Validation and correction of gen 2 anode H2 concentration estimation

What is claimed is: 1. A method for correcting a gas concentration estimation value that is an estimate of hydrogen gas in an anode of a fuel cell stack, said method comprising: providing a hydrogen gas concentration sensor value from a virtual sensor, where the virtual sensor determines the hydrogen gas concentration sensor value by measuring at least one fuel cell parameter including fuel cell stack voltage; calculating the hydrogen gas concentration estimation value using a pre-existing gas concentration estimation model, where the estimation model uses an estimation of anode nitrogen gas in an ideal gas law calculation to determine the hydrogen gas concentration estimation value; determining if a difference between the hydrogen gas concentration estimation value and the hydrogen gas concentration sensor value is greater than at least one threshold; and causing an extended bleed event to occur that bleeds an anode exhaust gas to force the hydrogen gas concentration estimation value to be closer to the hydrogen gas concentration sensor value if the difference between the hydrogen gas concentration estimation value and the hydrogen gas concentration sensor value is greater than the at least one threshold. 2. The method according to claim 1 further comprising repeating determining if a difference between the hydrogen gas concentration estimation value and the hydrogen gas concentration sensor value is greater than the at least one threshold after the extended bleed event, and if so, incrementing a counter. 3. The method according to claim 2 further comprising determining whether a count value in the counter is greater than a count threshold after the counter has been incremented, and if not, causing the extended bleed event to occur again. 4. The method according to claim 3 further comprising reporting a diagnostic issue if the count value is greater than the count threshold. 5. The method according to claim 1 wherein determining whether a difference between the hydrogen gas concentration estimation value and the hydrogen gas concentration sensor value is greater than at least one threshold includes determining whether the hydrogen gas concentration sensor value minus the hydrogen gas concentration estimation value is greater than a first threshold and determining whether the hydrogen gas concentration estimation value minus the hydrogen gas concentration sensor value is greater than a second threshold, where the first and second thresholds are different. 6. The method according to claim 1 further comprising determining whether the hydrogen gas concentration sensor value is valid before determining if a difference between the hydrogen gas concentration estimation value and the hydrogen gas concentration sensor value is greater than at least one threshold. 7. The method according to claim 6 further comprising determining whether an elapsed time from a previous extended bleed event is greater than a predetermined threshold if the hydrogen gas concentration sensor value is not valid. 8. The method according to claim 7 further comprising causing the extended bleed event to occur if the elapsed time is greater than the threshold. 9. A method for correcting a gas concentration estimation value that is an estimate of hydrogen gas in an anode of a fuel cell stack, said method comprising: providing a hydrogen gas concentration sensor value from a virtual sensor; calculating the hydrogen gas concentration estimation value using a pre-existing gas concentration estimation model, where the estimation model uses an estimation of anode nitrogen gas in an ideal gas law calculation to determine the hydrogen gas concentration estimation value; determining whether the hydrogen gas concentration sensor value minus the hydrogen gas concentration estimation value is greater than a first threshold and determining whether the hydrogen gas concentration estimation value minus the hydrogen gas concentration sensor value is greater than a second threshold, where the first and second thresholds are different; causing an extended bleed event to occur that bleeds an anode exhaust gas to force the hydrogen gas concentration estimation value to be closer to the hydrogen gas concentration sensor value if the hydrogen gas concentration sensor value minus the hydrogen gas concentration estimation value is greater than the first threshold or the hydrogen gas concentration estimation value minus the hydrogen gas concentration sensor value is greater than the second threshold; repeating determining whether the hydrogen gas concentration sensor value minus the hydrogen gas concentration estimation value is greater than the first threshold and determining whether the hydrogen gas concentration estimation value minus the hydrogen gas concentration sensor value is greater than the second threshold after the extended bleed event, and if so, incrementing a counter; determining whether a count value of the counter is greater than a count threshold after the counter has been incremented, and if not, causing the extended bleed event to occur again; and reporting a diagnostic issue if the count value is greater than the count threshold. 10. The method according to claim 9 further comprising determining whether the hydrogen gas concentration sensor value is valid before determining whether the hydrogen gas concentration sensor value minus the hydrogen gas concentration estimation value is greater than a first threshold and determining whether the hydrogen gas concentration estimation value minus the hydrogen gas concentration sensor value is greater than a second threshold. 11. The method according to claim 10 further comprising determining whether an elapsed time from a previous extended bleed event is greater than a predetermined threshold if the hydrogen gas concentration sensor value is not valid. 12. The method according to claim 11 further comprising causing the extended bleed event to occur if the elapsed time is greater than the threshold. 13. A system for correcting a gas concentration estimation value that is an estimate of hydrogen gas in an anode of a fuel cell stack, said method comprising: a virtual sensor for providing a hydrogen gas concentration sensor value, where the virtual sensor determines the hydrogen gas concentration sensor value by measuring at least one fuel cell parameter including fuel cell stack voltage; and a controller including a processor configured with an algorithm which performs steps including: calculating the hydrogen gas concentration estimation value using a pre-existing gas concentration estimation model, where the estimation model uses an estimation of anode nitrogen gas in an ideal gas law calculation to determine the hydrogen gas concentration estimation value; determining if a difference between the hydrogen gas concentration estimation value and the hydrogen gas concentration sensor value is greater than at least one threshold; and causing an extended bleed event to occur that bleeds an anode exhaust gas to force the hydrogen gas concentration estimation value to be closer to the hydrogen gas concentration sensor value if the difference between the hydrogen gas concentration estimation value and the hydrogen gas concentration sensor value is greater than the at least one threshold. 14. The system according to claim 13 further comprising, in the algorithm, repeating determining if a difference between the hydrogen gas concentration estimation value and the hydrogen gas concentration sensor value is greater than the at least one threshold, and if so, incrementing a counter. 15. The system according to clai