System and method for stabilizing a wind turbine

The invention claimed is: 1. A wind turbine system comprising: a wind turbine generator comprising a tower structure mounted on a foundation structure, the tower structure including a plurality of tower sections, each of the plurality of tower sections including one or more tower section flanges having a plurality of fastener openings; one or more connector rings, each of the one or more connector rings including a singular radially extending portion about a circumference, the singular radially extending portion disposed between two adjacent tower section flanges and in contact with each of the two adjacent tower section flanges, each of the one or more connector rings including a plurality of openings through which a fastener is disposed coupling the singular radially extending portion of each of the one or more connector rings to the two adjacent tower section flanges the plurality of openings of the tower section flanges and the connector rings forming continuous openings and a plurality of pad eye adaptors having an opening formed therein, wherein each of the one or more connector rings comprises one of a non-segmented connector ring or a segmented connector ring; and a plurality of tensioned cables each coupled to one of the pad eye adaptors at a first end and the foundation structure at a second end, wherein the fastener serves as a load transfer mechanism. 2. The wind turbine system of claim 1 , further comprising at least one knee member, wherein the plurality of tensioned cables are coupled to the one or more connector rings at a connection point above the at least one knee member. 3. The wind turbine system of claim 2 , comprising a single knee member disposed proximate one of a tip of the tower structure or proximate a midpoint of the tower structure. 4. The wind turbine system of claim 2 , comprising a first knee member disposed proximate a tip of the tower structure and a second knee member disposed proximate a midpoint of the tower structure, wherein the plurality of tensioned cables are coupled to the connector ring at a connection point above the first knee member. 5. The wind turbine system of claim 2 , wherein the plurality of tensioned cables are configured in a crossed-cable configuration. 6. The wind turbine system of claim 1 , wherein each of the plurality of tensioned cables are coupled to one of the pad eye adaptors, interior of the tower structure and in a crossed-cable configuration. 7. The wind turbine system of claim 1 , wherein the one or more connector rings is disposed between two adjacent tower structure flanges. 8. The wind turbine system of claim 1 , wherein each of the pad eye adaptors is configured in a downwardly angled position. 9. The wind turbine system of claim 1 , wherein each of the pad eye adaptors is configured in one of a tear drop configuration, a straight configuration, a donut configuration and a mushroom configuration. 10. The wind turbine system of claim 1 , wherein each of the plurality of pad eye adaptors is configured as a separate component that is coupled to the connector ring. 11. The wind turbine system of claim 1 , wherein the one or more connector rings comprises a plurality of ring segments, and wherein each of the at least three pad eye adapters is disposed between adjacent ring segments of the plurality of ring segments. 12. The wind turbine system of claim 11 , wherein each of the plurality of pad eye adapters comprises a back-side extension for load transfer. 13. The wind turbine system of claim 1 , wherein the opening in each of the pad eye adaptors is configured as one of a horizontal opening or a vertical opening. 14. A wind turbine system comprising: a wind turbine generator comprising a tower structure mounted on a foundation structure, the tower structure including a plurality of tower sections, each including one or more tower section flanges; one or more connector rings, each of the one or more connector rings disposed proximate two adjacent tower section flanges one, each of the one or more connector rings including a plurality of pad eye adaptors having an opening formed therein, wherein each of the one or more connector rings comprises one of a non-segmented connector ring and a segmented connector ring; a plurality of tensioned cables each coupled to one of the plurality of pad eye adaptors at a first end and to the foundation structure at a second end; and at least one knee member, wherein the plurality of tensioned cables are coupled to the at least one knee member and to one of the plurality of pad eye adaptors at a connection point above the at least one knee member. 15. The wind turbine system of claim 14 , wherein the one or more connector rings are disposed one of between two adjacent tower structure flanges or about an exterior surface of the tower structure. 16. The wind turbine system of claim 14 , comprising a single knee member disposed proximate one of a tip of the tower structure and a midpoint of the tower structure. 17. The wind turbine system of claim 14 , comprising a first knee member disposed proximate a tip of the tower structure and a second knee member disposed proximate a midpoint of the tower structure, wherein the plurality of tensioned cables are coupled to the one or more connector rings at a connection point above the first knee member. 18. The wind turbine system of claim 14 , wherein the plurality of tensioned cables are configured in a crossed-cable configuration. 19. The wind turbine system of claim 14 , wherein each of the plurality of tensioned cables are coupled to one of the pad eye adaptors, interior of the tower structure and in a crossed-cable configuration. 20. The wind turbine system of claim 14 , wherein each of the pad eye adaptors is configured in one of a tear drop configuration, a straight configuration, a donut configuration and a mushroom configuration. 21. The wind turbine system of claim 14 , wherein each of the plurality of pad eye adapters comprises a back-side extension for load transfer. 22. A method of stabilizing a wind turbine system, comprising: mounting a tower structure on a foundation structure, the tower structure including a plurality of tower sections, each of the plurality of tower sections including one or more tower section flanges having a plurality of fastener openings; securing a plurality of tensioned cables to one or more connector rings including a singular radially extending portion about a circumference, the singular radially extending portion disposed between two adjacent tower section flanges and in contact with each of the two adjacent tower section flanges, each of the one or more connector rings including a plurality of openings through which a fastener is disposed coupling each of the one or more connector rings to the two adjacent tower section flanges the plurality of openings of the tower section flanges and the connector rings forming continuous openings and a plurality of pad eye adaptors having an opening formed therein, wherein each of the one or more connector rings comprises one of a non-segmented connector ring or a segmented connector ring, and wherein the fastener serves as a load transfer mechanism; securing the plurality of tensioned cables to the foundation structure; and mounting a wind turbine generator upon the tower structure. 23. The method of claim 22 , further comprising securing the plurality of tensioned cables at different or multiple connector ring heights to yield a desired