Work machine control systems to monitor ground engagement tools and map obstacles

The invention claimed is: 1. A work machine comprising: a frame structure; a work implement coupled to the frame structure that includes a plurality of ground engagement tools each configured to extend into the ground in use of the work machine; and a control system coupled to the frame structure that includes a plurality of depth sensors each mounted to a corresponding one of the plurality of ground engagement tools and each configured to provide sensor input indicative of a penetration depth of the corresponding ground engagement tool into the ground in use of the work machine, a controller communicatively coupled to each of the plurality of depth sensors, and at least one load sensor communicatively coupled to the controller and configured to provide load sensor input indicative of a tow load associated with the work implement in use of the work machine, wherein the controller includes memory having instructions stored therein that are executable by a processor to cause the processor to receive the sensor input from the plurality of depth sensors and the load sensor input from the at least one load sensor and to calculate at least one ratio of the tow load associated with the work implement to a position of at least one ground engagement tool relative to the ground based at least partially on the sensor input from the plurality of depth sensors and on the load sensor input from the at least one load sensor. 2. The work machine of claim 1 , wherein the instructions stored in the memory are executable by the processor to cause the processor to receive one or more external environment settings input by a user and to calculate the at least one ratio of the tow load associated with the work implement to the position of the at least one ground engagement tool based at least partially on the sensor input from the plurality of depth sensors, on the load sensor input from the at least one load sensor, and on the one or more external environment settings. 3. The work machine of claim 2 , wherein the instructions stored in the memory are executable by the processor to cause the processor to determine whether the calculated at least one ratio of the tow load associated with the work implement to the position of the at least one ground engagement tool increases as the at least one ground engagement tool extends farther into the ground. 4. The work machine of claim 3 , wherein the instructions stored in the memory are executable by the processor to cause the processor to notify an operator that one or more ground engagement tools are located in one or more compaction layers of the ground having increased soil density in response to a determination that the calculated at least one ratio increases as the at least one ground engagement tool extends farther into the ground. 5. The work machine of claim 4 , wherein the instructions stored in the memory are executable by the processor to cause the processor to prompt the operator to adjust a maximum depth setting of the one or more ground engagement tools located in the one or more compaction layers in response to the notification. 6. The work machine of claim 3 , wherein the instructions stored in the memory are executable by the processor to cause the processor to determine whether the calculated at least one ratio decreases as the at least one ground engagement tool extends farther into the ground in response to a determination that the calculated at least one ratio does not increase as the at least one ground engagement tool extends farther into the ground. 7. The work machine of claim 6 , wherein the instructions stored in the memory are executable by the processor to cause the processor to notify an operator that one or more ground engagement tools are located beneath one or more compaction layers of the ground having increased soil density in response to a determination that the calculated at least one ratio decreases as the at least one ground engagement tool extends farther into the ground. 8. The work machine of claim 7 , wherein the instructions stored in the memory are executable by the processor to cause the processor to prompt the operator to adjust a maximum depth setting of the one or more ground engagement tools located beneath the one or more compaction layers in response to the notification. 9. A control system mounted on a work machine including a frame structure and a work implement coupled to the frame structure that includes a plurality of ground engagement tools each configured to extend into the ground in use of the work machine, the control system comprising: a plurality of depth sensors each mounted to a corresponding one of the plurality of ground engagement tools and each configured to provide sensor input indicative of a penetration depth of the corresponding ground engagement tool into the ground in use of the work machine; a controller communicatively coupled to each of the plurality of depth sensors; and at least one load sensor communicatively coupled to the controller and configured to provide load sensor input indicative of a tow load associated with the work implement in use of the work machine, wherein the controller includes memory having instructions stored therein that are executable by a processor to cause the processor to calculate at least one ratio of the tow load associated with the work implement to a position of at least one ground engagement tool relative to the ground. 10. The control system of claim 9 , wherein the instructions stored in the memory are executable by a processor to cause the processor to receive the sensor input from the plurality of depth sensors and the load sensor input from the at least one load sensor and to calculate the at least one ratio of the tow load associated with the work implement to a position of at least one ground engagement tool relative to the ground based at least partially on the sensor input from the plurality of depth sensors and on the load sensor input from the at least one load sensor. 11. The control system of claim 10 , wherein the instructions stored in the memory are executable by the processor to cause the processor to receive one or more external environment settings input by a user and to calculate the at least one ratio of the tow load associated with the work implement to the position of the at least one ground engagement tool based at least partially on the sensor input from the plurality of depth sensors, on the load sensor input from the at least one load sensor, and on the one or more external environment settings. 12. The control system of claim 10 , wherein the instructions stored in the memory are executable by the processor to cause the processor to determine whether the calculated at least one ratio of the tow load associated with the work implement to the position of the at least one ground engagement tool increases as the at least one ground engagement tool extends farther into the ground. 13. The control system of claim 12 , wherein the instructions stored in the memory are executable by the processor to cause the processor to notify an operator that one or more ground engagement tools are located in one or more compaction layers of the ground having increased soil density in response to a determination that the calculated at least one ratio increases as the at least one ground engagement tool extends farther into the ground. 14. The control system of claim 12 , wherein the instructions stored in the memory are executable by the processor to cause the processor to determine whether the calculated at least one ratio decreases as the at least one ground engagement tool extends farther into the ground in re