Ultra-low idle management

What is claimed is: 1. A work vehicle comprising: an internal combustion engine; an aftertreatment system configured to treat exhaust gas from the engine; at least one controller in communication with the engine and the aftertreatment system, the at least one controller configured to: determine a hydrocarbon level of the aftertreatment system; set an idle speed of the engine to high idle if the hydrocarbon level is above a hydrocarbon ceiling; set an idle speed of the engine to ultra-low idle if the hydrocarbon level is below a hydrocarbon floor, the hydrocarbon level of the hydrocarbon floor less than the hydrocarbon level of the hydrocarbon ceiling; and set the idle speed of the engine to low idle if the hydrocarbon level is between the hydrocarbon ceiling and the hydrocarbon floor, engine speed at low idle greater than engine speed at ultra-low idle, engine speed at low idle less than engine speed at high idle. 2. The work vehicle of claim 1 , wherein the at least one controller is configured to determine the hydrocarbon level using a temperature of the aftertreatment system. 3. The work vehicle of claim 2 , wherein the temperature of the aftertreatment system is a sensed temperature provided by a temperature sensor included in the aftertreatment system. 4. The work vehicle of claim 2 , wherein the temperature of the aftertreatment system is an estimated current temperature provided by a computational model of the aftertreatment system. 5. The work vehicle of claim 2 , wherein the temperature of the aftertreatment system is an estimated future temperature of the aftertreatment system. 6. The work vehicle of claim 2 , wherein the temperature of the aftertreatment system is a temperature of a selective catalytic reduction system included in the aftertreatment system. 7. The work vehicle of claim 1 , wherein the hydrocarbon level is an estimated future hydrocarbon level. 8. The work vehicle of claim 1 , wherein the at least one controller is further configured to: count the number of times the idle speed of the engine transitions from ultra-low idle to high-idle since a last key cycle; and disable the setting of the idle speed of the engine to ultra-low idle if the count is greater than a maximum ULI exit count. 9. The work vehicle of claim 1 , wherein engine speed at ultra-low idle is below 785 RPM, the engine speed at low idle is 785-1049 RPM, and the engine speed at high idle is 1050-1300 RPM. 10. The work vehicle of claim 1 , wherein the hydrocarbon level is determined using at least two of an ambient temperature, a load on the engine, and an engine temperature. 11. The work vehicle of claim 1 , wherein the hydrocarbon level is below a hydrocarbon floor if the temperature of the aftertreatment system is above a high temperature threshold, the hydrocarbon level is between a hydrocarbon ceiling and the hydrocarbon floor if the temperature of the aftertreatment system is between the high temperature threshold and a low temperature threshold, and the hydrocarbon level is above the hydrocarbon ceiling if the temperature of the aftertreatment system is below the low temperature threshold, the hydrocarbon level of the hydrocarbon ceiling greater than the hydrocarbon level of the hydrocarbon floor. 12. The work vehicle of claim 2 , wherein the hydrocarbon level is determined by adding the hydrocarbon change to a previously determined hydrocarbon level, the hydrocarbon change determined using the temperature of the aftertreatment system. 13. The work vehicle of claim 12 , wherein the hydrocarbon change is determined using a relationship between the temperature of the aftertreatment system and the hydrocarbon change, the relationship stored in memory on the at least one controller. 14. A method of controlling an internal combustion engine with an aftertreatment system configured to treat exhaust gas from the engine, the method comprising: determining a current temperature of the aftertreatment system; estimating, using the current temperature of the aftertreatment system, whether a future temperature of the aftertreatment system will be below a minimum aftertreatment temperature; setting an idle speed of the engine to high idle if the current temperature of the aftertreatment system is below the minimum aftertreatment temperature; setting the idle speed of the engine to ultra-low idle if (i) the idle speed is not set to high idle and (ii) the future temperature of the aftertreatment system is estimated to not be below the minimum aftertreatment temperature; and setting the idle speed of the engine to low idle if it is not set to ultra-low idle or high idle, the engine speed at ultra-low idle less than the engine speed at low idle, the engine speed at high idle greater than the engine speed at low idle. 15. The method of claim 14 , wherein the current temperature of the aftertreatment system is a sensed temperature provided by a temperature sensor included in the aftertreatment system. 16. The method of claim 15 , wherein the temperature sensor is configured to measure a temperature of a selective catalytic reduction system included in the aftertreatment system. 17. The method of claim 14 , wherein the future temperature of the aftertreatment system is estimated using the current temperature of the aftertreatment system. 18. The method of claim 14 , wherein the future temperature of the aftertreatment system is estimated using at least two of the current temperature of the aftertreatment system, an ambient temperature, and an engine load. 19. The method of claim 14 , further comprising: counting the number of times the idle speed was transitioned from ultra-low idle to high idle since a last key cycle; and disabling ultra-low idle if the count is greater than a maximum ULI exit count. 20. The method of claim 14 , wherein the current temperature of the aftertreatment system is a first current temperature of the aftertreatment system, the future temperature of the aftertreatment system is a first future temperature of the aftertreatment system, and the minimum aftertreatment temperature is a first minimum aftertreatment temperature, the method further comprising: determining a second current temperature of the aftertreatment system, the second current temperature of the aftertreatment system indicative of a temperature of a different portion of the aftertreatment system than the first current temperature of the aftertreatment system; setting the idle speed of the engine to high idle if the second current temperature of the aftertreatment system is below the second minimum aftertreatment temperature; estimating whether a second future temperature of the aftertreatment system will not be below a second minimum aftertreatment temperature, the first future temperature of the aftertreatment system indicative of a temperature of a different portion of the aftertreatment system than the second future temperature of the aftertreatment system; and setting the idle speed of the engine to ultra-low idle if (i) the idle speed is not set to high idle, (ii) the first future temperature of the aftertreatment system is estimated to not be below the first minimum aftertreatment temperature, and (iii) the second future temperature of the aftertreatment system is estimated to not be below the second minimum aftertreatment temperature.