Suspension system and method of control

What is claimed is: 1. A method of controlling a suspension system comprising: determining a ride height of a first axle assembly and a ride height of a second axle assembly; and increasing a load force upon the first axle assembly when the ride height of the first axle assembly differs from the ride height of the second axle assembly by more than a threshold amount and the ride height of the first axle assembly is not within a ride height tolerance, and maintaining pressure in an air spring of the first axle assembly when the ride height of a first axle assembly differs from the ride height of the second axle assembly by more than the threshold amount, the ride height of the first axle assembly is not within the ride height tolerance, and the load force upon the first axle assembly is not less than a target axle load. 2. The method of claim 1 wherein increasing the load force upon the first axle assembly further comprises increasing pressure in the air spring of the first axle assembly. 3. The method of claim 1 further comprising increasing the load force upon the first axle assembly when the load force is less than the target axle load. 4. A method of controlling a suspension system comprising: determining a ride height of a first axle assembly and a ride height of a second axle assembly; and increasing a load force upon the first axle assembly when the ride height of the first axle assembly differs from the ride height of the second axle assembly by more than a threshold amount and the ride height of the first axle assembly is not within a ride height tolerance, and decreasing pressure in an air spring of the second axle assembly when the ride height of the first axle assembly differs from the ride height of the second axle assembly by more than the threshold amount, the ride height of the first axle assembly is not within the ride height tolerance, and the load force upon the first axle assembly is less than a target axle load. 5. The method of claim 4 wherein decreasing pressure in the air spring of the second axle assembly reduces the ride height of the second axle assembly. 6. The method of claim 4 wherein pressure in the air spring of the second axle assembly is decreased after increasing pressure in an air spring of the first axle assembly. 7. The method of claim 4 further comprising maintaining pressure in an air spring of the first axle assembly when the ride height of the first axle assembly differs from the ride height of the second axle assembly by more than the threshold amount, the ride height of the first axle assembly is not within the ride height tolerance, and the load force upon the first axle assembly is not less than the target axle load. 8. The method of claim 1 further comprising maintaining pressure in an air spring of the second axle assembly when the ride height of the first axle assembly differs from the ride height of the second axle assembly by more than the threshold amount, the ride height of the first axle assembly is not within the ride height tolerance, and the load force upon the first axle assembly is not less than the target axle load. 9. A method of controlling a suspension system comprising: determining a vehicle speed, a ride height of a first axle assembly, and a ride height of a second axle assembly; and increasing a load force on the first axle assembly when the vehicle speed is less than a threshold speed value, the ride height of the first axle assembly differs from the ride height of the second axle assembly by more than a threshold amount, the ride height of the first axle assembly is not within a ride height tolerance, and the load force is less than a target axle load, wherein the load force on the first axle assembly is not increased when the ride height of the first axle assembly is not within the ride height tolerance and the load force on the first axle assembly exceeds the target axle load. 10. The method of claim 9 wherein the load force on the first axle assembly is increased by increasing pressure in an air spring of the first axle assembly. 11. The method of claim 9 wherein the load force on the first axle assembly is increased by decreasing pressure in an air spring of the second axle assembly. 12. The method of claim 9 wherein the load force on the first axle assembly is increased by increasing pressure in an air spring of the first axle assembly and decreasing pressure in an air spring of the second axle assembly. 13. The method of claim 9 further comprising maintaining pressure in an air spring of the first axle assembly when the ride height of the first axle assembly differs from the ride height of the second axle assembly by more than the threshold amount, the ride height of the first axle assembly is not within the ride height tolerance, and the load force upon the first axle assembly is not less than the target axle load. 14. A suspension system for a vehicle comprising: a first axle assembly having an inflatable first air spring that supports a chassis of the vehicle and a first ride height sensor that detects a ride height of the first axle assembly; a second axle assembly having an inflatable second air spring that supports the chassis and a second ride height sensor that detects a ride height of the second axle assembly; and a vehicle speed sensor that provides data indicative of vehicle speed; wherein a load force on the first axle assembly is increased when the vehicle speed is less than a threshold speed value, the ride height of a first axle assembly differs from the ride height of the second axle assembly by more than a threshold amount, and the ride height of the first axle assembly is not within a ride height tolerance, and pressure in the second air spring is maintained when the ride height of the first axle assembly differs from the ride height of the second axle assembly by more than the threshold amount, the ride height of the first axle assembly is not within the ride height tolerance, and the load force upon the first axle assembly is not less than a target axle load. 15. The system of claim 14 wherein the load force on the first axle assembly is increased when the load force on the first axle assembly is less than the target axle load for the first axle assembly. 16. The system of claim 14 wherein the load force upon the first axle assembly is increased by providing pressurized gas to the first air spring and/or by venting pressurized gas from the second air spring. 17. The system of claim 14 wherein increasing the load force upon the first axle assembly increases traction between a tire of the first axle assembly and a road surface. 18. The system of claim 14 wherein the first axle assembly is located further from the chassis than the second axle assembly when the ride height of the first axle assembly is not within the ride height tolerance. 19. The system of claim 14 wherein the first axle assembly is a drive axle that is configured to provide torque to an associated wheel assembly to propel the vehicle. 20. The system of claim 14 wherein the second axle assembly is a non-drive axle that does not provide torque to an associated wheel assembly to propel the vehicle.