Handling resonances in a power transmission system

The invention claimed is: 1. A method for handling resonances in a resonance handling device of a power transmission system, the method comprising: in the resonance handling device: obtaining system measurements from measurement devices in the power transmission system; applying the measurements in at least one state space model of the system; determining modal resonance frequencies in the system based on application of the system measurements in said state space model; determining modal activity of at least one of the resonance frequencies; and outputting a control signal for counteracting power oscillations to the power transmission system based on the determined modal activity of at least one of the resonance frequencies. 2. The method according to claim 1 , wherein determining the modal activity of a resonance frequency is based on a set of time values of a system model variable linked to a corresponding resonance frequency. 3. The method according to claim 1 , wherein there are first and second state space models, where the second state space model is a modally transformed variation of the first state space model, the determining of the modal activity comprising: estimating an initial state of the system in the first state space model; simulating a time series of the state in the first or the second state space model; and determining the modal activity through processing time variations of the state corresponding to the resonance frequency in the second state space model. 4. The method according to claim 3 , wherein the simulating is performed in the first state space model, the method comprising: transforming the simulated states to corresponding states in the second state space model. 5. The method according to claim 3 , comprising: transforming the initial state to an initial state in the second state space model; and performing the simulating in the second state space model. 6. The method according to claim 1 , wherein determining the modal activity comprises: processing measurement values through shifting a phase of a measurement value obtained at a point in time with a phase depending on a resonance frequency and time; and combining such phase shifted measurement values in the time interval and relating to different measurement locations to obtain a value of the activity. 7. The method according to claim 1 , comprising: ranking the resonance frequencies according to a ranking scheme. 8. The method according to claim 1 , wherein the measurements include frequency measurements, and the method comprises: determining at each sampling instant an average frequency of the measurements for different sources; obtaining oscillatory components for each source and sampling instant by subtracting the average frequency from the frequency measurement; and providing oscillatory components for determining resonance frequencies and modal activities. 9. The method according to claim 1 , wherein outputting a control signal comprises: using data of a determined modal resonance frequency and data about the modal activity of this resonance frequency to compute a correction signal or configuration parameters of a power oscillation damping device for affecting activity or damping in a determined modal resonance. 10. A resonance handling device for handling resonance modes in a power transmission system, the device comprising: a resonance frequency determining unit configured to obtain measurements from measurement devices of the power transmission system, to apply the measurements in at least one state space model, and to determine modal resonance frequencies (ω j ) of the system based on application of the measurements in said state space model; and an activity determining unit configured to determine a modal activity of at least one of the resonance frequencies. 11. The resonance handling device according to claim 10 , wherein the activity determining unit is configured to determine the modal activity based on a set of time values of a system model variable linked to a corresponding resonance frequency. 12. The resonance handling device according to claim 10 , comprising: first and second state space models, where the second state space model is a modally transformed variation of the first state space model; and the activity determining unit, when determining the modal activity, is configured to estimate an initial state of the system in the first state space model, simulate a time series of the state in the first or the second state space model, and determine modal activity through processing time variations of the state corresponding to a resonance frequency in the second state space model based on a set of time values of a system model parameter related to a corresponding resonance frequency. 13. The resonance handling device according to claim 12 , wherein the simulation is performed in the first state space model, and the activity determining unit is configured to transform simulated states to corresponding states in the second state space model. 14. The resonance handling device according to claim 12 , wherein the activity determining unit is configured to transform the initial state to an initial state in the second state space model, and to perform the simulation in the second state space model. 15. The resonance handling device according to claim 10 , wherein the activity determining unit is configured to determine modal activity based on processing of measurement values through shifting a phase of a measurement value obtained at a point in time with a phase depending on a resonance frequency and a time, and to combine such phase shifted measurement values in a time interval and to relate to different measurement locations to obtain a value of the activity. 16. The resonance handling device according to claim 10 , comprising: a ranking unit configured to rank resonance frequencies according to a ranking scheme. 17. The resonance handling device according to claim 10 , wherein the measurements include frequency measurements, the device comprising: a pre-processing unit configured to determine, at each sampling instant, an average frequency of measurements for different sources, and obtain oscillatory components for each source and sampling instant by subtracting the average frequency from the frequency measurement to provide oscillatory components for determining resonance frequencies and modal activities. 18. The resonance handling device according to claim 10 , comprising: a probing signal generating unit configured to inject a probing signal into a power transmission system to assist with detection of the resonances. 19. A computer program for handling resonance modes in a power transmission system, the computer program being loaded into an internal memory as computer program code to cause the computer, when said program is loaded in said internal memory and executed, to perform a method to: obtain system measurements from measurement devices in the power transmission system; apply the measurements in at least one state space model of the system; determine modal resonance frequencies in the system based on application of the system measurements in said state space model; and determine modal activity of at least one of the resonance frequencies. 20. The method according to claim 2 , wherein there are first and second state space models, where the second state space model is a modally transformed variation of the first state space model, the determining of the modal activity