Muhammet Geçgil

Turkish Aerospace / Chief Engineer @ System Validation Department / Test and Test Analysis Senior Lead Engineer

Türkiye

About

"Senior Lead Engineer for Test and Test Analysis at Turkish Aerospace, serving as Chief Engineer within the System Validation Department. Proven expertise in the automotive and aerospace sectors, with skills encompassing dSpace HIL Diagnostic Testing, Vector VT System, LabVIEW, Testing Automation, Control Systems Design, Validation Engineering, and Root Cause Analysis. Demonstrated capacity to lead complex validation initiatives, optimize testing methodologies, and deliver precise analytical insights for system performance."

Experience

  • System Validation Department Chief Engineer / Test and Test Analysis Senior Lead Engineer at Türk Havacılık ve Uzay Sanayii (TUSAŞ)/Turkish Aerospace Industries (TAI)
    Jun 2021 - Present · 5 yrs 2 mos

    -System Integration Lab (SIL) design for Aircraft ATA Chapters, ensuring alignment with aircraft subsystems and compliance with industry standards. -IMU Rate Table HWIL design, optimizing hardware-in-the-loop simulations for accurate testing and validation. -Mass Properties Measurements for Subscaled Aircraft and Aircraft Control Surfaces, providing data for aerodynamic analysis and design validation. -Aircraft Components Environmental and Laboratory Testing, including thermal, humidity, and etc. testing to ensure component reliability in various operating conditions. -Vibration Testing, assessing system durability and performance under operational vibrations and external factors. Ejector Release Assembly Test etc. -Embedded Avionics Component Software Validation for EPGDS, ensuring proper functionality and integration of avionics software with aırcraft control systems. -Test Software Development for Test Rigs using C# and NI LabVIEW, automating testing procedures and improving testing efficiency and accuracy.

  • Stellantis Tofaş Turkey /Electrics & Electronics Validation Team / Diagnostic Engineering Specialist at Stellantis
    Sep 2013 - Jun 2021 · 7 yrs 10 mos

    Vehicle-Wide Component Validation Specialist Led Vehicle-Wide Component Validation for Electric and Electronic Units, ensuring compliance with industry standards and optimizing vehicle integration. Network & Diagnostic Specialist for 4 years, with 1 year of experience in Quality Diagnosis during Reliability Growth Road Testing for R&D project vehicles. 2 years 4 months on Failure Analysis Search Team (FAST) for project vehicles, identifying failures and providing corrective actions. Key Responsibilities: Diagnostic Component Testing for Fiat Standards 7-Z0059, ensuring self-diagnosis capabilities in compliance with Fiat 07209 and ISO 14229. Units tested: ECU, Climate Modules, Park Aid, Body Computer, Telematics, Brake, Airbag, Instrument Cluster, Radio Receiver. Electronics Units Physical Validation as per 7-Z0140, LP.7Z070. CAN & LIN Network Testing with standards like LP.7Z072, 7-Z0142, 7-Z0143-1. Functional Validation according to LP.7Z019. Conducted Wiring Harness Validation for robustness and reliability. Executed Reflash Tests per FCA norms (7-Z0160, 7-Z0071). Expertise in CAN/LIN Protocols, using tools like CANalyzer, CANoe, CANdela Studio, ODX Studio, Dianalyzer, and UDS. Skilled in Vector Logger Configurator, Controltech & Reveal Mosaic, FCA BCD configuration, CT1000, GL3200, and Picoscope. Experienced in HIL Testing for Body Computer, Brake Unit, and ECU using Diana, DinamitE, and Vector VT System.

  • Project Engineer at İTÜ OTAM (İSTANBUL TECHNICAL UNIVERSITY AUTOMOTIVE TECHNOGIES RESEARCH & DEVELOPMENT CENTER )
    Jan 2011 - Jul 2013 · 2 yrs 7 mos

    Test Rig Development for Automotive Testing Systems Specialized in Testing, Data Acquisition, Control Algorithms, and Automation Software Development for Automotive Testing Applications using C#, LabVIEW, and PLC. Key achievements include: EDDY Current LPG Engine Dynamometer Commissioning Commissioned for İstanbul Technical University, enhancing engine testing capabilities and precision. 5-Axis Servohydraulic and 3-Axis Servo Electromechanical Hardware-in-the-Loop (HIL) Simulator Design Developed for Electric and Hydraulic Power Steering systems, ensuring realistic testing and simulation. Vehicle Simulator for Road Load Data Processing Capable of processing pre-recorded road load data for accurate vehicle performance simulation. Virtual Testing Over Mathematical Models Enabled testing of systems using virtual mathematical models to optimize vehicle component performance. Hydraulic 4-Poster Test Rig Design Designed for dynamic durability testing of vehicle components, particularly for suspension and chassis. Closed-Loop Hydraulic Seat Belt Testing System Design Developed a closed-loop hydraulic system to evaluate seat belt performance under various conditions. Software Development for Automotive Testing Systems Expertise in developing software for automotive testing, including data acquisition, control algorithms, and automation solutions.

  • Engineering Intern at Ficosa International
    Jul 2009 - Oct 2009 · 4 mos

    Poka-Yoke Applications and Quality Control System: Developed Poka-Yoke applications using the Cognex Checker camera and installed an unmanned PLC-controlled servomechanism for quality control of the hand brake cable. PLC Applications: Designed and integrated standard PLC applications.

  • Engineering Intern at Abrotech
    Jul 2008 - Oct 2008 · 4 mos

    Robotic Production Line Setup and Welding Systems Internship Robotic Production Line Setup: I observed the installation of robotic systems used in production processes. I participated in the integration of fixtures and positioners and gained insights into how these processes operate. Welding Cells: Gas Metal Arc Welding (GMAW): I observed the setup of GMAW welding cells. I learned about welding operations and quality control procedures used in the process. Spot Welding: I observed the installation of spot welding robots and gained basic knowledge about their operation within the production lines. Cutting Systems: I watched the setup and validation of material cutting systems. I acquired information on how these systems work to improve efficiency and accuracy.