Suspension control system providing suspension 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, and wherein the cylinder is operationally coupled to the swing frame assembly at an actuation point; a plurality of position sensors, each position sensor being configured with respect to a corresponding cylinder of each suspension assembly, wherein each position sensor is configured to generate a signal indicating a position of a piston rod with respect to the a base; 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 corresponding cylinder; and a processor in communication with the plurality of position sensors and the plurality of electronically controlled valves, the processor executing a program stored in a non-transient medium to: determine a height for each suspension assembly from a position indicated by a position sensor configured with respect to a cylinder of the suspension assembly; calculate a height correction for each suspension assembly in response to an articulation, a pitch and a roll of the agricultural machine, wherein the articulation is a comparison between diagonally opposing heights of the agricultural machine, the pitch is a comparison between front and back heights of the agricultural machine, and the roll is a comparison between left side and right side heights of the agricultural machine; and control the electronically controlled valves to change the control volumes to apply the height corrections; wherein: the articulation, the pitch and the roll of the agricultural machine are calculated to determine an articulation height correction, a pitch height correction and a roll height correction for each suspension assembly, respectively; and the height correction for each suspension assembly comprises a summation of the articulation height correction, the pitch height correction and the roll height correction. 2. 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, and wherein the cylinder is operationally coupled to the swing frame assembly at an actuation point; a plurality of position sensors, each position sensor being configured with respect to a corresponding cylinder of each suspension assembly, wherein each position sensor is configured to generate a signal indicating a position of a piston rod with respect to the base; 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 corresponding cylinder; and a processor in communication with the plurality of position sensors and the plurality of electronically controlled valves, the processor executing a program stored in a non-transient medium to: determine a height for each suspension assembly from a position indicated by a position sensor configured with respect to a cylinder of the suspension assembly; calculate a height correction for each suspension assembly in response to at least two of an articulation, a pitch and a roll of the agricultural machine, wherein the articulation is a comparison between diagonally opposing heights of the agricultural machine, the pitch is a comparison between front and back heights of the agricultural machine, and the roll is a comparison between left side and right side heights of the agricultural machine; and control the electronically controlled valves to change the control volumes to apply the height corrections; wherein: the plurality of suspension assemblies consists of a front left suspension assembly, a front right suspension assembly, a back left suspension assembly and a back right suspension assembly; the articulation, pitch and roll of the agricultural machine are calculated to determine the height correction for each suspension assembly; articulation is a difference between an average of heights of the front left and back right suspension assemblies and an average of heights of the front right and back left suspension assemblies; pitch is a difference between an average of heights of the front left and front right suspension assemblies and an average of heights of the back left and back right suspension assemblies; and roll is a difference between an average of heights of the front left and back left suspension assemblies and an average of heights of the front right and back right suspension assemblies. 3. 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, and wherein the cylinder is operationally coupled to the swing frame assembly at an actuation point; a plurality of position sensors, each position sensor being configured with respect to a corresponding cylinder of each suspension assembly, wherein each position sensor is configured to generate a signal indicating a position of a piston rod with respect to the a base; 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 corresponding cylinder; and a processor in communication with the plurality of position sensors and the plurality of electronically controlled valves, the processor executing a program stored in a non-transient medium to: determine a height for each suspension assembly from a position indicated by a position sensor configured with respect to a cylinder of the suspension assembly; calculate a height correction for each suspension assembly in response to calculate at least one of an articulation, a pitch and a roll of the agricultural machine to determine a height correction for each suspension assembly, wherein the articulation is a comparison between diagonally opposing heights of the agricultural machine, the pitch is a comparison between front and back heights of the agricultural machine, and the roll is a comparison between left side and right side heights of the agricultural machine; and control the electronically controlled valves to change the control volumes to apply the height corrections; a vehicle speed sensor and a turn angle sensor; wherein the processor further executes to control the pitch or the roll when at least one of the vehicle speed sensor and the turn angle sensor exceeds a threshold. 4. 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 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