight control system is further operative to enter the remote piloting mode upon either the first pilot seat or the second pilot seat being adjusted to a fully reclined position, and wherein, only one of the first pilot seat and the second pilot seat is able to reclined at a time. 9. The aircraft of claim 8 , wherein the aircraft further includes a partition wall deployable between the first pilot seat and second pilot seat. 10. The aircraft of claim 9 , wherein the partition wall stows automatically as either of the first pilot seat and second pilot seat is adjusted from the reclined position thereof to the upright position thereof. 11. The aircraft of claim 8 , wherein, at least in the remote piloting mode, the remote pilot is simulated as placed into the aircraft by a virtual reality (VR) presentation viewable at the second pilot seat. 12. The aircraft of claim 8 , wherein the remote piloting system is used to extend the range of the aircraft by permitting a first pilot in the first pilot seat and a second pilot in the second pilot seat to alternately rest as a third pilot at the remote flight control system pilots the aircraft cooperatively with the non-resting one of the first pilot and second pilot. 13. The aircraft of claim 8 , wherein each of the first pilot seat and the second pilot seat comprises a seat position sensor in electronic communication with the onboard flight control system, and wherein the onboard flight control system is operative to alert the remote flight control system when the at least one of the first pilot seat and the second pilot seat is adjusted to the reclined position. 14. The aircraft of claim 8 ; wherein each of the first pilot seat and the second pilot seat comprises a backrest pivotally adjustable from the upright position to a fully reclined approximately horizontal position.