Ride control system

What is claimed is: 1. A method for controlling a ride control system for a vehicle, the method comprising: measuring a speed of a vehicle; comparing the measured speed to a predetermined speed; measuring a pressure associated with the vehicle; comparing the measured pressure to a predetermined threshold pressure; determining whether a hand throttle for the vehicle is in a neutral position; determining whether a foot throttle for the vehicle has been used within a predetermined time period; and engaging a ride control system in response to the measured speed being greater than the predetermined speed, the measured pressure being less than the predetermined threshold pressure, the hand throttle being in the neutral position and the foot throttle having been used within a predetermined time period. 2. The method of claim 1 further comprising: determining whether a seat of the vehicle is in the forward position; and said engaging a ride control system comprises engaging the ride control system in response to the measured speed being greater than the predetermined speed, the measured pressure being less than the predetermined threshold pressure, the seat being in the forward position, the hand throttle being in the neutral position and the foot throttle having been used within a predetermined time period. 3. The method of claim 1 further comprising: selecting a ride control state from the group consisting of on, off and automatic; disengaging the ride control system in response to the selection of the off ride control state; engaging the ride control system in response to the selection of the on ride control state; and performing said measuring the speed, said comparing the measured speed, said measuring a pressure, said comparing the measured pressure, said determining whether a hand throttle for the vehicle is in a neutral position, said determining whether a foot throttle for the vehicle has been used within a predetermined time period, and said engaging a ride control system in response to the selection of the automatic ride control state. 4. The method of claim 1 further comprising: the predetermined speed being a first predetermined speed; measuring the speed of the vehicle after engagement of the ride control system; comparing the measured speed of the vehicle after engagement of the ride control system with a second predetermined speed; and disengaging the ride control system in response to the measured speed of the vehicle after engagement being less than the second predetermined speed. 5. The method of claim 4 wherein the second predetermined speed is equal to or less than the first predetermined speed. 6. The method of claim 4 further comprising selecting a speed threshold setting, the speed threshold setting including a first predetermined value for the first predetermined speed and a second predetermined value for the second predetermined speed. 7. The method of claim 6 wherein said selecting a speed threshold setting includes selecting the speed threshold setting from a plurality of predetermined speed threshold settings having different values for the first predetermined value and the second predetermined value. 8. The method of claim 1 further comprising preventing engagement of the ride control system in response to the measured speed being less than the predetermined speed, the measured pressure being greater than the predetermined threshold pressure, the hand throttle being in an active position and the foot throttle having not been used within a predetermined time period. 9. The method of claim 1 wherein: said comparing the measured pressure includes determining if the measured pressure is below the predetermined threshold pressure for a predetermined time period; and said engaging a ride control system comprises engaging the ride control system in response to the measured speed being greater than the first predetermined speed, the measured pressure being less than the predetermined threshold pressure for the predetermined time period, the hand throttle being in the neutral position and the foot throttle having been used within a predetermined time period. 10. The method of claim 9 further comprising preventing engagement of the ride control system in response to the measured pressure being less than the predetermined threshold pressure for less than the predetermined time period. 11. A ride control system for a vehicle comprising: a first sensor to measure a speed of a vehicle; a second sensor to measure a load of the vehicle; a third sensor to measure a position of a hand throttle for the vehicle; a fourth sensor to measure operation of a foot throttle for the vehicle; a microprocessor, the microprocessor being in communication with the first sensor, second sensor, third sensor and fourth sensor to receive signals from the first sensor, second sensor, third sensor and fourth sensor; a memory device storing a control algorithm to implement ride control on the vehicle; and the microprocessor retrieving and executing the control algorithm in response to the measured speed being greater than a predetermined speed, the measured load being less than a predetermined threshold load, the hand throttle position being in the neutral position and the foot throttle operation having been used within a predetermined time period. 12. The ride control system of claim 11 further comprising: a fifth sensor to measure a position of a seat of the vehicle; and the microprocessor retrieving and executing the control algorithm in response to the measured speed being greater than a predetermined speed, the measured load being less than a predetermined threshold load, the measured seat position being in a forward position, the hand throttle position being in the neutral position and the foot throttle operation having been used within a predetermined time period. 13. The ride control system of claim 11 further comprising: an input device, the input device enabling an operator to select a ride control state from the group consisting of on, off and automatic; the microprocessor stops executing the control algorithm in response to the selection of the off ride control state on the input device; the microprocessor executes the control algorithm in response to the selection of the on ride control state on the input device; and the microprocessor retrieves and executes the control algorithm in response to the selection of the automatic ride control state on the input device, the measured speed being greater than a predetermined speed, the measured load being less than a predetermined threshold load and the foot throttle operation having been used within a predetermined time period. 14. The ride control system of claim 11 wherein: the predetermined speed being a first predetermined speed; the first sensor measuring an additional speed of the vehicle during execution of the control algorithm; and the microprocessor stopping execution of the control algorithm in response to the measured additional speed of the vehicle being less than a second predetermined speed. 15. The ride control system of claim 14 wherein the second predetermined speed is equal to or less than the first predetermined speed. 16. The ride control system of claim 14 further comprising an input device, the input device enabling an operator to select a speed threshold setting, the speed threshold setting including a first predetermined value for the first predetermined speed and a second predetermined value for the second predetermined speed. 17. The ride control sys