Services

Service 1

Aircraft Configuration Design

Aircraft Configuration Design is the process of developing an aircraft's physical layout and features to meet the requirements. This includes determining the size, shape, and placement of the wings, fuselage, engines, landing gear, and other major components. The configuration design process requires careful consideration of many factors, such as aircraft operations, performance, safety, and regulations. CAD, analysis, and simulation tools are used to model and optimize the configuration.

Service 2

Structural Design

Aircraft structural design is a critical aspect of aircraft development. Our structural analysis and optimization expertise allows us to create highly efficient designs that meet the required weight goals. We use advanced composite materials and cutting-edge design tools to develop lightweight yet robust structures. We work closely with our clients throughout the design process, providing regular updates and collaborating to ensure that the final design meets their needs.

Service 3

Aircraft performance analysis is an essential aspect of aircraft development that involves assessing an aircraft's ability to meet performance requirements. This process includes evaluating the aircraft's speed, range, fuel efficiency, climb and descent rates, and other critical performance metrics. We use computer simulation tools to model and optimize the aircraft's performance, helping to identify areas where improvements can be made. Results from this analysis are used to create performance charts and graphs that provide valuable insights into the aircraft's capabilities and limitations. A thorough understanding of an aircraft's performance is essential for ensuring its safety and reliability throughout the mission.

Performance Analysis

Service 4

Stability and control are essential considerations in the aircraft design process. Stability refers to the aircraft's ability to maintain a steady flight path, while control refers to the ability of the pilot/autopilot to control the aircraft's movements. Achieving both stability and control requires careful consideration of various design factors, such as wing and tail size and shape, as well as the placement of control surfaces. The design must be optimized to ensure that the aircraft remains stable and controllable under a variety of flight conditions, including takeoff, landing, and turbulence. Failure to achieve proper stability and control can lead to loss of control of the aircraft and potentially catastrophic consequences. Therefore, stability and control are essential considerations in the aircraft design process and must be carefully evaluated to ensure the safety and performance of the aircraft.

Stability & Control Analysis

Service 5

Aircraft design involves multiple disciplines that impact the design in different ways. Optimizing one aspect without considering the others can lead to suboptimal performance. Therefore, when creating an optimized aircraft design, we consider all aspects, including aerodynamics, structures, propulsion, systems, and manufacturing. Our design engineers work with clients the developed mathematical model of all critical systems and model their interaction with respect to the vehicle design.

Multidisciplinary Optimization

Service 6

We provide customized automation and analysis software tailored to your unique organization and aircraft design needs. Our design engineers work closely with clients to understand what design software is needed to improve the efficiency of the design process. We use the latest technologies and development methodologies to deliver reliable, high-quality software solutions. With our software development services, we streamline the design process and increase efficiency.