Purpose of the job:Design and integrate electric vehicle system architectures and control algorithms at BrightEV. Define system and subsystem requirements based on vehicle and customer needs, develop control algorithms using MATLAB/Simulink, create Battery Management System (BMS) functions for monitoring and protection, and perform verification and validation through simulations and hardware testing to ensure safe, reliable, and efficient vehicle performance.Job Responsibilities & Duties:• Define and document system architecture, functional decomposition, interface specifications, and requirements mapping across system, software, and hardware levels to establish clear design foundations.• Develop and maintain system and subsystem requirements derived from vehicle performance targets and customer needs, ensuring alignment with product objectives throughout the development lifecycle.• Participate and contribute actively in technical design reviews and architecture discussions, providing systems engineering expertise to guide design decisions.• Develop, implement, and tune control algorithms for automotive applications, applying advanced control theory concepts including feedback control, state estimation, and Kalman filtering to ensure optimal system performance.• Build, maintain, and validate system and control models using MATLAB/Simulink, implementing estimation algorithms under defined system constraints for real-time embedded applications.• Identify and characterize dynamic systems using empirical data through MATLAB's system identification toolbox to support model development and validation.• Design and integrate system-level functions for low-voltage and high-voltage Battery Management Systems, defining monitoring, protection, balancing, and diagnostic strategies.• Analyze and manage battery fault conditions, operational limits, and state transitions to maximize battery life, safety, and performance.• Define and apply control and protection concepts for power electronics and motor control functions, including inverters, converters, and charging systems.• Integrate and configure system interfaces across vehicle systems including powertrain, thermal management, and communication networks.• Define and execute system-level verification and validation activities, developing and running test cases in SIL, HIL, and bench test environments.• Analyze test results, identify root causes of issues, and drive resolution through systematic debugging and collaboration with cross-functional teams.Education:Bachelor’s degree in Electronic Engineering /Computer Engineering /Computer Science, or a related field. (Master’s is a plus).Required Experience:• 2 - 5 years of systems engineering experience in automotive or related industries.• Experience in model-based development and code generation using MATLAB/Simulink. • Experience in specification and execution of Model-in-the-Loop (MIL) testing. • Hands-on experience with the full development process in MATLAB/Simulink from requirements specification to code generator configuration.• Proven experience applying control theories to practical engineering problems. • Experience with software development following the V-model software development lifecycle. • Experience using lab tools such as debuggers, emulators, and oscilloscopes for testing and validation.Preferred Experience:• Experience with vehicle communication protocols such as CAN/CAN-FD/LIN. • Experience with diagnostic protocols such as UDS and J1939. • Knowledge of powertrain systems, battery management, and auxiliary systems.• Knowledge of ASPICE 4.0 and ISO 26262 functional safety standards. • Familiarity with safety analysis methods.Skills and Abilities:• Advanced proficiency in MATLAB/Simulink for modeling and simulation. • Strong knowledge of MATLAB model verifier tools. • Deep understanding of control theory concepts and their application. • Solid grasp of power electronics, battery management systems, and vehicle architectures.• Strong troubleshooting abilities with a focus on driving issues to resolution. • Excellent problem-solving and root cause analysis capabilities. • Systematic approach to debugging complex technical issues.• Excellent written and spoken English communication skills. • Strong ability to coach and support team members. • Effective collaboration skills for working across cross-functional teams