Battery state of function prediction with warm/cold cranking recognition and self-correction

What is claimed is: 1. A system for a vehicle having an engine and a battery, comprising: a memory having a first current expected to be provided by the battery for restarting the engine during a warm cranking event and a second current expected to be provided by the battery for restarting the engine during a cold cranking event; a controller to predict a first minimum voltage of the battery expected during the warm cranking event based on the first current and a second minimum voltage of the battery expected during the cold cranking event based on the second current; wherein the controller further to detect a new cranking event as being the warm cranking event as a measured current provided by the battery during the new cranking event is closer to the first current than to the second current, generate a correction factor based on a difference between a measured voltage of the battery during the new cranking event and the first minimum voltage, and predict a third minimum voltage of the battery expected during a next warm cranking event based on the first current and the correction factor; and wherein the controller further to enable the engine to be stopped ahead of a subsequent cranking event following the new cranking event when the second minimum voltage of the battery is greater than a minimum voltage threshold and to prevent the engine from being stopped ahead of the subsequent cranking event following the new cranking event when the second minimum voltage of the battery is less than the minimum voltage threshold. 2. The system of claim 1 wherein: the controller further to detect a second new cranking event as being the cold cranking event as a measured current provided by the battery during the second new cranking event is closer to the second current than to the first current, generate a second correction factor based on a difference between a measured voltage of the battery during the second new cranking event and the second minimum voltage, and predict a fourth minimum voltage of the battery expected during a next cold cranking event based on the second current and the second correction factor. 3. The system of claim 2 wherein: the controller further to enable the engine to be stopped ahead of a subsequent cranking event following the second new cranking event when the fourth minimum voltage of the battery is greater than a minimum voltage threshold and to prevent the engine from being stopped ahead of the subsequent cranking event following the second new cranking event when the fourth minimum voltage of the battery is less than the minimum voltage threshold. 4. The system of claim 1 wherein: the memory includes a warm current profile having the first current and other currents provided by the battery during previous warm cranking events and a cold current profile having the second current and other currents provided by the battery during previous cold cranking events, wherein the first current is a maximum likelihood current of the warm current profile and the second current is a maximum likelihood current of the cold current profile. 5. The system of claim 4 wherein: the controller further to store in the memory with the warm current profile a measured current provided by the battery during the warm cranking event, wherein the maximum likelihood current of the warm current profile is based on the currents of the warm current profile including the measured current provided by the battery during the warm cranking event; and the controller further to store in the memory with the cold current profile a measured current provided by the battery during the cold cranking event, wherein the maximum likelihood current of the cold current profile is based on the currents of the cold current profile including the measured current provided by the battery during the cold cranking event. 6. A vehicle comprising: an engine; a battery; a memory having a first current expected to be provided by the battery for restarting the engine during a warm cranking event and a second current expected to be provided by the battery for restarting the engine during a cold cranking event; a controller to predict a first minimum voltage of the battery expected during the warm cranking event based on the first current and a second minimum voltage of the battery expected during the cold cranking event based on the second current; wherein the controller further to detect a new cranking event as being the cold cranking event as a measured current provided by the battery during the new cranking event is closer to the second current than to the first current, generate a correction factor based on a difference between a measured voltage of the battery during the new cranking event and the second minimum voltage, and predict a fourth minimum voltage of the battery expected during a next cold cranking event based on the second current and the correction factor; and wherein the controller further to enable the engine to be stopped ahead of a subsequent cranking event following the new cranking event when the fourth minimum voltage of the battery is greater than a minimum voltage threshold and to prevent the engine from being stopped ahead of the subsequent cranking event following the new cranking event when the fourth minimum voltage of the battery is less than the minimum voltage threshold. 7. The vehicle of claim 6 wherein: the controller further to detect a second new cranking event as being the warm cranking event as a measured current provided by the battery during the second new cranking event is closer to the first current than to the second current, generate a second correction factor based on a difference between a measured voltage of the battery during the second new cranking event and the first minimum voltage, and predict a third minimum voltage of the battery expected during a next warm cranking event based on the first current and the second correction factor. 8. The vehicle of claim 7 wherein: the controller further to enable the engine to be stopped ahead of a subsequent cranking event following the second new cranking event when the second minimum voltage of the battery is greater than a minimum voltage threshold and to prevent the engine from being stopped ahead of the subsequent cranking event following the second new cranking event when the second minimum voltage of the battery is less than the minimum voltage threshold. 9. The vehicle of claim 6 wherein: the memory includes a warm current profile having the first current and other currents provided by the battery during previous warm cranking events and a cold current profile having the second current and other currents provided by the battery during previous cold cranking events, wherein the first current is a maximum likelihood current of the warm current profile and the second current is a maximum likelihood current of the cold current profile. 10. The vehicle of claim 9 wherein: the controller further to store in the memory with the warm current profile a measured current provided by the battery during the warm cranking event, wherein the maximum likelihood current of the warm current profile is based on the currents of the warm current profile including the measured current provided by the battery during the warm cranking event; and the controller further to store in the memory with the cold current profile a measured current provided by the battery during the cold cranking event, wherein the maximum likelihood current of the cold current profile is based on the currents of the cold current profile including the measured current provided by the battery during the cold cranking event. 11. A method for a vehicle having an engine