Experience

Citrobits GmbH

• Germany
• Appliances, Electrical, and Electronics Manufacturing
• 1 - 100 Employee

• Founder & FPGA Team Lead

  • Feb 2020 - Present



Huawei

• China
• Telecommunications
• 700 & Above Employee

• FPGA Signal Processing Contractor | Freelancer

  • Mar 2019 - Mar 2022

  - High Speed FPGA Design and Verification - Embedded Linux Development - Hardware Co-processing - Signal Processing - High Speed FPGA Design and Verification - Embedded Linux Development - Hardware Co-processing - Signal Processing



AED Vantage

• Germany
• Appliances, Electrical, and Electronics Manufacturing
• 1 - 100 Employee

• FPGA Signal Processing FPGA Engineer

  • Jan 2015 - Feb 2019

  FPGA-based Signal Processing for Physical Layer (PHY) Development: - FPGA Physical layer (PHY) algorithms developed for high bandwidth software defined radio (SDR) platforms (>1 Ghz instantaneous Bandwidth). - Prototype bring-up, from test programs design to RF characterization, bug fixing and communication interface development. - Software algorithms porting to FPGA implementation - Fixed-point algorithm development and error characterization. - High speed processing systems (>32Gbps) - Linux kernel driver development, PCI-Express driver communication with the FPGA.



Universidad Politécnica de Cartagena

• Spain
• Higher Education
• 200 - 300 Employee

• IMU Data Acquisition Board

  • Jul 2013 - Sep 2013

  Design and Implementation of a 9DoF IMU for human motion capture. The IMU (Inertial Measurement Unit) is made up of 3 sensors; Accelerometer, Gyroscope and Compass. The sensors are connected to a microcontroller which control and manage the communication with a PC where the data fusion is done. The communication with the computer is performed with Bluetooth to reduce power consumption and increase compatibility with mobile devices. The PCB was designed minimizing the weight and size to improve ergonomics, allowing the user of the device to move freeing during the data capture. The sensor data fusion algorithm implemented was based on Sebastian O.H. Madgwick previous work as result of his Ph.D research at the University of Bristol. A computer software application allows the raw visualization of the data as well as the calibration of the sensors.



Universidad Politécnica de Cartagena

• Spain
• Higher Education
• 200 - 300 Employee

• Internal student

  • Sep 2011 - Jun 2012

  Augmented reality application developed in Matlab. Detection of the keyboard of a piano in a freehand sketch. The user is able to interact with the sketched piano as a normal piano keyboard, the software detects the fingers over the keys and mimic the behavior of a real piano keyboard. Augmented reality application developed in Matlab. Detection of the keyboard of a piano in a freehand sketch. The user is able to interact with the sketched piano as a normal piano keyboard, the software detects the fingers over the keys and mimic the behavior of a real piano keyboard.