By Dora Reed


An otherwise perfect departure can be affected by extreme altitudes, weather issues, and other obstacles; requiring some alternative planning. You can analyze both the aircraft's abilities and runways situation using runway analysis in these cases. It will provide the limiting weight the aircraft needs by utilizing the AFM performance and obstacle database elements of this method.

Flight services have introduced web-based analysis services for this exact reason. It provides critical airport, runways, and aircraft performance information for safe takeoff and landing of all airplanes. This service helps all kinds of commercial, military, and corporate airline operators reduce their labor costs. It also allows access to vital flight information in a digital format for all aircrafts worldwide.

This analysis services allows operators to understand the individual runway and performance calculations that aircrafts need. This has been created from all the airport, runways, and obstacle databases; and all the performance data from specific aircraft makers. These data calculations provides vital information to the airline operators in case of engine-out procedural problems such as engine loss.

Flight services has been using this service to provide airline operators data about runways, airport, and aircraft performance situations. The system is web-based, and can quickly send critical data to any operator in need. In addition to this capability, the service also helps development of certain airline procedures. This includes information on all takeoff and landing performances.

This service can calculate any specific aircraft performance through its web-based technology. It will produce information on the wind and temperature calculations and runway conditions of any place in the world. Operators can use this information to assess situations, and also calculate the conditions of many different areas at the same time.

A detailed report of any obstacles on the runways will also be included, and provides departure procedures for any aircrafts involved. The pilots can use this information to climb to a specific altitude in case of engine loss. The calculations also allow operators to be informed of the specific maximum weight required for takeoff in any departure.

This airport data can be utilized on board with performance tools and electronic flight bag systems, also known as EFB systems. Various aircraft systems can utilize this data; including PACE, Teledyne, and all the standard XML formats. The AIRAC revision cycle is used to update this system every 28 days, or monthly.

The SCAP industry standards, or Standard Computerized Airplane Performance standards, need to be adhered to by all aircraft performance data. The analysis system can also provide the takeoff and landing data of various runways. Additionally, there is information of over three thousand worldwide airports and three hundred aircraft engine data for the specific engine-out departure procedures.

Future improvements and additions need to be developed for these systems. This includes integrating the flight planning and weights, and also the balance systems. Customers who operate military aircraft cannot also access this analysis system unless they have an export license. If you'd like to know more about this system, or have any inquiries about the requirements of accessing it, contact the analysis service providers.




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