Drop floor assembly with front and rear linkage mechanism

What is claimed is: 1. A harvester assembly comprising: a feeder assembly; a bottom floor assembly; a crop collection channel positioned therebetween, such crop collection channel having a depth defined by the distance between the feeder assembly and the bottom floor assembly; and a controller in operable communication with one or more valves configured for regulation of fluid flow and pressure in a hydraulic circuit; wherein the feeder assembly comprises a rotor rotatable positioned on a transverse axis between a first and a second sidewall, and a first pair of slotted guides oppositely positioned on the first and the second sidewalls; wherein the bottom floor assembly comprises: at least a first pair of hydraulic cylinders in fluid communication with the hydraulic circuit; at least a second pair of hydraulic cylinders in fluid communication with the hydraulic circuit; a bottom floor frame comprising a first and a second framewall and at least one face extending laterally across a top portion of the bottom floor assembly, such bottom floor frame positioned opposite and proximate to the feeder assembly; one or a plurality of bottom floor plates, covering the at least one face and comprising a concave curvature that defines at least a portion of the bottom of the crop collection channel; wherein at least one of the first pair and at least one of the second pair of hydraulic cylinders is operably linked to the bottom floor frame. 2. The harvester assembly of claim 1 , wherein the feeder assembly further comprises at least one or a plurality of cutting implements positioned across at least a portion of the transverse axis between the first and the second sidewalls. 3. The harvester assembly of claim 1 , wherein the bottom floor assembly further comprises at least one connecting unit mechanically linked to the first pair of hydraulic cylinders and positioned within the at least one pair of slotted guides; wherein the at least first pair of hydraulic cylinders is set to a first predetermined amount of compression, and, in at least a first operational mode, provides a variable range of motion, such that extension of the at least first pair of hydraulic cylinders moves a front portion of the bottom floor assembly along the length of the first pair of slotted guides and adjusts the depth of the crop collection channel at the front portion of the at least one face; and wherein the at least a second pair of hydraulic cylinders is set to a second predetermined amount of compression and, in at least the first operational mode, provides a variable range of motion, such that extension of the at least a second pair of hydraulic cylinders pivots the bottom floor assembly at a pivot point positioned at the front of the bottom floor assembly, thereby adjusting the depth of the crop collection channel at the rear-most section of the at least one face. 4. The harvester assembly of claim 3 , wherein the controller is configured for synchronized movement of the first pair of hydraulic cylinders and the second pair of hydraulic cylinders. 5. The harvester assembly of claim 1 , wherein the at least a first pair of hydraulic cylinders comprises a first and a second cylinder and wherein the controller is configured for synchronized movement of the first and second cylinder, such that, when a first predetermined amount of compression is applied to the first pair of hydraulic cylinders, the first and second cylinders move at about the same time within the variable range of motion of the first pair of hydraulic cylinders. 6. The harvester assembly of claim 1 , wherein the controller is configured for synchronized movement of the first and second pair of hydraulic cylinders, such that the first and second pair of hydraulic cylinders provide motion within their respective variable ranges at about the same time. 7. The harvester assembly of claim 1 , wherein, upon exposure to an amount of compression that exceeds the first predetermined and second predetermined amount of compression, the controller automatically transitions the harvester assembly from a first operational mode to a second operational mode; wherein, in such second operational mode, the bottom floor assembly is in a fully open position relative to its distance from the feeder in the first operational mode and allows manual access to the interior of the harvester assembly. 8. The harvester assembly of claim 1 further comprising at least one cutting knife unit supported by the bottom floor frame; wherein the at least one cutting knife unit comprises at least one or a plurality of blades that passes through at least one or a plurality of slots in the bottom floor plate and at least partially protrude into the crop collection channel. 9. The harvester assembly of claim 4 , wherein the connecting unit comprises a transverse rod that is positioned between the first pair of hydraulic cylinders along a movable transverse axis. 10. The harvester assembly of claim 4 , wherein the connecting unit comprises a pair of oppositely positioned members affixed to the first pair of hydraulic cylinders along a moveable transverse axis, such moveable transverse axis defined in position by the slotted guides. 11. A harvester comprising a harvester assembly comprising: a feeder assembly; a bottom floor assembly; a crop collection channel positioned therebetween, such crop collection channel having a depth defined by the distance between the feeder assembly and the bottom floor assembly; and a controller in operable communication with one or more valves configured for regulation of fluid flow and pressure in a hydraulic circuit; wherein the feeder assembly comprises a rotor rotatable positioned on a transverse axis between a first and a second sidewall, and a first pair of slotted guides oppositely positioned on the first and the second sidewalls; wherein the bottom floor assembly comprises: at least a first pair of hydraulic cylinders in fluid communication with the hydraulic circuit; at least a second pair of hydraulic cylinders in fluid communication with the hydraulic circuit; a bottom floor frame comprising a first and a second framewall and at least one face extending laterally across a top portion of the bottom floor assembly, such bottom floor frame positioned opposite and proximate to the feeder assembly; one or a plurality of bottom floor plates, covering the at least one face and comprising a concave curvature that defines at least a portion of the bottom of the crop collection channel; wherein at least one of the first pair and at least one of the second pair of hydraulic cylinders is operably linked to the bottom floor frame. 12. The harvester of claim 11 , wherein the at least a first pair of hydraulic cylinders, set to a first predetermined amount of compression, provides a variable range of motion, thereby moving a front portion of the bottom floor assembly along the length of the first pair of slotted guides and adjusting the depth of the crop collection channel at the front portion of the at least one face during at least a first operational mode; and wherein the at least a second pair of hydraulic cylinders, set to a second predetermined amount of compression, provides a variable range of motion, thereby pivoting the bottom floor assembly at a pivot point positioned at the front portion of the bottom floor assembly and adjusting the depth of the crop collection channel at the rear-most section of the at least one face during at least the first operational mode. 13. The harvester of claim 12 , wherein the controller is configured for synchronized movement of the first pair of hydraulic cylind