Systems and Methods for Adjusting Pass Depth In View of Excess Materials

1 . A method for controlling an earthmoving machine and a work implement associated with the earthmoving machine during an earthmoving operation of a work plan, the work plan including a projected first pass to create a projected work surface and a projected second pass having a target depth, the projected work surface having an expected surface height, the earthmoving machine including a prime mover, a ground engaging-mechanism, and a machine weight the method comprising: performing an actual first pass and creating an actual work surface; receiving positioning signals from a positioning system associated with the earthmoving machine during the actual first pass, the positioning signals indicative of a topography of the actual work surface; determining a profile of the actual work surface based at least in part on the positioning signals; determining if the profile of the actual work surface includes a bump, the bump having a bump height, the bump height being greater than the expected surface height; determining a depth adjustment if the profile of the actual work surface includes the bump, the depth adjustment based, at least in part, on the bump height and performance characteristics of the earthmoving machine, the performance characteristics of the earth moving machine including at least one of a maximum power output of the prime mover, a traction characteristic of the ground engaging-mechanism, and the machine weight; and determining an adjusted projected second pass at least in part by adjusting the target depth based on the depth adjustment, if the profile of the actual work surface includes the bump. 2 . The method of claim 1 , further comprising setting a cut location on the actual work surface for the work implement for the adjusted projected second pass, the cut location based at least in part on the target depth. 3 . The method of claim 2 , further comprising performing an actual second pass with the earthmoving machine, wherein the actual second pass is performed based on the adjusted projected second pass, if the profile of the actual work surface includes the bump. 4 . The method of claim 1 , further comprising determining a discount factor based on one or more conditions associated with the earthmoving operation. 5 . The method of claim 4 , wherein determining the depth adjustment, if the profile of the actual work surface includes the bump, further includes determining the depth adjustment based on the bump height and the discount factor. 6 . The method of claim 5 , wherein determining the depth adjustment based on the bump height and the discount factor is executed by multiplying the bump height by the discount factor. 7 . The method of claim 6 , wherein adjusting the target depth based on the depth adjustment, if the profile of the actual work surface includes the bump includes replacing the target depth with an adjusted target depth, the adjusted target depth determined by subtracting the depth adjustment from the target depth. 8 . The method of claim 4 , wherein determining a discount factor based on one or more conditions associated with the earthmoving operation includes that the one or more conditions associated with the earthmoving operation include at least one of a performance capability of the earthmoving machine, a topographical condition of the actual work surface, or a condition associated with a material of the actual work surface. 9 . A system for controlling an earthmoving machine and a work implement associated with the earthmoving machine during an earthmoving operation of a work plan, the work plan including a projected first pass to create a projected work surface and a projected second pass having a target depth, the projected work surface having an expected surface height, the earthmoving machine including a prime mover, a ground engaging-mechanism, and a machine weight the system comprising: a positioning system associated with the earthmoving machine, the positioning system configured to generate positioning signals during an actual first pass, the positioning signals indicative of a topography of an actual work surface created by the actual first pass; and a controller configured to execute instructions to: receive the positioning signals; determine a profile of the actual work surface based on the positioning signals; determine if the profile of the actual work surface includes a bump, the bump having a bump height, the bump height being greater than the expected surface height; determine a depth adjustment if the profile of the actual work surface includes the bump, the depth adjustment based, at least in part, on the bump height and performance characteristics of the earthmoving machine, the performance characteristics of the earth moving machine including at least one of a maximum power output of the prime mover, a traction characteristic of the ground engaging-mechanism, and the machine weight; and determine an adjusted projected second pass at least in part by adjusting the target depth based on the depth adjustment if the profile of the actual work surface includes the bump. 10 . The system of claim 9 , wherein the controller is further configured to execute instructions to set a cut location on the actual work surface for the work implement for the adjusted projected second pass, the cut location based on the target depth. 11 . The system of claim 10 , further comprising one or more actuators, wherein the controller is further configured to send signals to the actuators to direct the earthmoving machine to operate the earthmoving machine based on the work plan, and wherein the work plan includes the adjusted projected second pass. 12 . The system of claim 9 , wherein the controller is further configured to determine a discount factor based on one or more conditions associated with the earthmoving operation. 13 . The system of claim 12 , further comprising one or more machine sensors associated with the machine for generating machine sensor signals, and wherein the controller is further configured to: receive the machine sensor signals; and determine at least one of the one or more conditions associated with the earthmoving operation based on the machine sensor signals. 14 . The system of claim 12 , wherein the one or more conditions associated with the earthmoving operation includes that the one or more conditions associated with the earthmoving operation include at least one of a performance capability of the earthmoving machine, a topographical condition of the actual work surface, or a condition associated with a material of the actual work surface. 15 . The system of claim 14 , wherein the performance capability of the earthmoving machine is a drive power capability of the earthmoving machine. 16 . The system of claim 12 , wherein the controller determines the depth adjustment based on the bump height and the discount factor. 17 . An earthmoving machine, comprising: a prime mover; a ground engaging mechanism; a machine weight a work implement for cutting a work surface during an earthmoving operation of a work plan; a positioning system associated with the earthmoving machine, the positioning system configured to generate positioning signals during an actual first pass, the positioning signals indicative of a topography of an actual work surface created by the actual first pass; and; and a controller including a memory component including the work plan, the work plan including a projected first pass to create a projected work surface, and a projected second pass having a target dept