Riding mower edge detection system

What is claimed is: 1. A lawn mower comprising: a frame supported on rotatable wheels for movement over a ground surface; an operator support coupled to the frame and configured to support the entire weight of an operator of the lawn mower during use thereof; a blade assembly comprising at least one blade that is configured to cut grass on the ground surface; a motor assembly configured to: drive the wheels so as to move the frame along the ground surface; and drive the at least one blade relative to the ground surface to cut grass; a steering assembly configured to manipulate the steering direction of the wheels; a sensor configured to measure an attribute of the grass being cut and detect an edge between an unmowed area of grass and a mowed area of grass; and one or more processors configured to: receive input from the sensor, determine a subsequent path for the lawn mower based on the input from the sensor. 2. The lawn mower of claim 1 , wherein the sensor is selected from the group consisting of an image sensor and a video image processor associated therewith, a capacitive grass detection sensor, a machine vision systems sensor, and a grass height sensor. 3. The lawn mower of claim 1 , wherein the determined subsequent path includes a trajectory that provides a most likely direction for the lawn mower to move next, so as to keep the lawn mower on a track that minimizes the amount of redundant mowing of previously cut grass; and control the steering system to automatically steer the lawn mower along the calculated trajectory path until the area is covered/completely mowed. 4. The lawn mower of claim 1 , wherein the one or more processors are configured to display the determined subsequent path to the operator on an user interface that is carried by the frame of the lawn mower so as to guide the operator to drive the lawn mower along the determined subsequent path. 5. The lawn mower of claim 2 , further including one or more of the following: a grass chute discharge sensor configured measure the density of the grass being cut as the grass being cut is discharged from a mower deck or through a cut grass collection system to a cut grass collection compartment; and a blade motor current sensor configured to measure the blade motor currents that are generally associated with the density of the grass being cut wherein the one or more processors is configured to receive input from the grass chute discharge sensor or the blade motor current sensor, and control the motor assembly to adjust the speed of the lawn mower along the ground surface based on the input from the sensor. 6. A lawn mower comprising: a frame supported on rotatable wheels for movement over a ground surface; an operator support coupled to the frame and configured to support the entire weight of an operator of the lawn mower during use thereof; a blade assembly comprising at least one blade that is configured to cut grass on the ground surface; a motor assembly configured to drive the wheels so as to move the frame along the ground surface and drive the at least one blade relative to the ground surface to cut grass; a steering assembly configured to manipulate the steering direction of the wheels; a sensor configured to detect an edge between an unmowed area of grass and a mowed area of grass; and one or more processors configured to receive input from the sensor, and determine a subsequent path for the lawn mower based on the input from the sensor; a mower deck having an upper wall and a plurality of side walls generally extending vertically downwardly from the upper wall, the plurality of the side walls and the upper wall form a cavity; wherein at least one blade is configured at least partially disposed in the cavity; wherein the sensor is also configured to detect variations in the angle and the contour of the ground surface and transmit data to the one or more processors; an actuator system configured to receive signals from the one or more processors, the actuator system operatively connected to the mower deck, the at least one blade, or both; and wherein the one or more processors are configured to control the actuator system to adjust the mower deck, the at least one blade or both to compensate for the variations in the ground surface. 7. The lawn mower of claim 6 , wherein the actuator system includes a) control linkages/members associated with a mower deck and a mower deck adjustment/control motor; b) control linkages/members associated with the at least one blade, and a blade adjustment motor; or c) control linkages/members associated with the mower deck, the mower deck adjustment/control motor; control linkages/members associated with the at least one blade, and the blade adjustment motor. 8. The lawn mower of claim 7 , wherein, as the lawn mower approaches an area where scalping is likely to occur, the mower deck is articulated or pivoted using the control linkages/members associated with the mower deck and the mower deck adjustment/control motor. 9. The lawn mower of claim 8 , wherein the mower deck motor is configured to interact with the control linkages/members associated with the mower deck to move the mower deck upwardly or downwardly so as to compensate for the variations in the ground surface. 10. The lawn mower of claim 7 , wherein, as the lawn mower approaches an area where scalping is likely to occur, the at least one blade is adjusted using the control linkages/members associated with the at least one blade and the blade adjustment motor. 11. The lawn mower of claim 10 , wherein the blade adjustment motor is configured to interact with the control linkages/members associated with the at least one blade to move the at least one blade upwardly or downwardly so as to compensate for the variations in the ground surface.