Warning a wind turbine generator in a wind park of an extreme wind event

What is claimed is: 1. A method, comprising: measuring, using at least one sensor, a wind direction relative to a wind park including a plurality of wind turbines; adaptively selecting, using a relationship associating predetermined ones of the plurality of wind turbines with the measured wind direction, one or more of the plurality of wind turbines to serve as front line wind turbines, wherein the relationship is independent of at least one of a prediction or a detection of an extreme wind event; operating the front line wind turbines in a defensive mode as a precaution against an undetected extreme wind event while operating unselected ones of the plurality of wind turbines in a non-defensive mode, wherein operating the front line wind turbines in the defensive mode includes: selecting a wind turbine that is likely to be first among the wind turbines of the wind park to detect an extreme wind event based on the measured wind direction as a first one of the front line wind turbines to operate defensively; and for each of the front line wind turbines in the wind park other than the selected wind turbine, selecting the other ones of the front line wind turbines to operate in the defensive mode based at least partially on respective distances between the other ones of the front line wind turbines and the selected first one of the front line wind turbines; and upon detecting the extreme wind event, changing the operation of the unselected ones of the plurality of wind turbines. 2. The method according to claim 1 , further comprising: at at least one of the front line wind turbines, detecting the extreme wind event and generating an extreme wind event warning. 3. The method according to claim 2 , further comprising: propagating the extreme wind event warning through the wind park from the at least one of the front line wind turbines that generates the extreme wind event warning to the unselected ones of the plurality of wind turbines in the wind park. 4. The method according to claim 2 , further comprising: receiving the extreme wind event warning at at least one of the wind turbines in the wind park that is not among the front line wind turbines; and determining at each of the warned wind turbines whether to operate the warned wind turbine in a defensive mode in response to receiving the extreme wind event warning. 5. The method according to claim 2 , further comprising: receiving the extreme wind event warning at a central wind park controller; selecting at the central wind park controller which of the wind turbines in the wind park are vulnerable to damage due to the extreme wind event; and sending the extreme wind event warning to the vulnerable ones of the wind turbines. 6. The method according to claim 1 , wherein the extreme wind event is: a wind gust, an extreme drop in wind velocity, an extreme directional change in wind, an extreme change in wind shear, extreme wind turbulence, or any combination thereof. 7. The method according to claim 1 , wherein each of the front line wind turbines is configured to adaptively select itself as one of the front line wind turbines and to operate in the defensive mode. 8. The method according to claim 1 , wherein the wind park includes a central controller configured to adaptively select the one or more front line wind turbines to operate in the defensive mode. 9. The method according to claim 1 , wherein the front line wind turbines are selected from among a group of wind turbines located within an outer annular region of the wind park. 10. The method according to claim 1 , further comprising: overrating performance of at least one of the wind turbines in the wind park that is not among the front line wind turbines. 11. The method according to claim 1 , wherein operating the front line wind turbines in the defensive mode includes at least one of: reducing a rotational speed reference for a rotor speed control algorithm; increasing a minimum pitch angle for a blade pitch control algorithm; and decreasing a power reference for a power level control algorithm relative to the non-defensive mode. 12. A wind park, comprising: an arrangement of wind turbines, the arrangement including: one or more first wind turbines of a first type located in an inner region of the wind park; and a plurality of second wind turbines of a second type located in an outer region of the wind park that at least partially surrounds the inner region, wherein the first type differs from the second type in at least one of the following ways: higher power rating, larger rotor diameter, lower rotor bearing strength, and lower blade strength, wherein various ones of the plurality of second wind turbines in the outer region are configured to be adaptively selected, using a relationship associating predetermined ones of the plurality of wind turbines with a measured wind direction, to operate in a defensive mode as a precaution against an undetected extreme wind event while the one or more first wind turbines are operated in a non-defensive-mode, wherein the relationship is independent of at least one of a prediction or a detection of an extreme wind event, wherein operating the front line wind turbines in the defensive mode includes: selecting a wind turbine that is likely to be first among the wind turbines of the wind park to detect an extreme wind event based on the measured wind direction as a first one of the front line wind turbines to operate defensively; and for each of the front line wind turbines in the wind park other than the selected wind turbine, selecting the other ones of the front line wind turbines to operate in the defensive mode based at least partially on respective distances between the other ones of the front line wind turbines and the selected first one of the front line wind turbines, and wherein upon detecting the extreme wind event, changing the operation of the unselected ones of the one or more first wind turbines. 13. The wind park of claim 12 , wherein operating the front line wind turbines in the defensive mode includes at least one of: reducing a rotational speed reference for a rotor speed control algorithm; increasing a minimum pitch angle for a blade pitch control algorithm; and decreasing a power reference for a power level control algorithm relative to the non-defensive mode. 14. The wind park according to claim 12 , wherein each of the plurality of wind turbines of the second type is configured to: detect an extreme wind event. 15. The wind park according to claim 14 , wherein at least one of the one or more wind turbines of the first type is configured to receive a warning of the detected extreme wind event and to operate in the defensive mode in response to the warning. 16. The wind park according to claim 14 , further comprising: a central controller configured to send the warning of the detected extreme wind event to the at least one of the one or more wind turbines of the first type. 17. The wind park according to claim 14 , wherein each of the plurality of wind turbines of the second type is configured to begin operating in the defensive mode when disposed in a position furthest upstream relative to the measured wind direction or disposed within a threshold distance from the position. 18. A first wind turbine configured for placement in an outer region of a wind park including a plurality of wind turbines, the first wind turbine comprising: a climate condition sensor system configured to measure at least a wind direction of wind ambient to the first wind turbine; and