Apparatus, system and method for monitoring soil criteria during tillage operations and control of tillage tools

The invention claimed is: 1. A tillage implement comprising: a frame comprising: a first subframe operably supporting a first plurality of tillage tools spaced laterally along the first subframe; and a second subframe trailing the first subframe in a normal forward direction of travel and operably supporting a second plurality of tillage tools spaced laterally along the second subframe; and a soil monitoring system comprising at least one ground-penetrating radar sensor operably supported from the frame and disposed to detect crop residue over soil before, after, or before and after the soil is tilled by the first or second plurality of tillage tools. 2. The tillage implement of claim 1 , further comprising at least one height adjustment actuator configured to raise and lower the main frame with respect to a soil surface to adjust a depth of penetration of the first or second plurality of tillage tools into the soil surface, and wherein the at least one actuator is configured to be adjusted in response to the detected crop residue. 3. The tillage implement of claim 1 , wherein the soil monitoring system comprises instrumentation operably supported from the frame forward of the first or second plurality of tillage tools and disposed to detect crop residue prior to the soil being tilled by the first or second plurality of tillage tools and instrumentation operably supported from the frame behind the first or second plurality of tillage tools and disposed to detect crop residue after the soil was tilled by the first or second plurality of tillage tools. 4. The tillage implement of claim 1 , wherein the soil monitoring system is configured to determine a percentage of soil covered by crop residue. 5. The tillage implement of claim 1 , wherein the soil monitoring system further comprises a display monitor configured to visually display information based at least in part on the detected crop residue to an operator. 6. The tillage implement of claim 1 , further comprising a tillage tool depth adjustment actuator configured to raise and lower at least some of the first or second plurality of tillage tools independently of one another relative to the frame. 7. The tillage implement of claim 1 , further comprising an angular adjustment actuator configured to angularly adjust at least some of the first or second plurality of tillage tools with respect to the frame and the normal forward direction of travel. 8. The tillage implement of claim 1 , further comprising a downforce actuator configured to increase or decrease a downforce of at least some of the first or second plurality of tillage tools independently relative to the frame. 9. The tillage implement of claim 1 , wherein the soil monitoring system is configured to receive GPS coordinates from a GPS receiver, and wherein the soil monitoring system is configured to generate a map of the crop residue. 10. A method, comprising: tilling soil of an agricultural field using a tillage implement having a frame with a first subframe operably supporting a first plurality of tillage tools spaced laterally along the first subframe and a second subframe trailing the first subframe and operably supporting a second plurality of tillage tools spaced laterally along the second subframe, and a soil monitoring system comprising at least one ground-penetrating radar sensor operably supported from the frame; and detecting crop residue over soil using the soil monitoring system before, after, or before and after the soil is tilled by the first or second plurality of tillage tools. 11. The method of claim 10 , further comprising adjusting an angle of the first or second subframe relative to the frame responsive to the detected crop residue. 12. The method of claim 10 , further comprising adjusting a height of the first or second subframe relative to the frame responsive to the detected crop residue. 13. The method of claim 10 , further comprising adjusting a height of the frame responsive to the detected crop residue. 14. The method of claim 10 , further comprising mapping the crop residue to GPS coordinates. 15. The method of claim 14 , further comprising adjusting operation of a planter based on the mapped crop residue. 16. The tillage implement of claim 1 , further comprising a wheel between the first subframe and the second subframe. 17. The tillage implement of claim 1 , further comprising a first angular adjustment actuator configured to angularly adjust the first subframe with respect to the frame and the normal forward direction of travel and a second angular adjustment actuator configured to angularly adjust the second subframe with respect to the frame and the normal forward direction of travel.