Systems and methods for estimating battery system power capability

The invention claimed is: 1. A method of estimating a power capability of a battery system comprising: operating, by a battery control system, the battery system at a voltage limit of the battery system; measuring, using a current sensor, an initial battery current when the battery system operates at the voltage limit; operating, by the battery control system, the battery system at a current limit of the battery system; measuring, using a voltage sensor, an initial battery voltage when the battery system operates at the current limit; estimating, by the battery control system, a first future battery current at a first future iteration interval time when the battery system operates at the voltage limit based on the initial battery current; and estimating, by the battery control system, a first future battery voltage at the first future iteration interval time when the battery system operates at the current limit based on the initial battery voltage; determining, by the battery control system, a first estimated voltage-limited power capability of the battery system at the first future iteration interval time based on the first future battery current; determining, by the battery control system, a first estimated current-limited power capability of the battery system at the first future iteration interval time based on the first future battery voltage; determining, by the battery control system, a second estimated voltage-limited power capability based, at least in part, on the first future battery voltage; determining, by the battery control system, a second estimated current-limited power capability of the battery system based, at least in part, on the first future battery current; and sending, by the battery control system to a vehicle control system, a control action signal configured to implement a control action in a vehicle associated with the battery system based on the second estimated voltage-limited power capability and the second estimated current-limited power capability of the battery system, wherein the control action comprises at least one of changing a maximum drivetrain acceleration allowed by the vehicle control system, changing a maximum drivetrain speed allowed by the vehicle control system, and changing a maximum drivetrain torque allowed by the vehicle control system; and implementing, by the vehicle control system in response to receiving the control action signal, the control action in the vehicle. 2. The method of claim 1 , wherein the determining the second estimated voltage-limited power capability further comprises: estimating, by the battery control system, a second future battery current at a second future iteration interval time following the first future iteration interval time when the battery system operates at the voltage limit based on the first future battery current, and determining, by the battery control system, the second estimated voltage-limited power capability of the battery system at the second future iteration interval time based on the second future battery current; and wherein determining the second estimated current-limited power capability further comprises: estimating, by the battery control system, a second future battery voltage at the second future iteration interval time following the first future iteration interval time when the battery system operates at the current limit based on the first future battery voltage, and determining, by the battery control system, second estimated current-limited power capability of the battery system at the second future iteration interval time based on the second future battery voltage. 3. The method of claim 1 , wherein estimating the first future battery current and estimating the first future battery voltage comprises determining parameters associated with a model of the battery system at the first future iteration interval time. 4. The method of claim 3 , wherein the model comprises an equivalent circuit model. 5. A non-transitory computer-readable storage medium storing instructions that, when executed by a processor, cause the processor to perform a method for estimating a power capability of a battery system comprising: operating the battery system at a voltage limit of the battery system; measuring, using a current sensor, an initial battery current when the battery system operates at the voltage limit; operating the battery system at a current limit of the battery system; measuring, using a voltage sensor, an initial battery voltage when the battery system operates at the current limit; estimating a first future battery current at a first future iteration interval time when the battery system operates at the voltage limit based on the initial battery current; estimating a first future battery voltage at the first future iteration interval time when the battery system operates at the current limit based on the initial battery voltage; determining a first estimated voltage-limited power capability of the battery system at the first future iteration interval time based on the first future battery current; determining a first estimated current-limited power capability of the battery system at the first future iteration interval time based on the first future battery voltage; and implementing a control action in a vehicle associated with the battery system based on the first estimated voltage-limited power capability and the second estimated current-limited power capability of the battery system, wherein the control action comprises at least one of changing a maximum drivetrain acceleration allowed by a vehicle control system, changing a maximum drivetrain speed allowed by the vehicle control system, and changing a maximum drivetrain torque allowed by the vehicle control system. 6. The non-transitory computer-readable storage medium of claim 5 , wherein the method further comprises sending the first estimated voltage-limited power capability to a control system associated with the battery system. 7. The non-transitory computer-readable storage medium of claim 5 , wherein the method further comprises sending the first estimated current-limited power capability to a control system associated with the battery system. 8. The non-transitory computer-readable storage medium of claim 5 , wherein the method further comprises: estimating a second future battery current at a second future iteration interval time following the first future iteration interval time when the battery system operates at the voltage limit based on the first future battery current; estimating a second future battery voltage at the second future iteration interval time when the battery system operates at the current limit based on the first future battery voltage; determining a second estimated voltage-limited power capability of the battery system at the second future iteration interval time based on the second future battery current; and determining a second estimated current-limited power capability of the battery system at the second future iteration interval time based on the second future battery voltage. 9. The non-transitory computer-readable storage medium of claim 5 , wherein estimating the first future battery current and estimating the first future battery voltage comprises determining parameters associated with a model of the battery system at the first future iteration interval time. 10. The non-transitory computer-readable storage medium of claim 9 , wherein the model comprises an equivalent circuit model. 11. A battery control system comprising: a processor; and a non-transitory computer medium storing instructions configured to cause the battery control system to: operate the battery system a