Eligibility
BE / B. Tech in EEE / ECE / EIE
Duration
6 Weeks
Eligibility
BE / B. Tech in EEE / ECE / EIE
Duration
6 Weeks
Overview
Welcome to DPIT Systems' System Engineer Training Course, where you'll embark on a journey to master the art and science of system engineering. In this intensive program, we provide a comprehensive and hands-on approach to equip you with the skills and knowledge needed to excel as a system engineer in today's complex technological landscape.
Course Highlights
Foundations of System Engineering: Learn the fundamental principles, methodologies, and best practices of system engineering.
Systems Thinking: Develop a holistic approach to problem-solving and decision-making, focusing on the interconnections between components.
Requirements Engineering: Master the art of gathering, analyzing, and managing requirements to ensure successful system development.
System Architecture Design: Gain expertise in creating robust system architectures that meet both functional and non-functional requirements.
Verification and Validation: Learn how to rigorously test and validate systems to ensure they meet design specifications.
Real-World Projects: Apply your knowledge to real-world system engineering projects, gaining practical experience.
Industry Insights: Benefit from insights shared by experienced system engineers and industry experts, staying updated on the latest trends and practices.
Who Should Enroll?
Aspiring System Engineers: Start your career in system engineering by gaining essential skills and knowledge.
Experienced Engineers: Enhance your current skill set and expand your career opportunities by becoming a certified system engineer.
Engineering Managers: Develop a deep understanding of system engineering to lead and manage successful projects.
Career Opportunities
Upon completing our System Engineer Training Course, you'll be well-prepared to pursue a wide range of rewarding career paths, including:
- System Engineer
- Systems Analyst
- Systems Architect
- Requirements Engineer
- Integration Engineer
- Engineering Manager
Automotive Embeded Test Engineer course syllabus and curriculum
- BCM (body control functions)
- Passive safety /active safety
- ADAS
- Connectivity
- HMI
- Autonomous Driving (self Driving Vehicles)
- Electric Vehicles
- ECU’s, Sensors and Actuators
- Comunication
- Standards in auomotive (ISO , SAE)
- V Cycle
- Automotive SPICE
- Agile methodology
- Software test cycles (V & V cycle )
- Testing Proces & environment
- System qualification testing
- System integration testing
- Software integration testing
- Software Unit testing
- Smoke testing
- Component testing
- Regression testing
- Model Based testing (SIMULINK/MATLAB)
- Hil Testing(dSpace)
- Rapid control prototyping
- SiL Testing
- Requirements tools (System & managements) – Doors, PreeVision, EA, codebeemer, PTC , Polarian etc
- Development tools- IDs, debugger, complier, Engg tools.
- Testing Tools- HIL tool, SIL tool, CANoe & CAPL overview
- Bug tracking tool in real time -JIRA
- CAN
- LIN
- Flexray
- Ethernet
- UDS
- OBD II
- Diagnostics in electric vehicles
- xCP (CAN/Ethernet) with examples
- Body Control Module, Light Control Module, Combi Module ECUs
- Instrument Cluster ECU
- Diagnostic Testing
- DTCs
- Variant handling
- Routine Control
- Calibration Testing (using xCP)
- Using Diagnostic tool
- Software Update
- Learn the sequence of Boot loader and application
- Update application software through CAN based bootloader using standard diagnostic services.
- Introduction to ISO26262
- Functional Safety with ASPICE
- Cyber Security with ASPICE
- Cyber Security with ASPICE
- Tool Used – ASPICE+Agile process – Jira, Codebeamer/ ReqView, Enterprise Architect
- Hands on Requirement testing (Lighting functions, Vehicle access functions, HMI)
- Requirement Elicitaion
- Writing requirements for system – Based on ASPICE processes and templates (FRS)
- System architecture design
- Test description (ASPICE)
- Writing test cases for System qualification test (ASPICE)
- Writing test cases for System integration test (ASPICE)
- Creating traceability between testcases to Requirements and to decomposed system and architectural elements.
- Risk assessment-SYS layer ASPICE
- Introduction:
Item Description(Exterior Light Control)
– Functional Behavior
– Preliminary architecture
– Assumptions and Limitations of Exemplary Safety Analysis - Safety Concept on vehicle level
– Hazard Analysis and Risk Assessment
– Failure Modes
– Functional Safety Concept
– Functional Safety requirements
– Allocation of Functional safety requirements to architectural elements
– Technical Safety Requirements - Technical safety concept on Front Light Management ECU level
– Safety Goal fulfillment
– Concept on ECU Level
– Requirements on ECU Level
– ECU Functionality SW Architecture and SW saftey requirements
-FMEA
-Failure Modes(HW&SW)
-Data integrity
-Analysis- Creating traceability for safety requirements
- Writing testcases for safety requirements
Fill the form to register the course
Fill the form to register the course
PROGRAM OVERVIEW
- 360 Degree Career Support
- Job Assistance with top OEM's
- 2+ Case Studies
- 30+ Hours of learning
- 1 Mini Project
- No Cost EMI option
- Global Access to Job Opportunities
- Sessions by Industry Experts
- Global Valid Certificate
- Free Research Publication
Automotive System Engineer Course – Placements
DPIT SYSTEM Automotive System Engineer training and placement program attracts multiple companies to participate in placements – MNCs, mid-size companies and startups. Have a look into a snapshot of placement companies that are hiring our students.
Join Us Today
Are you ready to elevate your career by becoming a skilled and certified system engineer? Enroll in our course and gain the expertise needed to tackle complex engineering challenges and drive innovation. At DPIT Systems, we’re committed to shaping the future of system engineering. Join us on this journey to become a proficient and sought-after system engineer.
For enrolment information and course details, contact us today!