On-the go soil sensors and control methods for agricultural machines

What is claimed is: 1. A system for providing on-the-go monitoring for use in automatically adjusting seed planting depth on-the-go in a planter having at least one row unit, the system comprising: a seed firmer associated with a row unit of the planter; a soil contact sensor operatively connected to the seed firmer to provide seed to soil contact data; an intelligent control electrically connected to the soil contact sensor and adapted to receive the soil contact sensor data; an actuator associated with the soil contact sensor; wherein the intelligent control is configured to monitor soil contact sensor data from the soil contact sensor operatively connected to the seed firmer and automatically adjust the seed planting depth on-the-go for the row unit of the planter, in relation to the data from the soil contact sensor. 2. The system of claim 1 wherein the soil contact sensor and the actuator are positioned within one of the at least one row unit. 3. The system of claim 1 wherein the soil contact sensor and the actuator are associated with a section, the section comprising a plurality of row units. 4. The system of claim 1 further comprising a monitor operatively connected to the intelligent control and wherein the monitor is configured to display information based on the sensor data. 5. The system of claim 1 further comprising a second sensor electrically connected to the intelligent control and wherein the intelligent control is further configured to monitor additional sensor data from the second sensor. 6. The system of claim 5 wherein the first sensor is a soil moisture sensor and the second sensor is a soil contact sensor. 7. A control system, comprising: a planter for planting seeds, the planter having at least one row unit; a soil moisture sensor attached to the planter; a monitor for displaying soil moisture readings; an actuator for adjusting seed planting depth; and an intelligent control operatively connected to the monitor, actuator, and soil moisture sensor; wherein the soil moisture sensor is configured to measure moisture readings at the planting depth as seeds are planted on-the-go; wherein the intelligent control receives the moisture readings from the soil moisture sensor and displays the moisture readings on the monitor; wherein the control system automatically adjusts seed planting depth on-the-go through the actuator in relation to level of moisture in the soil; further comprising a soil contact sensor attached to the at least one row unit; wherein the soil contact sensor is configured to measure seed to soil contact readings at the planting depth as seeds are planted on-the-go; wherein the intelligent control receives the seed to soil contact readings from the soil contact sensor and displays the seed to soil contact readings on the monitor; wherein the control system automatically adjusts seed planting depth on-the-go through the actuator in relation to seed to soil contact readings. 8. The control system of claim 7 , wherein one or more of the sensors is a dielectric sensor. 9. The control system of claim 7 , wherein one or more of the sensors is an optical sensor. 10. The control system of claim 7 , further comprising a thermocouple sensor associated with the control system, wherein the thermocouple sensor is in position for measuring soil temperature. 11. The control system of claim 7 , further comprising a planting depth gauge associated with the control system, wherein the planting depth gauge is in position for detecting depth of a seed furrow. 12. The control system of claim 11 , wherein the planting depth gauge is an optical sensor for detecting depth of the seed furrow by measuring the height of a seed furrow sidewall. 13. The control system of claim 11 , wherein the planting depth gauge is a dielectric sensor for detecting depth of the seed furrow by measuring the height of a seed furrow sidewall. 14. The control system of claim 7 further comprising a seed firmer operatively connected to the row unit wherein the seed firmer houses the soil moisture sensor and a soil contact sensor. 15. A method of adjusting seed planting depth on-the-go, the method comprising: providing a system comprising (a) a planter for planting seeds, the planter including at least one row unit, (b) a soil contact sensor attached to the planter, (c) a monitor for displaying soil contact readings, (d) an actuator for adjusting seed planting depth, and (f) an intelligent control operatively connected to the monitor, actuator, and the soil contact sensor; measuring seed to soil contact at the planting depth with the soil contact sensor as seeds are planted to provide seed to soil contact data; analyzing soil contact sensor data; providing seed planting depth adjustments to the intelligent control based on soil contact sensor data; and adjusting seed planting depth on-the-go using the actuator based on the seed planting depth adjustments.