Electric assist system and electric assist vehicle

What is claimed is: 1. An electric power assist system for an electric assist vehicle, the electric power assist system comprising: an electric motor that generates an assist power to assist human power of a rider of the electric assist vehicle; a controller configured or programmed to control a magnitude of the assist power to be generated by the electric motor; and an acceleration sensor that outputs an acceleration signal representing an acceleration Gx in a travel direction of the electric assist vehicle; wherein the controller is configured or programmed to acquire speed information representing a running speed of the electric assist vehicle based on an external signal; and the controller is configured or programmed to determine an inclination angle of a road surface based on the speed information and the acceleration signal, and to cause the electric motor to generate an assist power of a magnitude in accordance with the inclination angle. 2. The electric power assist system of claim 1 , further comprising: a speed sensor that outputs a signal in accordance with a moving speed of the electric assist vehicle; wherein the controller is configured or programmed to acquire the speed information based on the signal received from the speed sensor in accordance with the moving speed; and the controller is configured or programmed to determine the inclination angle of the road surface based on the speed information and the acceleration signal. 3. The electric power assist system of claim 1 , wherein the electric motor includes a rotor and a position detection sensor that detects a position of the rotor while the rotor is rotating; and the controller is configured or programmed to determine a rotation speed of the rotor based on an output of the position detection sensor, and to multiply the rotation speed by a constant to acquire the speed information. 4. The electric power assist system of claim 1 , wherein the electric assist vehicle includes a transmission including a plurality of transmission gear ranges and that outputs data representing a transmission gear range currently selected; the electric motor includes a rotor and a position detection sensor that detects a position of the rotor while the rotor is rotating; and the controller is configured or programmed to: acquire data representing the transmission gear range; determine a rotation speed of the rotor based on an output of the position detection sensor; and acquire the speed information based on the rotation speed and the data representing the transmission gear range. 5. The electric power assist system of claim 2 , wherein the controller is configured or programmed to: calculate a time-differential value of a speed in the travel direction; subtract the time-differential value from the acceleration in the travel direction; and divide the subtraction result by a gravitational acceleration to determine the inclination angle of the road surface, and wherein the controller is configured or programmed to perform an inverse sine transformation on a division result obtained by dividing the subtraction result by the gravitational acceleration to determine the inclination angle of the road surface. 6. The electric power assist system of claim 2 , wherein the controller is configured or programmed to: calculate a time-differential value of a speed in the travel direction; subtract the time-differential value from the acceleration in the travel direction; and divide the subtraction result by a gravitational acceleration to determine the inclination angle of the road surface, and wherein the controller includes a table that correlates each of a plurality of angles and a calculated value of a sine function for each of the angles; and the controller is configured or programmed to divide the subtraction result by the gravitational acceleration, to refer to the table to acquire an angle corresponding to the division result, and to determine the angle as the inclination angle of the road surface. 7. An electric assist vehicle comprising: the electric power assist system according to claim 1 ; and a speed sensor that outputs a signal in accordance with a moving speed of the electric assist vehicle. 8. An electric power assist system for an electric assist vehicle, the electric power assist system comprising: an electric motor that generates an assist power to assist human power of a rider of the electric assist vehicle; a controller configured or programmed to control a magnitude of the assist power to be generated by the electric motor; and an acceleration sensor that outputs an acceleration signal representing at least one of an acceleration in a first direction as a travel direction of the electric assist vehicle and an acceleration in a second direction perpendicular to both of the first direction and a road surface; wherein the controller is configured or programmed to use the acceleration signal to determine that the electric assist vehicle is in a stop state, to determine an inclination angle of the road surface based on the acceleration signal that is output in the stop state, and to cause the electric motor to generate an assist power of a magnitude in accordance with the inclination angle when the rider starts pedaling the electric assist vehicle. 9. The electric power assist system of claim 8 , wherein the controller further includes a stop detection circuit that determines that the electric assist vehicle is in the stop state based on the acceleration signal that is output from the acceleration sensor. 10. The electric power assist system of claim 9 , wherein in a case in which the acceleration signal representing at least one of the acceleration in the first direction and the acceleration in the second direction fulfills a predefined stop determination condition, the stop detection circuit determines that the electric assist vehicle is at a stop. 11. The electric power assist system of claim 10 , wherein the stop determination condition includes a condition regarding a range of a signal level of the acceleration signal and a condition regarding a time period in which the acceleration signal is in the range of the signal level. 12. The electric power assist system of claim 11 , wherein the acceleration sensor is a two-axis acceleration sensor or a three-axis acceleration sensor that outputs a first acceleration signal representing the acceleration in the first direction and a second acceleration signal representing the acceleration in the second direction; and the stop detection circuit stores the stop determination condition for each of the first acceleration signal and the second acceleration signal. 13. The electric power assist system of claim 8 , wherein the controller is configured or programmed to include: a gradient calculation circuit that calculates the inclination angle based on the acceleration signal that is output in the stop state; an assist power calculation circuit that determines the magnitude of the assist power in accordance with the inclination angle; and a motor driving circuit that causes the electric motor to generate the assist power determined by the assist power calculation circuit when the rider starts pedaling the electric assist vehicle; and the gradient calculation circuit performs a calculation of arcsin(Gx/G) or arccos(Gz/G), in which G is a gravitational acceleration, to determine the inclination angle. 14. The electric power assist system of claim 8 , wherein the acceleration sensor is a two-axis acceleration sensor or a three-axis acceleration sensor that outputs a first acceleration signal rep