System and method for determining an operational status of a battery

What is claimed is: 1. A method for detecting an operational status of a battery including a plurality of cells, comprising: obtaining a current drawn from the battery; in response to the current being less than a first current threshold, measuring static voltages each being a first electrical potential difference across one cell of a subset of the cells; in response to the current being greater than a second current threshold, measuring dynamic voltages each being a second electrical potential difference across one cell of the subset of the cells, the second current threshold being determined at least by a configuration of the subset of the cells and a load on the battery; obtaining a relation between maximum dynamic voltage differences of the plurality of cells in the battery and maximum static voltage differences of the plurality of cells in the battery based on a type of the battery and the load on the battery, the relation including damage regimes indicative of a damage of the battery; for the subset of the cells: calculating static voltage differences each between two cells from the subset, and determining a maximum static voltage difference of the subset based on the static voltage differences, and calculating dynamic voltage differences each between two cells from the subset, and determining a maximum dynamic voltage difference of the subset based on the dynamic voltage differences; and determining the operational status of the battery based on the relation including the damage regimes and at least one of the maximum static voltage difference of the subset or the maximum dynamic voltage difference of the subset. 2. The method of claim 1 , wherein: the first current threshold is in a range from 2 amperes to 10 amperes; and the second current threshold is in a range from 2 amperes to 10 amperes. 3. The method of claim 1 , wherein determining the operational status of the battery includes: determining the maximum static voltage difference based on all pairs of the static voltages; determining the maximum dynamic voltage difference based on all pairs of the dynamic voltages; and determining whether the battery is damaged or is likely to become damaged based on the relation including the damage regions and the at least one of the maximum static voltage difference or the maximum dynamic voltage difference. 4. The method of claim 3 , wherein determining whether the battery is damaged or is likely to become damaged includes determining that the battery is damaged or is likely to become damaged in response to one of: the maximum static voltage difference being less than a first static voltage threshold and the maximum dynamic voltage difference being greater than a first dynamic voltage threshold; a ratio of the maximum dynamic voltage difference to the maximum static voltage difference being greater than a ratio threshold, and the maximum static voltage difference being between the first static voltage threshold and a second static voltage threshold, the second static voltage threshold being greater than the first static voltage threshold; the maximum static voltage difference being greater than the second static voltage threshold; or the maximum dynamic voltage difference being greater than a second dynamic voltage threshold, the second dynamic voltage threshold being greater than the first dynamic voltage threshold. 5. The method of claim 4 , wherein: the first static voltage threshold is in a range from 50 millivolts to 100 millivolts; the second static voltage threshold is in a range from 100 millivolts to 200 millivolts; the first dynamic voltage threshold is in a range from 100 millivolts to 200 millivolts; the second dynamic voltage threshold is in a range from 200 millivolts to 400 millivolts; or the ratio threshold is in a range from one to five. 6. The method of claim 1 , further comprising: measuring an ambient temperature; and determining that a result of determining the operational status is unreliable in response to the ambient temperature being lower than a temperature threshold. 7. The method of claim 6 , wherein the temperature threshold is 5 degrees Celsius. 8. The method of claim 1 , further comprising: determining a maximum voltage of the subset of the cells; and determining that a result of determining the operational status is unreliable in response to the maximum voltage being less than a voltage threshold. 9. The method of claim 8 , wherein the voltage threshold is 3.65 volts. 10. The method of claim 1 , wherein the battery is configured to provide power to an unmanned aerial vehicle (UAV); the method further comprising: upon determining that the battery is damaged or is likely to become damaged, performing at least one of: alerting a ground terminal associated with the UAV; automatically landing the UAV; or automatically returning the UAV to a point-of-origin. 11. A system for detecting an operational status of a battery including a plurality of cells, comprising: one or more processors individually or collectively configured to obtain a current drawn from the battery; and one or more detectors; wherein: in response to the current being less than a first current threshold, the one or more detectors are configured to measure static voltages each being a first electrical potential difference across one cell of a subset of the cells; in response to the current being greater than a second current threshold, the one or more detectors are configured to measure dynamic voltages each being a second electrical potential difference across one cell of the subset of the cells, the second current threshold being determined at least by a configuration of the subset of the cells and a load on the battery; and the one or more processors are further configured to: obtain a relation between maximum dynamic voltage differences of the plurality of cells in the battery and maximum static voltage differences of the plurality of cells in the battery based on a type of the battery and the load on the battery, the relation including damage regions indicative of a damage of the battery; for the subset of the cells: calculate static voltage differences each between two cells from the subset, and determine a maximum static voltage difference of the subset based on the static voltage differences, and calculate dynamic voltage differences each between two cells from the subset, and determine a maximum dynamic voltage difference of the subset based on the dynamic voltage differences; and determine the operational status of the battery based on the relation including the damage regions and at least one of the maximum static voltage difference of the subset or the maximum dynamic voltage difference of the subset. 12. The system of claim 11 , wherein at least one of the detectors includes a voltmeter or an energy meter chip. 13. The system of claim 11 , wherein the one or more processors are further configured to: determine the maximum static voltage difference based on all pairs of the static voltages; determine the maximum dynamic voltage difference based on all pairs of the dynamic voltages; and determine whether the battery is damaged or is likely to become damaged based on the relation including the damage regions and the at least one of the maximum static voltage difference or the maximum dynamic voltage difference. 14. The system of claim 13 , wherein the one or more processors are further configured to determine that the battery is damaged or is likely to become damaged in response to one of: the maximum static voltage difference being less than a first static