Dual sugarcane billet transportation system

What is claimed is: 1. A sugarcane harvester, comprising: a basecutter configured to cut sugarcane; a feeding device in communication with the basecutter to receive and feed the cut sugarcane into the sugarcane harvester; a chopping device in communication with the feeding device, the chopping device configured to chop the cut sugarcane received from the feeding device into billets; a primary extractor in communication with the chopping device and configured to extract debris from the billets; an onboard storage in communication with the primary extractor and configured to receive billets; a billet transportation system in communication with the onboard storage and configured to receive billets and propel the billets to a target location, the billet transportation system comprising: a first belt configured to receive billets from the onboard storage and transport billets away from a first portion of the sugarcane harvester; a second belt configured to receive billets from the onboard storage and transport billets away from a second portion of the sugarcane harvester; and at least one metering device configured to control the flow of billets from the onboard storage to the first and second belts; and a control system for controlling the propulsion of the billets to the target location, the control system comprising a target feedback device providing a target feedback signal indicative of the target location and velocity and a controller in communication with the target feedback device and configured to automatically adjust at least one of a first position of the first belt relative to a vertical axis, a second position of the second belt relative to the vertical axis, a first speed of the first belt, and a second speed of the second belt to propel the billets to the target location. 2. The sugarcane harvester of claim 1 , wherein the onboard storage is an onboard storage belt configured to transport billets to the first belt and the second belt. 3. The sugarcane harvester of claim 2 , wherein the onboard storage belt is configured to move billets in a first direction and in a second direction, opposite the first direction. 4. The sugarcane harvester of claim 1 , wherein at least one of the first belt and the second belt is moved relative to a vertical axis to propel the billets to the target location. 5. The sugarcane harvester of claim 1 , wherein at least one of a first speed of the first belt and a second speed of the second belt is adjusted to propel the billets to the target location. 6. The sugarcane harvester of claim 1 , further comprising a backboard coupled to the onboard storage and configured to limit billets from falling off the sugarcane harvester. 7. A sugarcane harvester, comprising: a basecutter configured to cut sugarcane; a feeding device in communication with the basecutter to receive and feed the cut sugarcane into the sugarcane harvester; a chopping device in communication with the feeding device, the chopping device configured to chop the cut sugarcane received from the feeding device into billets; a primary extractor in communication with the chopping device and configured to extract debris from the billets; an onboard storage in communication with the primary extractor and configured to receive billets; and a billet transportation system in communication with the onboard storage and configured to receive billets and propel the billets to a target location, the billet transportation system comprising: a first belt configured to receive billets from the onboard storage and transport billets away from a first portion of the sugarcane harvester; a second belt configured to receive billets from the onboard storage and transport billets away from a second portion of the sugarcane harvester; and at least one metering device configured to control the flow of billets from the onboard storage to the first and second belts, wherein the metering device comprises a first paddle wheel configured to control the flow of billets to the first belt and a second paddle wheel configured to control the flow of billets to the second belt. 8. The sugarcane harvester of claim 1 , wherein the first portion of the sugarcane harvester is the left side and the second portion of the sugarcane harvester is the right side. 9. The sugarcane harvester of claim 1 , wherein the sugarcane harvester is configured to convert from an operation position to a transport position where the first belt and the second belt are moved downwardly relative to a vertical axis. 10. A combination, comprising: a billet transportation system for a sugarcane harvester having an onboard storage for receiving billets, the billet transportation system comprising: a first belt configured to receive billets from the onboard storage and transport billets away from a first portion of the sugarcane harvester to a target location; a second belt configured to receive billets from the onboard storage and transport billets away from a second portion of the sugarcane harvester to the target location; at least one metering device configured to control the flow of billets from the onboard storage to the first and second belts; and a control system for controlling the propulsion of the billets to the target location, the control system comprising a target feedback device providing a target feedback signal indicative of the target location and velocity and a controller in communication with the target feedback device and configured to automatically adjust at least one of a first position of the first belt relative to a vertical axis, a second position of the second belt relative to the vertical axis, a first speed of the first belt, and a second speed of the second belt to propel the billets to the target location. 11. The combination of claim 10 , wherein the onboard storage is an onboard storage belt configured to transport billets to the first belt and the second belt. 12. The combination of claim 10 , wherein at least one of the first belt and the second belt is moved relative to a vertical axis to propel the billets to the target location. 13. The combination of claim 10 , wherein at least one of a first speed of the first belt and a second speed of the second belt is adjusted to propel the billets to the target location. 14. The combination of claim 10 , further comprising a backboard coupled to the onboard storage and configured to limit billets from falling off the sugarcane harvester. 15. The combination of claim 10 , wherein the metering device comprises a first paddle wheel configured to control the flow of billets to the first belt and a second paddle wheel configured to control the flow of billets to the second belt. 16. The combination of claim 10 , wherein the first portion of the sugarcane harvester is the left side and the second portion of the sugarcane harvester is the right side. 17. The combination of claim 10 , wherein the sugarcane harvester is configured to convert from an operation position to a transport position where the first belt and the second belt are moved downwardly relative to a vertical axis.