Flight condition evaluation and protection for unmanned aerial vehicles and remotely-piloted vehicles

The invention claimed is: 1. A method, comprising: ingesting, as input data, weather information, mission-specific flight parameters for performance of a particular mission by an unmanned aircraft, and one or more operational rules for operation of a specific unmanned aircraft in the performance of the particular mission, the weather information including at least one of current weather data, historical weather data, and forecasted weather data for a specific geographic area for a time period coinciding with the performance of the particular mission, the mission-specific flight parameters defining the particular mission at a specific time and including one or more of a payload, a flight plan, a craft type, and a geographical location of the mission; analyzing the input data in a plurality of data processing modules within a computing environment in which the plurality of data processing modules are executed in conjunction with at least one processor, the data processing modules configured to confirm a validity of a flight certificate of mission authorization for the particular mission, and perform a risk assessment for the particular mission relative to the weather information and the mission-specific flight parameters by 1) computing one or more mission risk probabilities of an occurrence of both aircraft-based performance incidents and operator-based performance incidents during particular weather conditions in a weather-based statistical analysis, 2) continually learning a significance of a plurality of variables affecting one or more previous missions that include weather variables, operator experience, aircraft parameters, and payload parameters, and impacting the performance of the particular mission, and assigning weights to each variable in the plurality of variables based on the learned significance and on the particular weather conditions in the weather-based statistical analysis for the performance of the particular mission to determine one or more outcomes for the one or more mission risk possibilities, and 3) comparing the one or more outcomes of the one or more mission risk probabilities from the weather-based statistical analysis with the operational rules, information from a collection of the previous missions by the specific unmanned aircraft, and actuarial data related to one or both of the specific unmanned aircraft and an operator of the specific unmanned aircraft, to evaluate a flight condition of the unmanned aircraft for the performance of the mission to determine a proceed status, a do not proceed status, or a recovery status for the operation of the specific unmanned aircraft based on the particular weather conditions analyzed; and generating, as output data, mission compliance status confirming or denying compliance with the one or more operational rules for the operation of the specific unmanned aircraft, and at least one operational instruction for the specific unmanned aircraft. 2. The method of claim 1 , wherein the forecasted weather data includes weather forecasts for time periods coinciding with the performance of the particular mission. 3. The method of claim 1 , wherein the operational instruction is at least one of a fly instruction, a takeoff prevention instruction, a payload instruction, and a recovery interference prevention instruction. 4. The method of claim 1 , wherein the flight condition is at least one of a pre-flight condition, an in-flight condition, and a post-flight condition. 5. The method of claim 1 , further comprising adjusting a flight plan by modifying one or more of the mission-specific flight parameters. 6. The method of claim 1 , wherein one or more of the data processing modules are performed by a device embedded on board the specific unmanned aircraft. 7. The method of claim 1 , further comprising delivering a signed authorization certificate to conduct the particular mission. 8. The method of claim 1 , further comprising generating one or more management advisory services from the flight condition evaluation, the one or more advisory services including a plurality of alerts that include at least one of an agricultural operations advisory and a regulatory advisory. 9. A flight advisory system for unmanned aircraft, comprising: a data ingest and initialization component configured to retrieve, store, and arrange weather information comprised of at least one of current weather data, historical weather data, and forecasted weather data for a specific geographic area for a time period coinciding with performance of a particular mission, mission-specific flight parameters defining performance of the particular mission by a specific unmanned aircraft at a specific time and including one or more of a payload, a flight plan, a craft type, and a geographical location of a mission, and one or more operational rules governing operation of the specific unmanned aircraft in the performance of the particular mission; a mission analytics component configured to perform a risk assessment for the mission relative to the weather information and the mission-specific flight parameters by 1) computing one or more mission risk probabilities of an occurrence of both aircraft-based performance incidents and operator-based performance incidents during particular weather conditions in a weather-based statistical analysis, 2) continually learning a significance of a plurality of variables affecting one or more previous missions that include weather variables, operator experience, aircraft parameters, and payload parameters, and impacting the performance of the particular mission, and assigning weights to each variable in the plurality of variables based on the learned significance and on the particular weather conditions in the weather-based statistical analysis for the performance of the particular mission to determine one or more outcomes for the one or more mission risk possibilities, and 3) comparing the one or more outcomes of the one or more mission risk probabilities from the weather-based statistical analysis with the operational rules, information from a collection of the previous missions by the specific unmanned aircraft, and actuarial data related to one or both of the specific unmanned aircraft and an operator of the specific unmanned aircraft, to evaluate a flight condition of the specific unmanned aircraft for the performance of the particular mission to determine a proceed status, a do not proceed status, or a recovery status for the operation of the specific unmanned aircraft based on the particular weather conditions analyzed; and one or more components configured to generate output data as a flight advisory from the flight condition evaluation that includes a mission compliance status confirming or denying compliance with the one or more operational rules for the operation of the specific unmanned aircraft and an operational instruction for the specific unmanned aircraft. 10. The system of claim 9 , wherein the operational instruction is at least one of a fly instruction, a takeoff prevention instruction, a payload instruction, and a recovery interference prevention instruction. 11. The system of claim 9 , wherein the data ingest and initialization component, the mission analytics components, and the one or more components configured to generate output data are performed by a device embedded on the specific unmanned aircraft. 12. The system of claim 9 , further comprising a flight control component configured to restrict ground control of the specific unmanned aircraft in response to an operational instruction. 13. The system of claim 9 , further comprising a flight control component configured to prevent an operator from p