Control interface, system and method

What is claimed is: 1. An autopilot system for selective control of an aircraft, the aircraft including a control stick operable to manually control the flight of the aircraft, said autopilot system comprising: one or more actuators in mechanical communication with the control stick of the aircraft; a pilot control interface including (i) an electrical resistance network that is selectively switchable between a plurality of states and (ii) a plurality of switches mounted on the control stick for pilot interaction therewith to selectively switch said electrical resistance network between said states such that each state exhibits an output resistance across an output interface that is made up of no more than two conductors; and an autopilot control unit mounted separate from said control stick for electrically driving the actuators for automatic control of the aircraft in one or more autopilot flight modes and configured for pilot control of the one or more autopilot flight modes of the autopilot based on the output resistance across the output interface. 2. The autopilot system of claim 1 wherein the electrical resistance network is a parallel resistance network and includes a null resistor having a finite value that is connected across said two conductors and said autopilot control unit is configured for detection of a broken wire condition based on detecting a resistance across the two conductors that is greater than the finite value of the null resistor and, responsive to detecting the broken wire condition, at least issuing a notification to a pilot to take control of the aircraft. 3. The autopilot system of claim 1 wherein an actuation of any one of the switches produces a resistance value across the two conductors that falls within a range of valid resistance values corresponding to said states and said autopilot control unit is configured for detecting resistance values across the two conductors that are above said range as being indicative of a broken wire condition and, responsive to detecting the broken wire condition, at least issuing a notification to a pilot to take control of the aircraft. 4. The autopilot system of claim 1 wherein the electrical resistance network is a parallel resistance network and an actuation of any one of the switches produces a resistance value across the two conductors that falls within a range of valid resistance values corresponding to said states and said autopilot controller is configured for detecting resistance values across the two conductors that are below said range as being indicative of a shorted condition and, responsive to detecting the shorted condition, at least issuing a notification to a pilot to take control of the aircraft. 5. The pilot control interface of claim 1 further comprising: an engage/disengage selector that includes first and second resistors forming part of the electrical resistance network and first and second switches associated with the first and second resistors, respectively, such that a pilot actuation of the engage/disengage selector, during normal operation, changes a state of the first and second switches to electrically connect the first and second resistors to said two conductors to present an engage/disengage resistance across the two conductors.