Carrier-based semi-automated cargo handling system

What is claimed is: 1. A cargo handling system (CHS), comprising: a guide tray along which an electric rail extends; and a carrier movably disposable within the guide tray and comprising: a carrier surface; guide and contact rollers for establishing electric communication with the electric rail with the carrier movably disposed within the guide tray; drivable elements to assume retracted or extended positions at which, with the carrier movably disposed within the guide tray, the carrier surface is deployed within or above the guide tray, respectively; and a control system configured to draw current from the electric communication between the electric rail and the contact roller and to use the current to operate the drivable elements to move the carrier along the guide tray and to control extension and retraction of the drivable elements. 2. The CHS according to claim 1 , wherein: the guide tray comprises a base and sidewalls extending from opposite sides of the base, the electric rail extends along one of the sidewalls, and the contact roller is urged to maintain contact with the electric rail. 3. The CHS according to claim 1 , wherein: the carrier comprises first and second opposite sides, the contact roller extends outwardly from the first side, and the guide rollers extend outwardly from the first and second sides. 4. The CHS according to claim 1 , wherein the drivable elements comprise at least first and second drivable elements at first and second ends of the carrier, respectively. 5. The CHS according to claim 1 , wherein each drivable element comprises a wheel and a linkage that can be controlled to retract or extend the wheel. 6. The CHS according to claim 1 , wherein the control system comprises: sensors; a motor coupled to the drivable elements; and an electronic control unit (ECU) to operate the drivable elements to move the carrier along the guide tray and to control the extension and retraction of the drivable elements in accordance with at least readings of the sensors. 7. The CHS according to claim 6 , wherein the sensors are arrayed in one or more groups on one or more of the carrier surface and end walls of the carrier. 8. The CHS according to claim 6 , wherein the motor is configured to generate power to support operations of the drivable elements to move the carrier along the guide tray and extensions and retractions of the drivable elements. 9. The CHS according to claim 1 , wherein the control system of each carrier comprises: sensors; a motor coupled to the drivable elements; and an electronic control unit (ECU) to operate the corresponding drivable elements to move the corresponding carrier along the corresponding guide tray and to control the extension and retraction of the corresponding drivable elements in accordance with at least readings of the sensors. 10. The CHS according to claim 9 , wherein the sensors are arrayed in one or more groups on one or more of the corresponding carrier surface and end walls of the corresponding carrier. 11. The CHS according to claim 9 , wherein the motor is configured to generate power to support operations of the corresponding drivable elements to move the corresponding carrier along the corresponding guide tray and extensions and retractions of the corresponding drivable elements. 12. A cargo handling system (CHS), comprising: guide trays along each of which an electric rail extends; and carriers respectively movably disposable within corresponding ones of the guide trays and comprising: a carrier surface; guide and contact rollers for establishing electric communication with the corresponding electric rail with the carrier movably disposed within the corresponding guide tray; drivable elements to assume retracted or extended positions at which, with the carrier movably disposed within the corresponding guide tray, the carrier surface is deployed within or above the corresponding guide tray, respectively; and a control system configured to draw current from the electric communication between the corresponding electric rail and the contact roller and to use the current to operate the drivable elements to move the carrier along the corresponding guide tray and to control extension and retraction of the drivable elements. 13. The CHS according to claim 12 , wherein: the CHS is disposed within an aircraft fuselage comprising a cargo door, the CHS further comprises a doorway area in which a unit load device (ULD) is received via the cargo door and oriented to move toward a non-doorway area and lock trays interleaved with the guide trays, and the guide trays and the lock trays extend from the doorway area to the non-doorway area. 14. The CHS according to claim 12 , wherein: each guide tray comprises a base and sidewalls extending from opposite sides of the base, each electric rail extends along a corresponding one of the sidewalls, and the corresponding contact roller is urged to maintain contact with the corresponding electric rail. 15. The CHS according to claim 12 , wherein: each carrier comprises first and second opposite sides, the corresponding contact roller extends outwardly from the first side, and the corresponding guide rollers extend outwardly from the first and second sides. 16. The CHS according to claim 12 , wherein the drivable elements of each carrier comprise at least first and second drivable elements at first and second ends of the carrier, respectively. 17. The CHS according to claim 12 , wherein each drivable element of each carrier comprises a wheel and a linkage that can be controlled to retract or extend the wheel. 18. A method of operation of a semi-autonomous cargo handling system (CHS) for use in an aircraft having doorway and non-doorway areas where a unit load device (ULD) is received in the doorway area, the method comprising: controlling a carrier to assume a retracted condition; driving the carrier in the retracted condition along a guide tray to a position underneath the ULD in the doorway area; controlling the carrier to assume an extended condition to lift the ULD; driving the carrier in the extended condition and the ULD from the doorway area and toward the non-doorway area; and controlling the carrier to re-assume the retracted condition to lower the ULD in the non-doorway area. 19. The method according to claim 18 , wherein the controlling and the driving of the carrier comprise controlling and driving multiple carriers. 20. The method according to claim 18 , wherein the controlling and the driving comprise sensing a position of the carrier relative to one or more of the guide tray and the ULD.