We are looking for candidates who can participate in a team of engineers responsible for the development, integration, build and test of software for control module for various control algorithm analysis, design, implementation, bench/dyno/vehicle testing. Perform failure mode analysis, diagnostic analysis, design, implementation and testing. Perform software requirements analysis, design, coding, test plan creation, and testing for Control Features. Perform reviews for Requirements, Design Documents, Simulink Models, C/C++/Assembly code, and Test Plans. Create RTW/Target Link Models. 5-8 years of experience
Primary Responsibilities
- Develop system-level concept of operations (CONOPs), perform functional analysis and decomposition to meet end user needs using Model Based Systems Engineering tools and techniques.
- Develop system capabilities, use cases, features, functions, and interfaces.
- Develop formal systems requirements for propulsion subsystems and elements.
- Develop system designs that satisfy the system requirements.
- Conduct trade studies and briefings to support the selection of algorithm approaches.
- Develop SysML models using IBM Rhapsody and IBM Jazz suite.
- Develop and extend system models using existing requirements, interface document, and related design and system engineering documents.
- Support MBSE integration/development activities.
- Participate in design review and model presentations
Requirements
- Bachelor of Science degree in Mechanical, Electrical, Automotive System Engineering, Computer Engineering, or other suitable degree related to Engineering from an accredited university
- Experience in systems design, architecture definition, and analysis.
- Minimum of 5 years of experience in the automotive industry
- Knowledge of Model Based Systems Engineering approaches, methods, and techniques.
- Experience with Model Based Engineering tools and languages such as Enterprise Architecture, Rhapsody, Cameo, MagicDraw, and UML/SysML
- Knowledgeable of ISO 26262 Functional Safety and Design Failure Model and Effects Analysis (DFMEA) industry best practices
- Outstanding interpersonal and problem solving skills
- Strong ability to work directly with individuals and groups
- •Strong communication skills, both verbal and written
- •Self-starter who can work cross-functionally with other people
- •Good understanding of the development of simulation models