Safety system for a wind turbine

We claim: 1. A system for controlling a wind turbine, the system comprising: a computing system communicatively coupled to the wind turbine, the computing system comprising at least a first processor that is configured to: obtain sensor data comprising measured values of a plurality of parameters associated with the wind turbine, determine, based on the obtained sensor data, a state of the wind turbine within a multi-dimensional space, where each axis in the multi-dimensional space corresponds to a respective one of the plurality of parameters, and communicate, based at least on the sensor data, a control signal to at least a first component of the wind turbine; and a safety system comprising at least a second processor that is configured to: verify that the state identified by the computing system satisfies a threshold of accuracy, upon verifying the state, determine whether the state is within a predefined operational envelope to determine safe operation of the wind turbine, the operational envelope encapsulating a region of the multi-dimensional space, and when the state is outside the predefined operational envelope, communicate a control signal to at least a second component of the wind turbine. 2. The system of claim 1 , wherein the first processor comprises a processor uncertified for use in the safety system, and wherein the second processor comprises a safety processor certified for use in the safety system. 3. The system of claim 1 , wherein, upon determining that the state is outside the operational envelope, the safety system is configured to switch a mode of operation of the wind turbine to a safe state that shuts down the wind turbine. 4. The system of claim 1 , wherein, upon determining that the state is not within the threshold of accuracy, the safety state is configured to switch a mode of operation of the wind turbine to a safe state that shuts down the wind turbine. 5. The system of claim 1 , wherein the plurality of parameters are physical or electrical properties of respective components in the wind turbine. 6. The system of claim 1 , wherein the operational envelope defines the region in the multi-dimensional space where the wind turbine is deemed to be behaving properly. 7. The system of claim 1 , wherein the computing system uses a search algorithm for determining the state of the wind turbine within the multi-dimensional space and the safety system is configured to verify a solution provided by the search algorithm. 8. A method for controlling a wind turbine, the method comprising: obtaining sensor data comprising measured values of a plurality of parameters associated with the wind turbine; determining, based on the obtained sensor data, a state of the wind turbine within a multi-dimensional space using a computing system comprising at least a first processor that is configured to communicate control signals to one or more components in the wind turbine, wherein each axis in the multi-dimensional space corresponds to a respective one of the plurality of parameters; verifying that the state identified by the computing system satisfies a threshold of accuracy using a safety system comprising at least a second processor; and upon verifying the state, determining whether the state is within a predefined operational envelope to determine safe operation of the wind turbine, the operational envelope encapsulating a region of the multi-dimensional space. 9. The method of claim 8 , wherein the first processor is uncertified for use in the safety system, and wherein the second processor comprises a safety processor certified for use in the safety system. 10. The method of claim 8 , further comprising, upon determining the state is outside the operational envelope, switching a mode of operation of the wind turbine to a safe state that shuts down the wind turbine. 11. The method of claim 8 , further comprising, upon determining the state does not satisfy the threshold of accuracy, switching a mode of operation of the wind turbine to a safe state that shuts down the wind turbine. 12. The method of claim 8 , wherein the plurality of parameters are physical or electrical properties associated with respective components in the wind turbine. 13. The method of claim 8 , wherein the operational envelope defines the region in the multi-dimensional space where the wind turbine is deemed to be behaving properly. 14. The method of claim 8 , wherein the computing system uses a search algorithm for determining the state of the wind turbine within the multi-dimensional space and the safety system is configured to verify a solution provided by the search algorithm. 15. A wind turbine, comprising: a first component; a second component; a computing system for controlling one or more components in the wind turbine, wherein the computing system comprises at least a first processor that is configured to: obtain sensor data comprising measured values of a plurality of parameters associated with the wind turbine, determine, based on the obtained sensor data, a state of the wind turbine within a multi-dimensional space, where each axis in the multi-dimensional space corresponds to a respective one of the plurality of parameters, and communicate, based at least on the sensor data, a control signal to the first component; and a safety system comprising at least a second processor that is configured to: verify that the state identified by the computing system satisfies a threshold of accuracy, upon verifying the state, determine whether the state is within a predefined operational envelope to determine safe operation of the wind turbine, the operational envelope encapsulating a region of the multi-dimensional space, and when the state is outside the predefined operational envelope, communicate a control signal to the second component. 16. The wind turbine of claim 15 , wherein the first processor comprises a control processor uncertified for use in the safety system, wherein the second processor comprises a safety processor certified for use in the safety system. 17. The wind turbine of claim 15 , wherein, upon determining that the state is outside the operational envelope, the safety system is configured to switch a mode of operation of the wind turbine to a safe state that shuts down the wind turbine. 18. The wind turbine of claim 15 , wherein, upon determining that the state is not within the threshold of accuracy, the safety state is configured to switch a mode of operation of the wind turbine to a safe state that shuts down the wind turbine. 19. The wind turbine of claim 15 , wherein the plurality of parameters are physical or electrical properties associated with respective components in the wind turbine. 20. The wind turbine of claim 15 , wherein the operational envelope defines the region in the multi-dimensional space where the wind turbine is deemed to be behaving properly.