Mehrdad Moradi

Test and Validation Engineer at Movu Robotics
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Contact Information
us****@****om
(386) 825-5501
Location
Antwerp, Flemish Region, Belgium, BE
Languages
  • English Professional working proficiency
  • Kurdish Native or bilingual proficiency
  • Persian Native or bilingual proficiency
  • Dutch Elementary proficiency
  • Arabic Elementary proficiency

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Bio

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Credentials

  • Master of Science
    Shahid Beheshti University
    Jan, 2013
    - Sep, 2024
  • Bachelor of Science
    K. N. Toosi University of Technology
    Sep, 2011
    - Sep, 2024

Experience

  • Movu Robotics
    • Belgium
    • Truck Transportation
    • 1 - 100 Employee
    • Test and Validation Engineer
      • May 2023 - Present

      I work on simulation based testing to verify functional and safety properties of robot. I set up testing pipelines and hardware-in-the-loops test bench to execute test cases automatically. I work on simulation based testing to verify functional and safety properties of robot. I set up testing pipelines and hardware-in-the-loops test bench to execute test cases automatically.

  • Flanders Make
    • Belgium
    • Research Services
    • 100 - 200 Employee
    • Research And Development Scientist
      • Mar 2018 - Apr 2023

      So far, I have worked on a few industrial projects such as INES, ASET and EFFECTS. My research is concerned with testing, validation & verification, functional safety (ISO26262), and robustness analysis of cyber-physical systems using a model-based approach. My focus is on the optimization of a testing approach (named fault injection) using a combination of machine learning, model-driven techniques, and domain knowledge. The outcome of my work is some prototypes of different approaches for… Show more So far, I have worked on a few industrial projects such as INES, ASET and EFFECTS. My research is concerned with testing, validation & verification, functional safety (ISO26262), and robustness analysis of cyber-physical systems using a model-based approach. My focus is on the optimization of a testing approach (named fault injection) using a combination of machine learning, model-driven techniques, and domain knowledge. The outcome of my work is some prototypes of different approaches for testing the black-box models based on the Functional Mock-up Interface (FMI) standard and white-box models in MATLAB /Simulink. My proposed method was more efficient and performant than the traditional approach. The proposed algorithms help the engineer to determine the potential hazard in the system's model. Therefore, the safety level and assurance of the system under test will increase with less cost. Show less So far, I have worked on a few industrial projects such as INES, ASET and EFFECTS. My research is concerned with testing, validation & verification, functional safety (ISO26262), and robustness analysis of cyber-physical systems using a model-based approach. My focus is on the optimization of a testing approach (named fault injection) using a combination of machine learning, model-driven techniques, and domain knowledge. The outcome of my work is some prototypes of different approaches for… Show more So far, I have worked on a few industrial projects such as INES, ASET and EFFECTS. My research is concerned with testing, validation & verification, functional safety (ISO26262), and robustness analysis of cyber-physical systems using a model-based approach. My focus is on the optimization of a testing approach (named fault injection) using a combination of machine learning, model-driven techniques, and domain knowledge. The outcome of my work is some prototypes of different approaches for testing the black-box models based on the Functional Mock-up Interface (FMI) standard and white-box models in MATLAB /Simulink. My proposed method was more efficient and performant than the traditional approach. The proposed algorithms help the engineer to determine the potential hazard in the system's model. Therefore, the safety level and assurance of the system under test will increase with less cost. Show less

  • Pooya Tadbir Karamad
    • Iran
    • Appliances, Electrical, and Electronics Manufacturing
    • 1 - 100 Employee
    • Embedded System Engineer
      • May 2017 - Feb 2018

      I worked on the design and implementation of a pressure sensor which could sense low pressure with high accuracy. I also worked on the design and implementation of navigation systems for cars. It has a good level of precision and performance with a small dimension and low power consumption. In addition, I designed a portable OBD/OBD II scanner for vehicles that can read data from multiple ECUs. In summary: * Design and implementation of an IoT module based on OBDII for car and driver… Show more I worked on the design and implementation of a pressure sensor which could sense low pressure with high accuracy. I also worked on the design and implementation of navigation systems for cars. It has a good level of precision and performance with a small dimension and low power consumption. In addition, I designed a portable OBD/OBD II scanner for vehicles that can read data from multiple ECUs. In summary: * Design and implementation of an IoT module based on OBDII for car and driver monitoring and tracking. * Modeling, simulation, design and implementation of electronic section of high precision instrument. Show less I worked on the design and implementation of a pressure sensor which could sense low pressure with high accuracy. I also worked on the design and implementation of navigation systems for cars. It has a good level of precision and performance with a small dimension and low power consumption. In addition, I designed a portable OBD/OBD II scanner for vehicles that can read data from multiple ECUs. In summary: * Design and implementation of an IoT module based on OBDII for car and driver… Show more I worked on the design and implementation of a pressure sensor which could sense low pressure with high accuracy. I also worked on the design and implementation of navigation systems for cars. It has a good level of precision and performance with a small dimension and low power consumption. In addition, I designed a portable OBD/OBD II scanner for vehicles that can read data from multiple ECUs. In summary: * Design and implementation of an IoT module based on OBDII for car and driver monitoring and tracking. * Modeling, simulation, design and implementation of electronic section of high precision instrument. Show less

  • Sharif Pishgaman Smart System
    • Electronics and Embedded System Engineer
      • Aug 2012 - Feb 2017

      I was working on multiple hardware-software projects. I developed different microcontroller-based boards using Altium designer for designing schematics, layouts, and PCB. I mainly worked with AVR as a microcontroller and developed embedded C software for monitoring and controlling application. I also worked on a fault-tolerant system. I designed a robust FPGA-based controller, an automatic supervisor for other subsystems. In addition, I also worked on smart homes and designed some sensors based… Show more I was working on multiple hardware-software projects. I developed different microcontroller-based boards using Altium designer for designing schematics, layouts, and PCB. I mainly worked with AVR as a microcontroller and developed embedded C software for monitoring and controlling application. I also worked on a fault-tolerant system. I designed a robust FPGA-based controller, an automatic supervisor for other subsystems. In addition, I also worked on smart homes and designed some sensors based on the Zigbee protocol. In addition, I developed a few embedded systems based on STM32, XMEGA, and PIC32 microcontrollers. Besides it, I worked on the design and implementation of an ASI switch that monitors and controls 4 FPGA-based systems. In summary: * Design and implementation of a supervisor ASI Switch board, based on Atxmega microcontroller. * Design and implementation of a Atxmega Evaluation board. * Design and implementation of a supervisor fault tolerant board, based on Actel FPGA. * Design and implementation of small motherboard, based on PIC24F microcontroller. * Design and implementation of a ULP board, based on STM8l151 microcontroller. * Design and implementation of wireless home automation sensors, based on Zigbee. * Design and implementation of home automation central computer, based on Raspberry Pi and Marsboard. * Hardware/Software co-design of a secure and fault tolerance Controller With Actel FPGA (RTOS used in this Project). * Design and implementation application specific board of a spartan3 FPGA (with PCB) that consists of RS232, CAN and RS485 interface (ASIP used in this Project). * Design of a starter kit for ProASIC3L Actel FPGA (with PCB). * Design of a application specific development kit for ARM processor (with PCB) * Design of a development kit for PIC processor (with PCB). Show less I was working on multiple hardware-software projects. I developed different microcontroller-based boards using Altium designer for designing schematics, layouts, and PCB. I mainly worked with AVR as a microcontroller and developed embedded C software for monitoring and controlling application. I also worked on a fault-tolerant system. I designed a robust FPGA-based controller, an automatic supervisor for other subsystems. In addition, I also worked on smart homes and designed some sensors based… Show more I was working on multiple hardware-software projects. I developed different microcontroller-based boards using Altium designer for designing schematics, layouts, and PCB. I mainly worked with AVR as a microcontroller and developed embedded C software for monitoring and controlling application. I also worked on a fault-tolerant system. I designed a robust FPGA-based controller, an automatic supervisor for other subsystems. In addition, I also worked on smart homes and designed some sensors based on the Zigbee protocol. In addition, I developed a few embedded systems based on STM32, XMEGA, and PIC32 microcontrollers. Besides it, I worked on the design and implementation of an ASI switch that monitors and controls 4 FPGA-based systems. In summary: * Design and implementation of a supervisor ASI Switch board, based on Atxmega microcontroller. * Design and implementation of a Atxmega Evaluation board. * Design and implementation of a supervisor fault tolerant board, based on Actel FPGA. * Design and implementation of small motherboard, based on PIC24F microcontroller. * Design and implementation of a ULP board, based on STM8l151 microcontroller. * Design and implementation of wireless home automation sensors, based on Zigbee. * Design and implementation of home automation central computer, based on Raspberry Pi and Marsboard. * Hardware/Software co-design of a secure and fault tolerance Controller With Actel FPGA (RTOS used in this Project). * Design and implementation application specific board of a spartan3 FPGA (with PCB) that consists of RS232, CAN and RS485 interface (ASIP used in this Project). * Design of a starter kit for ProASIC3L Actel FPGA (with PCB). * Design of a application specific development kit for ARM processor (with PCB) * Design of a development kit for PIC processor (with PCB). Show less

  • YNS
    • India
    • Information Technology & Services
    • 1 - 100 Employee
    • Power Electronics Engineer
      • Mar 2011 - Feb 2012

      I worked on a few power electronic project and developed a few high power high voltage switching mode power supplied. I also developed a few embedded systems based on AVR. In summary: * Design and implementation of precision 4kw-8kv switching mode power supply, based on buck converter. * Design and implementation of digital Voltmeter-Amperemeter. * Design and implementation of 200v inverter. * Design and implementation of 1kw-500v switching mode power supply, Based on Tristor. I worked on a few power electronic project and developed a few high power high voltage switching mode power supplied. I also developed a few embedded systems based on AVR. In summary: * Design and implementation of precision 4kw-8kv switching mode power supply, based on buck converter. * Design and implementation of digital Voltmeter-Amperemeter. * Design and implementation of 200v inverter. * Design and implementation of 1kw-500v switching mode power supply, Based on Tristor.

Education

  • University of Antwerp
    Doctor of Philosophy - PhD, Applied Engineering
    2018 - 2023
  • Shahid Beheshti University
    Master's degree, Digital Electronic
    2011 - 2013
  • K. N. Toosi University of Technology
    Bachelor's degree, Electrical and Electronics Engineering
    2007 - 2011

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