The Central Government and many State governments in India are rolling out schemes to accelerate adoption of Electric Vehicles in India. In line with the recommendation by DHI (Dept of Heavy Industries, Govt of India), International Centre for Automotive Technology (ICAT) has also launched its e-Portal, named “ASPIRE” ( Automotive Solutions Portal for Industry, Research & Education). This technology platform will facilitate the Indian auto industry (including OEMs, Tier 1 Tier 2 & Tier 3 companies), R&D institutions and academia (colleges & universities) to come together for technology development, shop floor/ quality/ warranty issues’ resolution, expert opinions etc. on issues involving technology advancements.
MathWorks, a mathematical computing company, creators of MATLAB and Simulink has been heavily invested in helping companies accelerate their electrification journeys through their tools, training and experts. You can read here about how electric scooter company Ather Energy adopted MathWorks tools to accelerate their product development. MathWorks also works with several educational institutions and industry associations to help the young students and professionals get prepared to benefit from this opportunity.
With their understanding of the market, ICAT ASPIRE and MathWorks have decided to bring you a series of complimentary virtual sessions on the topic of Electric Vehicle Modeling and Simulation: Architecture to Deployment. You can register for free here. There is also a by-invite-only hands-on workshop at the end of the series.
This complimentary virtual series focuses on end-to-end workflow for electric vehicle modelling and simulation. The presenters will leverage their experiences from real-life projects and customer examples.
In this 5-part “Vehicle Electrification” webinar series you will learn:
Requirements to Vehicle Architecture: Translate and refine requirements into vehicle system architectures with components ready for simulation and implementation using Model-Based Design in Simulink
Architecture to component simulation: Battery System Design & Development: Build detailed battery cell and pack models, develop battery management system (BMS) model, and implement it on embedded hardware
Architecture to component simulation: Motor & Controller Design and Development: Build accurate motor model, interactively design, and implement motor control algorithms
Control Design Verification and Validation: Leverage Model-Based Design for streamlining software development and verification process and meet industry standards like ISO26262
Rapid prototyping and HIL validation: Seamlessly re-use the system models for rapid prototyping to test and tune new control algorithms and hardware-in-the-loop validation to de-risk the integration testing of various components of the vehicle
Why should you attend? Who should attend?
- EV engineers including Powertrain engineers from startups, OEMs, Tier 1 suppliers – 2-3 wheelers, Cars – SUVs and commercial trucks and buses looking to fast-track their architecture to deployment cycle
- Managers/Senior Managers/Founders who are looking at developing teams, upskill teams and looking to find the right platforms/ecosystems to accelerate their product development and testing
- Function Developers, HIL Test Engineers
- Embedded Software Developers, Electrical-Electronics Teams
- Software Quality Assurance and Verification Teams
- Professionals/Students looking at upskilling themselves
- Academicians looking at incorporating electrification in their curriculums
We believe this will be a good opportunity for the people working in this field to gain from an industry body and the solution provider. Register for free here and learn from the experts.