Grappler overload protection

Having thus described various embodiments, what is claimed as new and desired to be protected by Letters Patent includes the following: 1. A grappler overload protection system comprising: a grappler having at least two arms for gripping a load; a first sensor for providing a first load indication based on a position of the at least two arms while gripping the load; and a controller configured to determine whether the first load indication exceeds a first limit for preventing the grappler from bearing an unsafe load. 2. The grappler overload protection system of claim 1 , wherein the controller determines a weight of the load based on the first load indication. 3. The grappler overload protection system of claim 1 , wherein the first load indication comprises a width of a portion of the load, such that the controller determines the weight of the load based on the width of the load. 4. The grappler overload protection system of claim 3 , wherein the first sensor comprises a rotary position sensor configured to measure a rotational position of at least one of the grappler arms about its rotational axis, such that the controller determines the width of a portion of the load based on the rotational position of the at least one grappler arm while gripping the portion of the load. 5. The grappler overload protection system of claim 1 , further comprising a second sensor for providing a second load indication, wherein the second load indication is indicative of a position of the grappler. 6. The grappler overload protection system of claim 5 , further comprising: a second limit, wherein the controller is configured to determine whether the second load indication exceeds the second limit for preventing the grappler from bearing an unsafe load. 7. The grappler overload protection system of claim 5 , wherein the second load indication comprises: an angle of a boom, wherein the boom is mechanically coupled to the grappler for rotating, pivoting, and extending the grappler; and a length of the boom, wherein the controller determines a torque on the boom based on the angle of the boom and the length of the boom in combination with the weight of the load. 8. The grappler overload protection system of claim 1 , further comprising an alerting mechanism configured to alert an operator when the controller determines that at least one of the first load indication exceeds the first limit and the second load indication exceeds the second limit. 9. A grappler overload protection method comprising the following steps: determining a spread of the grappler arms based on information from a first sensor; estimating an expected weight of the load based on the spread of the grappler arms; and comparing the expected weight to a first limit to prevent the grappler from bearing an unsafe load. 10. The grappler overload protection method of claim 9 , further comprising taking preventative measures to prevent a grappler overload when the expected weight exceeds the first limit. 11. The grappler overload protection method of claim 10 , further comprising disabling the grappler arms from gripping the load when the expected weight exceeds the first limit. 12. The grappler overload protection method of claim 9 , further comprising the following steps: determining an angle of a boom that supports the grappler; and estimating an expected torque on the boom based on the boom angle and the expected weight of the load. 13. The grappler overload protection method of claim 12 , further comprising taking preventative measures to prevent a grappler overload when the expected torque exceeds a second limit. 14. The grappler overload protection method of claim 13 , further comprising disabling the grappler arms from gripping the load when the expected torque exceeds the second limit. 15. The grappler overload protection method of claim 13 , further comprising gripping the load with the grappler and lowering the load via a boom mechanically coupled to the grappler when the expected weight does not exceed the first limit and the expected torque does not exceed the second limit. 16. A non-transitory computer readable medium having a computer program stored thereon for providing grappler overload protection, wherein the computer program is configured to instruct a processing element to perform the following steps: determining a spread of grappler arms placed about a load, wherein the spread is based on information from a first sensor; estimating an expected weight of the load based on the spread of grappler arms placed about the load; and comparing the expected weight to a first limit for preventing the grappler from bearing an unsafe load. 17. The non-transitory computer readable medium of claim 16 , further comprising disabling the grappler arms from gripping the load when the expected weight exceeds the first limit. 18. The non-transitory computer readable medium of claim 17 , further comprising the following steps: determining an angle of a boom mechanically coupled to the grappler; and determining an expected torque on the boom based on the boom angle and the expected weight of the load. 19. The non-transitory computer readable medium of claim 18 , further comprising disabling the grappler arms from gripping the load when the expected torque exceeds a second limit. 20. The non-transitory computer readable medium of claim 18 , further comprising gripping the load with the grappler and lowering the load via the boom when the expected weight does not exceed the first limit and the expected torque does not exceed the second limit.