Contemporary commercial aircraft conceptual design systems make extensive use of handbook methods based on semi-empirical theory and data. More sophisticated and powerful in-house developed industrial software systems usually alter the widely recognised handbook methods by way of recalibrating the said algorithms with data gleaned from experience and previous design projects. A growing consensus of opinion, however, finds even such recalibrated handbook methods are not reliable enough for treating novel and unconventional designs, and thus, there is a trend towards replacing the methods with computational procedures that calculate the required information from first principles. In order to address this need, the Computerised Environment for Aircraft Synthesis and Integrated Optimisation Methods (CEASIOM) simulation system has been developed. The overiding vision of CEASIOM is procurement of an integrated design and decision making environment where for a given aircraft morphology and local topologies, all necessary predictive computations can take place at some user nominated fidelity during the early conceptual design phase.

Present trends in aircraft design tend towards augmented-stability and expanded flight envelopes call for a more accurate description of the flight-dynamic behaviour of the aircraft in order to properly design the flight control system (FCS), hence the need to increase the knowledge about stability and control (S&C) as early as possible in the aircraft development process in order to be First-time-right with the FCS design architecture.

Up to 80 percent of the lifecycle cost of an aircraft is a direct result of decisions made in the conceptual design phase, and so mistakes must be avoided. A framework that supports state-of-the-art computer-aided concept designs suitable for procuring economically amenable and ecologically friendly designs is seen to be the priority. One aspect that would serve to deliver such important goals is the (architectural) discipline and (technical) subspace of S&C and thus subsequently emphasized into CEASIOM. To this end, it is essential to integrate appropriate software tools when it concerns the instruction of aircraft design and systems integration.