Systems and methods for operating one or more electrically controllable privacy glazing structures

The invention claimed is: 1. A method for electrically controlling a privacy glazing structure comprising: applying an electrical drive signal to a privacy glazing structure by a driver, the electrical drive signal having a first drive parameter and the first drive parameter having a first value; applying an electrical sensing pulse to the privacy glazing structure by the driver and measuring an electrical response of the privacy glazing structure in response to the electrical sensing pulse; characterizing one or more parameters of the privacy glazing structure based on the measured response to the electrical sensing pulse, wherein characterizing the one or more parameters of the privacy structure based on the measured response to the sensing pulse comprises determining at least one of a resistance value associated with the privacy glazing structure, a capacitance value associated with the privacy glazing structure, an inductance value associated with the privacy glazing structure, an RC parameter associated with the privacy glazing structure, an RL parameter associated with the privacy glazing structure, and an RLC parameter associated with the privacy glazing structure; determining if the one or more parameters characterized in response to the electrical sensing pulse are different from a corresponding one or more parameters characterized at a previous time by more than a threshold amount; and if the one or more parameters characterized in response to the electrical sensing pulse are different from the corresponding one or more parameters characterized at the previous time by more than the threshold amount, adjusting the first drive parameter to a second value different value than the first value. 2. The method of claim 1 , wherein adjusting the first drive parameter comprises at least one of: referencing a database relating values of the one or more parameters characterized in response to the electrical sensing pulse to corresponding values for the first drive parameter; adjusting the first value of the first drive parameter by an amount based on a magnitude change between the one or more parameters characterized in response to the electrical sensing pulse and the corresponding one or more parameters characterized at the previous time; or adjusting the first value of the first drive parameter by an amount proportional to the change between the one or more parameters characterized in response to the electrical sensing pulse and the corresponding one or more parameters characterized at the previous time. 3. The method of claim 2 , further comprising: determining if the one or more parameters characterized in response to the electrical sensing pulse are representative of aging; and wherein if the one or more parameters are representative of aging, adjusting the first drive parameter to a second value different value than the first value comprises applying a predetermined adjustment corresponding to aging. 4. The method of claim 1 , wherein applying the electrical sensing pulse to the privacy glazing structure comprises applying the electrical sensing pulse to the privacy glazing structure when the privacy glazing structure is at a different temperature than the privacy glazing structure was at when the one or more parameters characterized at the previous time were generated. 5. The method of claim 1 , wherein: applying the electrical sensing pulse to the privacy glazing structure comprises applying a plurality of electrical sensing pulses to the privacy glazing structure over a period of time and measuring the electrical response of the privacy glazing structure in response to each of the electrical sensing pulses; and characterizing the one or more parameters of the privacy glazing structure based on the measured response to the electrical sensing pulse comprises characterizing the one or more parameters of the privacy glazing structure based on the measured response to each of the plurality of electrical sensing pulse; and further comprising: determining a trend of the one or more characterized parameters over time; and establishing a schedule for automatically changing the value of the first drive parameter over time based on the determined trend. 6. The method of claim 5 , further comprising: receiving temperature data from one or more temperature sensors; and wherein determining a trend of the one or more characterized parameters over time comprises determining a trend of the one or more characterized parameters with respect to temperature. 7. The method of claim 1 , wherein the electrical drive signal comprises a plurality of drive parameters, and further comprising, if the one or more parameters characterized in response to the electrical sensing pulse are different from the corresponding one or more parameters characterized at the previous time by more than the threshold amount, adjusting a value of a second of the plurality of drive parameters. 8. The method of claim 1 , wherein the first drive parameter comprises a voltage, a waveform shape, a waveform frequency, a maximum current, a duty cycle, an average current, an RMS current, or a slew rate. 9. The method of claim 1 , wherein the drive signal comprises a pulse-width modulated square wave, and wherein the first drive parameter comprises a rail voltage or a set voltage. 10. The method of claim 1 , wherein the privacy glazing structure comprises a pair of electrode layers bounding an electrically controllable optically active material, and applying the electrical drive signal to the privacy glazing structure comprises applying the electrical drive signal to the pair of electrode layers. 11. The method of claim 10 , wherein the electrically controllable optically active material is a liquid crystal material. 12. The method of claim 1 , wherein the measured response comprises a measure of a voltage across the privacy glazing structure over time and/or a current through the privacy glazing structure over time. 13. The method of claim 1 , wherein the measured response comprises an averaged and/or filtered measured response based on a plurality of measured responses captured at a plurality of times. 14. The method of claim 1 , wherein: characterizing one or more parameters of the privacy glazing structure comprises characterizing the one or more parameters by the driver; comparing the one or more parameters comprises comparing the one or more parameters by the driver; and determining if the one or more parameters characterized in response to the electrical sensing pulse are different from the corresponding one or more parameters characterized at the previous time by more than the threshold amount comprises determining by the driver if the one or more parameters characterized in response to the electrical sensing pulse are different from the corresponding one or more parameters characterized at the previous time by more than the threshold amount. 15. The method of claim 1 , wherein: characterizing one or more parameters of the privacy glazing structure comprises communicating the one or more parameters to a remote location and characterizing the one or more parameters at the remote location; comparing the one or more parameters comprises comparing the one or more parameters at the remote location; and determining if the one or more parameters characterized in response to the electrical sensing pulse are different from the corresponding one or more parameters characterized at the previous time by more than the threshold amount comprises determining, at the remote location, if the one or more parameters characterized in response to the electrical