eFLYsim
eFLYsim is a Real-Time Simulator and Open- and Closed-Loop Test Bench especially designed to meet the needs of design engineers across the aerospace industry. |
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- Open- & Closed-Loop Controller Test Bench
- Open- and Closed-Loop Controller Development & Validation
- Engineering Flight Simulation
- Avionic Profiling
- Real-Time Simulation of Complex Electro-mechanical Systems
- Spacecraft Control
- Robotics Control
eFLYsim is also ideal for applications where D0-178B certification is an objective. Many users have already achieved the highest level of DO-178B certification for projects incorporating eFLYsim technology.
Model Trimming & Parameter Estimation with DINAMO
eFLYsim also takes advantage of DINAMO’s parameter estimation and model trimming capabilities. Available as an option on any eFLYsim system, DINAMO enables you to conduct model trimming and parameter estimation, enabling comparisons of actual flight data with your aerospace model and estimating the ideal flight parameter data.
Open & Scalable
Like all Opal-RT Simulators, eFLYsim is built using commercial-off-the-shelf technology, ensuring that you costs stay low, and your ability to scale your system stays high.
eFLYsim’s software is based upon RT-LAB - Opal-RT’s flagship Real-Time Simulation platform, first developed in 1997 to meet the stringent requirements of the Canadian Space Agency (CSA), during the development of the Canadarm 2 robotic system currently deployed on the International Space Station. In addition, eFLYsim is fully integrated with MATLAB/Simulink from The MathWorks Inc.
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Jul 2003 |
Preliminary Model Matching of the Embraer 170 Jet Authors : Marco Papini, Authors : Sergio Cavalcanti Abstract : The development of the EMBRAER 170 Jet has benefited from an expanded modeling and simulation capability at EMBRAER. The aerodynamics model and its accuracy became an important part of the design development phase. This... |
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Feb 2002 |
Hardware Emulation Strategies for Concurrent Microsatellite Hardware and Software Development Authors : Christopher J. Dmaren, Authors : G. James Weels, Authors : Robert E. Zee Abstract : This paper illustrates how the use of the real-time development system RT-Lab™, which combines both software-based emulation and customized hardware interfaces, provides a flexible environment to develop embedded... |
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Dec 2001 |
Robust Flight Control: A Real-Time Simulation Investigation Authors : Dave Harman, Authors : Hugh H.T. Liu Abstract : This paper presents the research work of real-time implementation and simulation for a distributed aircraft model with one robust flight controller. Further, a comparative analysis between online and real-time simulation... |
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Dec 1999 |
A Methodology for the Potential Improvement of Gas-Turbine Engine Digital Control Systems Authors : Alain Rabbath, Authors : N. Hori Abstract : This paper describes technology for high-performance simulation. Challenging applications such as real-time hardware-in-the-loop and mega-simulation are made possible using parallel architectures based on COTS PC... |
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