Responsibilities:
- Define together with a team system and architecture decisions for ABS two-wheeler systems, its functions and variants (e.g., entry-level ABS to advanced cornering ABS).
- Capture and clarify customer use cases, performance goals, constraints, and safety requirements for two-wheeler ABS applications and translate these into product requirements.
- Define subsystem requirements for two-wheeler ABS solutions (sensors, ECU, hydraulic modulator, software/control, diagnostics, power, safety).
- Evaluate and document architecture trade-offs, pros/cons, and selection criteria (sensor set, estimator/sensor fusion approach, control concepts, hydraulic architecture, fallback strategies) .
- Provide system engineering and requirements leadership, including traceability and verification concept definition.
- Drive alignment across hardware, software/control, calibration, test/validation, and manufacturing/industrialization teams.
- Define critical test cases, validation criteria, and verification plans for ABS performance, robustness, and safety across operating conditions.
- Support failure risk management activities (e.g., FMEA/DFMEA) and definition of safety mechanisms, diagnostics, and degradation concepts.
- Support system-level validation strategy including vehicle integration aspects and customer acceptance criteria.
Qualifications:
- Proven R&D experience (5+ years) in development of two-wheeler ABS systems (system-level development experience required).
- Strong experience in system engineering methods, requirements engineering, and architecture development for safety-relevant systems.
- Hands-on knowledge of two-wheeler ABS components and real-world trade-offs (wheel speed sensing, IMU/pressure sensing as applicable, ECU, hydraulic modulator, valves/pump, diagnostics,…).
- Experience with sensor fusion/estimation and control concepts relevant to ABS (e.g., slip estimation/control, wheel deceleration strategies, stability considerations, …).
- Proven experience defining critical test cases and validation criteria; ability to translate requirements into measurable verification methods and acceptance criteria.
- Practical experience with failure analysis and risk management (FMEA/DFMEA) and a functional safety process.
- Ability to communicate complex technical concepts and decisions clearly to both customers and internal teams.
- Knowledge of reliability, safety concepts, and compliance considerations relevant to two-wheeler braking systems (as applicable).
- Technical or science university degree (e.g., Mechanical/Electrical/Mechatronics/Automotive Engineering, Physics, or similar) or equivalent practical experience.
- Business-fluent English language skills.
