AVIONICS SYSTEMS LIFECYCLE SUPPORT
DO-178 and DO-254 Roadmap and Gap Analysis identifies the gaps in your DO-254 or DO-178 process and optimally closes those gaps
We intend to use updated processes to improve your DO-178 and DO-254 efficiency and to reduce your avionics systems/hardware/software development costs.
Providing innovative software solutions for your training needs
Significant experience of developing and verifying software for embedded aerospace applications over all life-cycle phases (requirements capture, specification, design, implementation, support).
We Provide Systems and Software and Hardware support. We have expertise with several programming languages including UML, OOA/OOD, ADA, C/C++, FORTRAN, as well as static/dynamic code analysis
Based on the scope of a project Simex provide high fidelity simulation models for individual avionic system or sub-system models, pilot-in-loop analysis
Simex engineers are experts in the design, integration, installation, test and support of avionics upgrades for FFS.
Our experts support the Testing of Synthetic Training devices, from Full Flight Simulators, Flight Training devices to Computer Based Training devices, to ensure the design and regulatory requirements have been adequately met.
We will provide templates and employ the Optimisation codes complaint with ARP-4761 to ensure safety critical systems are fully exposed. Several Algorithms will be used (based on the scope of the project). This applies to systems development, safety activities, requirements, design, code and implementation, V&V and test, etc
Verification of all work-products produced by the development process, verification of the traceability between work-products produced by the development process and generation of test cases at each test level to adequately verify the operation of the software and to obtain the appropriate test coverage
Generating the Plan for Software Aspects of Certification, resolving certification issues identified by the customer, certification authority or representative and generating the Software Accomplishment Summary