Electric bike motor using sensed air speed

What is claimed is: 1 . An electric bike comprising: an air speed sensor to sense air speed at the bike; an electric motor to impart motive force to the bike; and a controller operatively connected to the motor, the controller to control the electric motor using the air speed sensed by the air speed sensor. 2 . The bike of claim 1 , wherein the controller has a set electric-motor parameter for output power of the motor. 3 . The bike of claim 2 , wherein the electric-motor parameter is bike speed. 4 . The bike of claim 3 , wherein the controller uses ground inclination to determine power to be output by the motor to assist in powering the bike. 5 . The bike of claim 4 , wherein the controller uses ground inclination to determine the power to be output by the motor to charge a battery in the bike. 6 . The bike of claim 5 , wherein the controller sets the power to be output by the motor to be greater in a greater headwind than in a lesser headwind. 7 . The bike of claim 6 , wherein the controller uses rider weight and rider height as parameters for controlling the motor. 8 . The bike of claim 4 , wherein when the inclination is negative and gravity assists powering the bike forward, the controller switches to a regeneration mode to charge a battery from the electric motor. 9 . The bike of claim 1 , wherein the controller sets a constant rider power input and adjusts the power provided by the electric motor to maintain the constant rider power input. 10 . An electric bicycle method comprising: setting a rider effort level; sensing relative air speed at the bicycle; and assisting the rider effort level with an electric motor based on the relative air speed. 11 . The method of claim 10 , wherein assisting the rider effort level includes maintaining an essentially constant rider effort level based on the air speed. 12 . The method of claim 10 , wherein assisting the rider effort level includes sensing inclination of a bikeway and adjusting electric motor assist based on the inclination. 13 . The method of claim 12 , wherein assisting the rider effort level includes increasing the electric motor assist by at least twice when the bikeway is at an incline relative to a flat bikeway. 14 . The method of claim 13 , wherein assisting the rider effort level includes using the electric motor to charge a battery with the bikeway being a decline relative to a flat bikeway. 15 . A control system for an electric bike including a motor comprising: a controller programmed to alter a power output of the motor based on an air speed relative to the bike such that as the air speed increases, the power output increases. 16 . The control system of claim 15 , wherein the controller is further programmed to alter the power output such that as the air speed decreases, the power output decreases. 17 . The control system of claim 15 , wherein the controller is further programmed to alter the power output based on an inclination of the bike. 18 . The control system of claim 15 , wherein the controller is further programmed to alter the power output based on a weight of a rider of the bike. 19 . The control system of claim 15 , wherein the controller is further programmed to alter power output based on a height of a rider of the bike.