Biomedical Systems Engineer – Connected MedTech at Bosch Group

Coimbatore, tamil nadu, India -

Full Time

Start Date

Immediate

Expiry Date

02 Aug, 26

Salary

0.0

Posted On

04 May, 26

Experience

10 year(s) or above

Remote Job

Yes

Telecommute

Yes

Sponsor Visa

Skills

Biomedical engineering, Embedded systems, Sensor validation, Signal processing, Physiological sensing, Python, MATLAB, MEMS, Data acquisition, ISO 13485, ISO 14971, Medical devices, System integration, Signal acquisition, Verification and validation, Design controls

Industry

Software Development

Description

Company Description Bosch Global Software Technologies Private Limited is a 100% owned subsidiary of Robert Bosch GmbH, one of the world's leading global supplier of technology and services, offering end-to-end Engineering, IT and Business Solutions. With over 27,000+ associates, it’s the largest software development center of Bosch, outside Germany, indicating that it is the Technology Powerhouse of Bosch in India with a global footprint and presence in the US, Europe and the Asia Pacific region. Job Description Roles & Responsibilities : The Biomedical Systems Engineer is responsible for defining, developing, and validating physiological sensing solutions for connected medical devices, ensuring accurate translation of biological signals into reliable engineering outputs. This role combines biomedical domain expertise with strong system, embedded, and data-oriented engineering capabilities, enabling development of scalable sensing solutions across a range of medical devices including diagnostic, therapeutic, and monitoring systems. The engineer will work across the lifecycle from physiological understanding ? sensor integration ? signal processing ? system validation, ensuring clinical relevance and engineering robustness. ? Key Responsibilities 1. Physiological Understanding & Signal Definition (Core Biomedical Anchor) Analyze physiological systems and identify clinically relevant measurable parameters Define: Pressure, flow, temperature Bio-signals (optional: ECG, SpO?, etc.) Map biological phenomena ? measurable electrical/physical signals Ensure clinical validity of measured parameters 2. Sensor Selection & Biomedical Validation Evaluate sensing technologies: MEMS, optical, thermal, electrochemical Define: Measurement range, sensitivity, response time Interaction with biological environments (fluids, tissues) Assess: Bio-compatibility considerations (early-stage) Impact of biological variability on signals 3. Signal Acquisition & Engineering Interface Work with electronics/embedded teams to define: Sensor interface requirements (AFE, ADC, sampling) Signal quality needs (noise, resolution) Support: Sensor integration into device architecture Selection of acquisition strategies 4. Signal Processing & Data Interpretation Develop and validate: Filtering and smoothing techniques Calibration and compensation models Convert raw data into: Clinically meaningful metrics Derived indicators (trend, anomaly, thresholds) Support implementation in: Embedded firmware or application layer 5. System Integration & Data Flow Understanding Define and validate end-to-end signal chain: Sensor ? Embedded ? Connectivity ? Application Work with: Embedded engineers (data acquisition) Mobile/cloud teams (data visualization & storage) Contribute to: Data formats (time-series, metadata) Interface/API definitions (basic level) 6. Experimental Design & Biomedical Validation Design and execute: Bench experiments Simulated physiological conditions Define: Test protocols Acceptance criteria Perform: Correlation with reference methods Repeatability and reliability analysis 7. Risk & Safety (Biomedical + System View) Identify: Physiological misinterpretation risks Sensor failure modes Contribute to: Risk analysis (ISO 14971) Clinical risk mitigation strategies 8. Platform Re-usability Develop reusable frameworks for: Physiological signal modeling Sensor validation Calibration approaches Enable reuse across: Patient monitoring systems Wearables Therapeutic devices Diagnostic platforms Qualifications Educational qualification: B.E / B.Tech in Biomedical Engineering / ECE / EEE Experience : 12–17 years embedded systems development, preferably with medical or regulated devices. 5–10 years in: Biomedical engineering / medical devices / sensing systems Experience in: Sensor validation Experimental/bench testing Exposure to cross-functional development (HW + SW teams) Mandatory/requires Skills : Biomedical Core Strong understanding of: Human physiology (any domain) Physiological signal characteristics Experience in: Biomedical instrumentation Sensor-based measurement systems Engineering Capability Sensor fundamentals (MEMS, optical, electrochemical basics) Signal acquisition concepts: ADC, sampling, noise Basic fluid/biophysical modeling (nice to have) Software & Data Awareness Programming: Python / MATLAB for data analysis Signal processing: Filtering, calibration, time-series analysis Basic understanding of: Embedded systems (MCU, interfaces) Data flow (BLE/Wi-Fi pipelines) Tools & Exposure Lab tools: DAQ systems, oscilloscopes, sensors Software: MATLAB / Python (NumPy, Pandas) Exposure to: Embedded platforms (preferred) Data visualization tools Preferred Skills : Working knowledge of: ISO 13485 ISO 14971 Exposure to: Verification & Validation Design controls Legal Entity: Bosch Global Software Technologies Private Limited

Responsibilities

The Biomedical Systems Engineer will define, develop, and validate physiological sensing solutions for connected medical devices. This role involves managing the full lifecycle from sensor integration and signal processing to system validation and clinical risk assessment.