Suspension control system providing tire height corrections for an agricultural machine

What is claimed is: 1. A suspension system for an agricultural machine, comprising: a plurality of suspension assemblies, each suspension assembly comprising a swing frame assembly and a cylinder, each cylinder comprising a piston rod configured to extend and retract with respect to a base, wherein the swing frame assembly is coupled to the agricultural machine at a pivot point and is coupled to a wheel at a hub point, and wherein the cylinder is operationally coupled to the agricultural machine at a cylinder point and is also operationally coupled to the swing frame assembly at an actuation point distal from the pivot point such that action of the cylinder at the actuation point causes the swing frame assembly to pivot at the pivot point; a plurality of tires, each tire being mounted to a wheel; a plurality of electronically controlled valves, each electronically controlled valve being configured to control a flow of fluid to and from a control volume for operating a cylinder; a plurality of pressure sensors, each pressure sensor being configured to generate a signal indicating a pressure of a control volume; and a processor in communication with the plurality of electronically controlled valves and the plurality of pressure sensors, the processor executing a program stored in a non-transient medium to: determine a downward force for each tire from a pressure indicated by a pressure sensor of a control volume for a cylinder of a suspension assembly to which the tire is mounted; determine a tire height correction for each tire from the downward force; and control the electronically controlled valves to change the control volumes to apply the tire height corrections, wherein the downward force for a tire is determined by calculating a first force from a first pressure on a first side of a cylinder of a suspension assembly to which the tire is mounted, calculating a second force from a second pressure on a second side of the cylinder of the suspension assembly to which the tire is mounted, and comparing the first and second forces. 2. The suspension system of claim 1 , wherein the first side of the cylinder includes the base and a base port for extending the piston rod when fluid flows to the base port, and the second side of the cylinder includes the piston rod and a rod port for retracting the piston rod when fluid flows to the rod port. 3. The suspension system of claim 2 , wherein the first force is a product of the first pressure and an area of the first side, and the second force is a product of the second pressure and an area of the second side less an area consumed by the piston rod. 4. The suspension system of claim 3 , wherein the base of each cylinder is operationally coupled to the agricultural machine at the cylinder point and the piston rod of each cylinder is operationally coupled to the swing frame assembly at the actuation point. 5. The suspension system of claim 1 , wherein the processor further executes to reference a data structure comparing tire dimensions with forces for determining the tire height corrections. 6. A suspension system for an agricultural machine, comprising: a plurality of suspension assemblies, each suspension assembly comprising a swing frame assembly and a cylinder, each cylinder comprising a piston rod configured to extend and retract with respect to a base, wherein the swing frame assembly is coupled to the agricultural machine at a pivot point and is coupled to a wheel at a hub point, and wherein the cylinder is operationally coupled to the agricultural machine at a cylinder point and is also operationally coupled to the swing frame assembly at an actuation point distal from the pivot point such that action of the cylinder at the actuation point causes the swing frame assembly to pivot at the pivot point; a plurality of tires, each tire being mounted to a wheel; a plurality of electronically controlled valves, each electronically controlled valve being configured to control a flow of fluid to and from a control volume for operating a cylinder; a plurality of pressure sensors, each pressure sensor being configured to generate a signal indicating a pressure of a control volume; and a processor in communication with the plurality of electronically controlled valves and the plurality of pressure sensors, the processor executing a program stored in a non-transient medium to: determine a downward force for each tire from a pressure indicated by a pressure sensor of a control volume for a cylinder of a suspension assembly to which the tire is mounted; determine a tire height correction for each tire from the downward force; and control the electronically controlled valves to change the control volumes to apply the tire height corrections, wherein the processor executes to calculate at least one of articulation, pitch and roll of the agricultural machine to determine the tire height correction for each tire, wherein articulation is a comparison between diagonally opposing downward forces or tire heights of the agricultural machine, pitch is a comparison between front and back downward forces or tire heights of the agricultural machine, and roll is a comparison between left side and right side downward forces or tire heights of the agricultural machine, and wherein articulation, pitch and roll are calculated to determine an articulation tire height correction, a pitch tire height correction and a roll tire height correction for each tire, respectively, and wherein the tire height correction for each tire comprises a summation of the articulation tire height correction, the pitch tire height correction and the roll tire height correction. 7. The suspension system of claim 6 , wherein the processor executes to calculate machine tire height of the agricultural machine to determine a machine tire height correction for each suspension assembly, wherein machine tire height is an average of tire heights for each tire. 8. The suspension system of claim 6 , wherein each cylinder is a dual action hydraulic cylinder, and wherein each cylinder is configured to move in a range of at least 8 inches. 9. The suspension system of claim 6 , wherein a clearance of the agricultural machine between a central area of a chassis supported by the plurality of suspension assemblies and the ground is an adjustable value. 10. An agricultural sprayer comprising: a chassis supported by front left, front right, back left and back right suspension assemblies, each suspension assembly comprising a swing frame assembly and a dual action hydraulic cylinder, each hydraulic cylinder comprising a piston rod configured to extend and retract with respect to a base, wherein the swing frame assembly is coupled to the sprayer at a pivot point and is coupled to a wheel at a hub point, and wherein the hydraulic cylinder is operationally coupled to the sprayer at a cylinder point and is also operationally coupled to the swing frame assembly at an actuation point distal from the pivot point such that action of the hydraulic cylinder at the actuation point causes the swing frame assembly to pivot at the pivot point; a plurality of tires, each tire being mounted to a wheel; a sprayer boom extending transversely relative to the chassis; a plurality of electronically controlled valves, each electronically controlled valve being configured to control a flow of hydraulic fluid to and from a control volume for operating a hydraulic cylinder; a plurality of pressure sensors, each pressure sensor being configured to generate a signal indicating a pressure of a control volume; and a processor in communication with the plurality of electronically controlled valves and the plurality of pressure sensors, the processor executing