Electric skateboard with strain-based controls and methods

The invention claimed is: 1. An electric vehicle, comprising: a platform configured to support a rider; a drive motor configured to drive one or more ground-contacting wheels coupled to the platform; a first strain gauge configured to sense a first induced strain exerted upon a front portion of the platform; a second strain gauge configured to sense a second induced strain exerted upon a rear portion of the platform; and a controller configured to: determine a weight and a center of gravity of the rider based on the first induced strain and the second induced strain; and control a speed of the drive motor by incrementing and decrementing a setpoint in response to the center of gravity using a proportional-integral-derivative (PID) loop; wherein an aggressiveness of the PID loop is at least partially determined by the weight of the rider. 2. The electric vehicle of claim 1 , wherein the vehicle is transitionable between an automatic mode, in which the vehicle is entirely propelled by the drive motor, and a manual mode, in which the vehicle is propelled by the rider and the controller is configured to control the drive motor to reduce drag from the one or more ground-contacting wheels. 3. The electric vehicle of claim 2 , wherein the controller is powered by regenerated motor power when the vehicle is in the manual mode. 4. The electric vehicle of claim 1 , further comprising a sprung suspension between the one or more ground-contacting wheels and the platform. 5. The electric vehicle of claim 1 , wherein the one or more ground-contacting wheels comprise a first pair of wheels coupled to the platform by a first truck, and a second pair of wheels coupled to the platform by a second truck. 6. The electric vehicle of claim 1 , wherein the setpoint of the PID loop is a speed setpoint. 7. The electric vehicle of claim 1 , wherein the setpoint of the PID loop is a torque setpoint. 8. The electric vehicle of claim 1 , wherein the setpoint is configured to increment and decrement at a rate determined by an amplitude of a distance of the center of gravity of the rider from a center portion of the platform. 9. The electric vehicle of claim 1 , wherein the controller is configured to enable the drive motor in response to a sum of the first induced strain and the second induced strain satisfying a threshold. 10. An electric vehicle, comprising: a platform configured to support a rider; a drive motor configured to drive one or more ground-contacting wheels coupled to the platform; a first strain gauge configured to sense a first induced strain exerted upon a front portion of the platform; a second strain gauge configured to sense a second induced strain exerted upon a rear portion of the platform; an inertial balance sensor configured to measure an inclination of the platform; and a controller configured to: determine a weight and a center of gravity of the rider based on the first induced strain and the second induced strain; and control a speed of the drive motor by incrementing and decrementing a setpoint in response to the center of gravity using a proportional-integral-derivative (PID) loop; wherein an aggressiveness of the PID loop is at least partially determined by the weight of the rider. 11. The electric vehicle of claim 10 , wherein the controller is configured to enable the drive motor based on the inclination of the platform. 12. The electric vehicle of claim 10 , further comprising a sprung suspension between the one or more ground-contacting wheels and the platform. 13. The electric vehicle of claim 10 , wherein the setpoint is configured to increment and decrement at a rate determined by an amplitude of a distance of the center of gravity of the rider from a center portion of the platform. 14. The electric vehicle of claim 10 , wherein the controller is configured to enable the drive motor in response to a sum of the first induced strain and the second induced strain satisfying a threshold. 15. The electric vehicle of claim 10 , wherein the one or more ground-contacting wheels comprise a first pair of wheels coupled to the platform by a first truck, and a second pair of wheels coupled to the platform by a second truck. 16. The electric vehicle of claim 15 , wherein the first strain gauge is disposed on the first truck and the second strain gauge is disposed on the second truck. 17. The electric vehicle of claim 10 , wherein the setpoint of the PID loop is a speed setpoint. 18. The electric vehicle of claim 10 , wherein the setpoint of the PID loop is a torque setpoint. 19. The electric vehicle of claim 10 , wherein the vehicle is transitionable between an automatic mode, in which the vehicle is entirely propelled by the drive motor, and a manual mode, in which the vehicle is propelled by the rider and the controller is configured to control the drive motor to reduce drag from the one or more ground-contacting wheels. 20. The electric vehicle of claim 19 , wherein the controller is powered by regenerated motor power when the vehicle is in the manual mode.