Visual classification of events

What is claimed is: 1. A system for monitoring a power system comprising: one or more component monitors in communication with components of the power system and configured to measure electrical or performance characteristics of the power system components or the power system; a central processing unit in communication with the component monitors and configured to: receive, from at least one of the one or more component monitors, a first set of readings for at least one of the power system components; provide the first set of readings to be displayed in a graphical format on a user interface; receive, from the user interface, a user selection of a portion of the first set of readings, and at least one user classification of the portion of the first set of readings; determine at least one characteristic of the portion of the first set of readings based on the at least one user classification; detect the at least one characteristic in a second set of readings based on a correlation between the first set of readings and the second set of readings, independent of a time period of the first set of readings and the second set of readings; automatically apply the at least one user classification to the second set of readings in response to the at least one characteristic being detected in the second set of readings based on the correlation between the first set of readings and the second set of readings; and a controller in communication with the central processing unit and the power system components, the controller configured to control or perform an operation on one or more aspects of the power system in response to the at least one user classification being applied to the second set of readings. 2. The system of claim 1 , wherein the central processing unit is further configured to: receive, from the user interface, a user selection of a notification profile; and generate, responsive to detecting the at least one characteristic in the second set of readings, a notification based on the notification profile. 3. The system of claim 1 , wherein the central processing unit is further configured to determine a trend in the portion of the first set of readings and to detect the trend in the second set of readings, wherein the trend in the second set of readings occurs over a different length of time than the portion of the first set of readings. 4. A method for monitoring a power system, comprising: receiving, from at least one component monitor in communication with components of the power system, a first set of readings for at least one of the power system components at an input of a central processing unit; providing the first set of readings to be displayed in a graphical format on a user interface; receiving, from the user interface, a user selection of a portion of the first set of readings, and at least one user classification of the portion of the first set of readings; determining at least one characteristic of the portion of the first set of readings based on the at least one user classification; detecting the at least one characteristic in a second set of readings based on a correlation between the first set of readings and the second set of readings, independent of a time period of the first set of readings and the second set of readings; automatically applying the at least one user classification to the second set of readings in response to the at least one characteristic being detected in the second set of readings based on the correlation between the first set of readings and the second set of readings; and controlling or performing, using a controller in communication with the central processing unit and the power system components, an operation on one or more aspects of the power system in response to the at least one user classification being applied to the second set of readings. 5. The method of claim 4 , further comprising the act of determining a confidence level for the application of the user classification to the second set of readings. 6. The method of claim 4 , wherein determining at least one characteristic of the portion of the first set of readings comprises determining a trend in the portion of the first set of readings, and wherein detecting the at least one characteristic in the second set of readings comprises detecting the trend in the second set of readings, wherein the trend in the second set of readings occurs over a different length of time than the portion of the first set of readings. 7. The method of claim 4 , wherein the act of receiving, from the user interface, at least one user classification of the portion of the first set of readings comprises receiving, from a user, a user selection of a first tag to be applied to the portion of the first set of readings. 8. The method of claim 7 , further comprising providing, in the user interface, the option to select the first tag to be applied to the portion of the first set of readings. 9. The method of claim 7 , wherein the first tag corresponds to an event affecting the at least one power system component. 10. The method of claim 7 , wherein the act of receiving, from the user interface, at least one user classification of the portion of the first set of readings further comprises receiving, from a second user, a second user selection of a second tag to be applied to the portion of the first set of readings. 11. The method of claim 10 , further comprising acts of: determining that the first tag differs from the second tag; ascertaining which proposed tag of the first tag and the second tag has been selected by a greater number of users to be applied to the portion of the first set of readings; and applying the proposed tag to the portion of the first set of readings. 12. The method of claim 10 , further comprising acts of: determining that the first tag differs from the second tag; calculating tag statistics comprising a number of users that have applied the first tag to the portion of the first set of readings and a number of users that have applied the second tag to the portion of the first set of readings; and displaying the first tag, the second tag, and the tag statistics to a user of the user interface. 13. The method of claim 7 , wherein the first tag indicates whether the portion of the first set of readings corresponds to a normal function of the at least one power system component. 14. The system of claim 1 , wherein the power system components include at least one of a generator, a transformer, a power conditioner, an inverter, a bus, a rectifier and a transmission line. 15. The system of claim 1 , wherein the electrical or performance characteristics measured by the component monitors include at least one of voltage, current, resistance, power load and impedance. 16. The system of claim 1 , wherein the at least one of the one or more component monitors from which the first set of readings is received includes two component monitors working in tandem, wherein one of the two component monitors is connected to a circuit inline before the component, and the other one of the two component monitors is connected to the circuit inline after the component, wherein data from the two component monitors is combined to provide the first set of readings. 17. The system of claim 1 , wherein the at least one user classification corresponds to an identified power event in the power system. 18. The system of claim 17 , wherein the identified power event includes at least one of a voltage spike and events resulting from undesirable harmonic content.