Azzedine
Lakhdar
Software engineer at Lear Corporation, specializing in safety-critical automotive systems and advanced embedded Linux for Renault & Nissan global platforms.
Work Experience
Software Engineer
CurrentLead software integration for Renault and Nissan body control modules, coordinating multi-country teams through ASPICE-compliant releases. Configure AUTOSAR BSW, diagnostics, and cybersecurity features while maintaining ISO 26262 traceability.
Software Engineer β Intern
Implemented rear-lighting features and diagnostics in AUTOSAR using C, DaVinci Configurator, and CAPL. Prepared HIL/SIL validation campaigns and supported system integration testing.
Embedded Systems Engineer β Intern
Designed a Cortex-M4 smart weighing machine with custom analog front-end and industrial calibration routines. Delivered Modbus connectivity for SCADA integration.
Education
High-level engineering training at the convergence of hardware architecture and digital systems.
Institut National des Postes et TΓ©lΓ©communications (INPT)
Graduated with honors. Focused on automotive electronics, industrial IoT, and signal processing.
CPGE Reda Slaoui, Agadir
Highly selective intensive program in mathematics, physics, and engineering sciences.
Skills & Technologies
Expanding Expertise
Skills, technologies, and certifications actively developed beyond core responsibilities β each directly applicable to senior engineering and technical leadership roles.
Linux Systems
Solid command of Linux internals β device drivers, kernel modules, device tree configuration, shell scripting, GCC toolchains, and cross-compilation for embedded targets. Directly applicable to Linux-based ECU and gateway platforms.
Yocto Project
Building production-grade Linux images for embedded targets using BitBake, OpenEmbedded layers, BSP integration, and recipe customization. Actively applied in a professional capacity to support Yocto-based delivery workflows.
Adaptive AUTOSAR
Studying Adaptive AUTOSAR concepts β ara::com service communication, execution management, diagnostics (UDS over DoIP), and the evolving shift from Classic to Adaptive in high-compute automotive ECUs.
CAPM Certification
Near-completion CAPM preparation β mastering structured project delivery (scope, schedule, risk, stakeholders). Directly complements software delivery coordination, cross-team planning, and ASPICE lifecycle management experience.
Featured Projects
A selection of high-integrity embedded systems and automotive software projects β click any card to read full technical specifications.
Smart Parking Platform
An automated parking access system designed for club members. The system uses RFID technology to verify member identity and balance before granting access via a motorized barrier.
Full Home Control
A hybrid Raspberry Pi and Arduino home automation ecosystem providing remote telemetry and control via a Flask-based web interface.
PLL PCB Design
A precision Phase-Locked Loop (PLL) evaluation board designed for academic frequency synthesis and modulation experiments.
Automated Depot
An end-to-end industrial automation concept focusing on high-speed inventory tracking and warehouse safety.
ECU Validation Framework
An ASPICE-compliant validation framework for UDS-based diagnostics over CAN networks. This system automates the orchestration of test cases and ECU state simulation using Vector CANoe.
AUTOSAR SWC Integration
A demonstration of AUTOSAR architecture principles, featuring Sensor/Controller SWC interaction via a manually implemented RTE (Runtime Environment) abstraction layer.
STM32 Bare-Metal Drivers
Low-level peripheral drivers for the STM32F401RE microcontroller, built from the ground up using direct register manipulation to maximize performance and minimize overhead.
Ready to Connect?
Currently exploring innovative roles in Software Engineering, Automotive Systems, and Advanced Technology.