System and method for electrical short detection

What is claimed is: 1. A method comprising: measuring a characteristic of a current that is supplied to an electrical system from a power source as an applied voltage and that is conducted through one or more resistive elements of the electrical system; determining a resistance change of the one or more resistive elements based at least in part on a difference between the characteristic of the current that is measured and a filtered value of one or more of the characteristic of the current that is measured or the applied voltage supplied by the power source; and identifying a short circuit event based at least in part on the resistance change; wherein the characteristic of the current that is measured is a voltage drop across at least one of the one or more resistive elements; and wherein the resistance change represents a difference between a ratio of the voltage drop across the at least one of the one or more resistive elements to the applied voltage and a filtered value of the ratio of the voltage drop across the at least one of the one or more resistive elements to the applied voltage. 2. The method of claim 1 , wherein the applied voltage is generated by a traction motor of a vehicle during dynamic braking of the vehicle, the one or more resistive elements include one or more resistors of a dynamic braking grid, and the applied voltage is a voltage drop across the one or more resistive elements. 3. The method of claim 1 , wherein the short circuit event is identified responsive to the resistance change exceeding a designated, non-zero threshold. 4. The method of claim 1 , wherein the electrical system is a dynamic braking grid. 5. A method comprising: measuring a characteristic of a current that is supplied to an electrical system from a power source as an applied voltage and that is conducted through one or more resistive elements of the electrical system; determining a resistance change of the one or more resistive elements based at least in part on a difference between the characteristic of the current that is measured and a filtered value of one or more of the characteristic of the current that is measured or the applied voltage supplied by the power source; and identifying a short circuit event based at least in part on the resistance change; wherein the characteristic of the current that is measured is a voltage drop across at least one of the one or more resistive elements; and wherein the resistance change represents a difference between the voltage drop across the at least one of the one or more resistive elements and a product of the applied voltage and a filtered value of a ratio of the voltage drop across the at least one of the one or more resistive elements to the applied voltage. 6. The method of claim 5 , wherein the short circuit event is identified responsive to the resistance change exceeding a product of the applied voltage and a designated, non-zero threshold. 7. A method comprising: measuring a characteristic of a current that is supplied to an electrical system from a power source as an applied voltage and that is conducted through one or more resistive elements of the electrical system; determining a resistance change of the one or more resistive elements based at least in part on a difference between the characteristic of the current that is measured and a filtered value of one or more of the characteristic of the current that is measured or the applied voltage supplied by the power source; and identifying a short circuit event based at least in part on the resistance change; wherein the characteristic of the current that is measured is a voltage drop across at least one of the one or more resistive elements; and wherein the resistance change represents a difference between a first product of the voltage drop across the at least one of the one or more resistive elements and a first filtered value of the applied voltage and a second product of the applied voltage and a second filtered value of the voltage drop across the at least one of the one or more resistive elements. 8. The method of claim 7 , wherein the electrical system is a dynamic braking grid. 9. A method comprising: measuring a characteristic of a current that is supplied to an electrical system from a power source as an applied voltage and that is conducted through one or more resistive elements of the electrical system; determining a resistance change of the one or more resistive elements based at least in part on a difference between the characteristic of the current that is measured and a filtered value of one or more of the characteristic of the current that is measured or the applied voltage supplied by the power source; identifying a short circuit event based at least in part on the resistance change; monitoring one or more of a number of times that the short circuit event is identified, a total time period duration of the short circuit events, or a time integral of the resistance change; and generating a warning signal representative of damage to the electrical system responsive to one or more of the number of times that the short circuit event is identified exceeding a first designated, non-zero threshold, the total time duration exceeding a second designated, non-zero threshold, or the time integral exceeding a third designated, non-zero threshold. 10. The method of claim 9 , wherein the electrical system is a dynamic braking grid. 11. A system comprising: a sensing apparatus configured to measure a characteristic of a current supplied to an electrical system from a power source as an applied voltage and conducted through one or more resistive elements of the electrical system; and a processing assembly configured to determine a resistance change representative of a change in one or more electrical resistances of the one or more resistive elements, the resistance change based at least in part on a difference between the characteristic of the current that is measured and a filtered value of one or more of the characteristic of the current that is measured or the applied voltage supplied by the power source, wherein the processing assembly also is configured to identify a short circuit event based at least in part on the resistance change; wherein the sensing apparatus is configured to measure a voltage drop across at least one of the one or more resistive elements as the characteristic of the current; and wherein the sensing apparatus is configured to measure the resistance change as one or more of: a difference between a ratio of the voltage drop across the at least one of the one or more resistive elements to the applied voltage and a filtered value of the ratio of the voltage drop across the at least one of the one or more resistive elements to the applied voltage; a difference between the voltage drop across the at least one of the one or more resistive elements and a product of the applied voltage and a filtered value of a ratio of the voltage drop across the at least one of the one or more resistive elements to the applied voltage; or a difference between a first product of the voltage drop across the at least one of the one or more resistive elements and a filtered value of the applied voltage and a second product of the applied voltage and a low pass filtered value of the voltage drop across the at least one of the one or more resistive elements. 12. The system of claim 11 , wherein the applied voltage is generated by a traction motor of a vehicle during dynamic braking of the vehicle, the one or more resistive elements include one or more resistors of a dynamic braking grid, and the conducted voltage is a voltage drop across the one or more resi