Vehicle speed estimation system

What is claimed is: 1. A system for estimating a speed of a vehicle, comprising: a plurality of wheel rotation sensors, each configured to provide rotation speed information of a corresponding wheel of the vehicle; a grade sensor configured to provide grade information of a ground surface beneath the vehicle; an acceleration sensor configured to provide acceleration information of the vehicle; a first pedal deflection sensor configured to provide a first pedal deflection information of an accelerator pedal of the vehicle; a second pedal deflection sensor configured to provide a second pedal deflection information of a brake pedal of the vehicle; a processor configured to: compute a linear wheel speed based on the rotation speed information of the wheels of the vehicle; compute an upper limit of vehicle speed and a lower limit of vehicle speed, based on the grade information, the first pedal deflection information, the second pedal deflection information, and the acceleration information; and compute an estimated speed of the vehicle based on the linear wheel speed, the upper limit of vehicle speed, and the lower limit of vehicle speed. 2. The system of claim 1 , wherein each of the plurality of wheel rotation sensors comprises a wheel encoder. 3. The system of claim 1 , wherein computing the linear wheel speed involves: selecting a second-smallest wheel rotation speed of the rotation speed information of the wheels of the vehicle; and converting the second-smallest wheel rotation speed to a linear speed based on a circumference of a wheel of the vehicle corresponding to the second-smallest wheel rotation speed. 4. The system of claim 1 , wherein the grade sensor comprises the acceleration sensor. 5. The system of claim 1 , wherein the grade sensor comprises a positioning sensor and a geographic database. 6. The system of claim 1 , wherein computing the upper limit of vehicle speed and the lower limit of vehicle speed includes: selecting the first pedal deflection as a pedal input if the first pedal deflection is nonzero, and otherwise selecting the second pedal deflection as the pedal input; computing an expected speed change based on the pedal input and the grade information; computing a preliminary speed change estimate by adding the expected speed change weighted by a first weight to the acceleration information of the vehicle weighted by a second weight; computing the upper limit of vehicle speed based on the preliminary speed change estimate and an upper tolerance; and computing the lower limit of vehicle speed based on the preliminary speed change estimate and a lower tolerance. 7. The system of claim 1 , wherein computing the estimated speed of the vehicle includes selecting a second-largest value from the group comprising: the lower limit of vehicle speed, the linear wheel speed, and the upper limit of vehicle speed. 8. The system of claim 1 , wherein the processor is configured to calculate the estimated speed of the vehicle continuously in a cycle time of between 2 milliseconds and 10 milliseconds. 9. The system of claim 1 , further comprising the vehicle. 10. A method for estimating a speed of a vehicle, the method comprising: measuring rotation speeds of at least one wheel of the vehicle; based on the rotation speeds of the at least one wheel of the vehicle, computing a linear wheel speed; obtaining grade information for a ground surface beneath the vehicle; measuring a first pedal deflection of an accelerator pedal of the vehicle; measuring a second pedal deflection of a brake pedal of the vehicle; measuring an acceleration of the vehicle; based on the grade information, the first pedal deflection, the second pedal deflection, and the acceleration of the vehicle, computing an upper limit of vehicle speed and a lower limit of vehicle speed; and selecting a speed estimate based on a second-largest value from the group comprising: the linear wheel speed, the upper limit of vehicle speed, and the lower limit of vehicle speed. 11. The method of claim 10 , wherein computing the linear wheel speed involves: selecting a second-smallest wheel rotation speed of the rotation speeds of the at least one wheel of the vehicle; and converting the second-smallest wheel rotation speed to a linear speed based on a circumference of a wheel of the vehicle corresponding to the second-smallest rotation speed. 12. The method of claim 10 , wherein obtaining the grade information comprises reading at least one value from an acceleration sensor. 13. The method of claim 10 , wherein obtaining the grade information involves reading values from a positioning sensor and a geographic database. 14. The method of claim 10 , wherein computing the upper limit of vehicle speed and the lower limit of vehicle speed includes: selecting the first pedal deflection as a pedal input if the first pedal deflection is nonzero, and otherwise selecting the second pedal deflection as the pedal input; computing an expected speed change based on the pedal input and the grade information; computing a preliminary speed change estimate by adding the expected speed change weighted by a first weight to the vehicle acceleration weighted by a second weight; computing the upper limit of vehicle speed based on the preliminary speed change estimate and an upper tolerance; and computing the lower limit of vehicle speed based on the preliminary speed change estimate and a lower tolerance. 15. A method for estimating a speed of a vehicle, the method comprising: measuring rotation speeds of at least one wheel of the vehicle; based on the rotation speeds of the at least one wheel of the vehicle, computing a change in a linear wheel speed over a defined period of time; obtaining grade information for a ground surface beneath the vehicle; measuring a first pedal deflection of an accelerator pedal of the vehicle; measuring a second pedal deflection of a brake pedal of the vehicle; measuring an acceleration of the vehicle; based on the grade information, the first pedal deflection, the second pedal deflection, and the acceleration of the vehicle, computing an upper limit of a change in vehicle speed over the defined period of time and a lower limit of the change in vehicle speed over the defined period of time; and selecting a speed estimate equal to a previous speed of the vehicle plus a second-largest value from among the group comprising: the change in the linear wheel speed over the defined period of time, the upper limit of the change in vehicle speed over the defined period of time, and the lower limit of the change in vehicle speed over the defined period of time. 16. The method of claim 15 , wherein computing the linear wheel speed involves: selecting a second-smallest wheel rotation speed of the rotation speeds of the at least one wheel of the vehicle; and converting the second-smallest wheel rotation speed to a linear speed based on a circumference of a wheel of the vehicle corresponding to the second-smallest rotation speed. 17. The method of claim 15 , wherein obtaining the grade information comprises reading at least one value from an acceleration sensor. 18. The method of claim 15 , wherein obtaining the grade information involves reading values from a positioning sensor and a geographic database. 19. The method of claim 15 , wherein computing the upper limit of the change in vehicle speed and the lower limit of the change in vehicle speed includes: selecting the first pedal deflection as a pedal input if the first ped