Software Tester

Professional Profile

• I am looking for an opportunity in a reputed organization which will help me deliver my best and upgrade my skills in engineering and meet the demands of the organization. Skills

• Python

• Matlab

• Comsol Multiphysics

• C, C++

• Fortran Pascal.

• Autocad, Autodesk Inventor

• CYPE – Computer aided design

• Solidworks – Computer aided design

• Networks and communications protocols; IP protocol

• Wolfram Mathematica

• SPSS – Statistics

• Laser, spectrometry

• Sensors; Thermocouples, Transducers, Ultrasound

Relevant Work Experience

Sep 2014

Apr 2015

Master Thesis Project

IBMI – Helmholtz Zentrum München – Munich, Bayern

• The main purpose of my Master Thesis was to demonstrate capabilities of optoacoustic (OA) imaging in temperature monitoring during RF ablation.

• Accurate thermal models on transient heat transfer theory were developed analytically and proved with numerical methods.

Apr 2015

Oct 2015

Research Assistant

IBMI – Helmholtz Zentrum München – Munich, Bayern

• Continued research lines of previous Master Thesis. Oct 2015

Today

Doctor of Philosophy, PhD in Biomedical Imaging & Engineering Technical University of Munich – Helmholtz Zentrum München – Munich, Bayern Francisco Oyaga

Romanplatz 10, Munich,Bayern 80639

********@*****.***

+49-157-***-***-**

Francisco Oyaga – Resume

• The main purpose of my research is to investigate laser-tissue interaction in general, specifically in ablation procedures using OA.

• Work with air-coupled, HIFU, and OA transducers to ether induce heating or retrieve the ultrasound (US) signal generated by pulsed light source. Feb 2018

Aug 2018

Sep 2019

Today

MGH Harvard – Research Scholar

MGH – Harvard Medical School – Boston, MA, USA

• The main purpose of my research is to develop GUIs in Matlab/C++ for displaying and better reading Lifetime datasets from an IVIS spectrum system.

• Development of mathematical algorithms to coregister images with different coordinates systems. Implementation done in Matlab. AKKA Technologies – Engineering Consultant

AKKA Germany GmbH – Riesstraße 14 – Munich, BY, Germany

• BMW client fEPM (flexible Energy Power Management). E/E Software testing for the client BMW. The flexible Energy Power Management Software runs in all their cars. The energy management includes all the components in the vehicle that generate, store and consume energy. The power management regulates the power output of the alternator as well as the battery charging.

• Responsabilities:

Test design and execution of Hardware-in-the-loop (HIL) and Vehicle test. Test results, evaluation and bug reporting.

Topologies of cars tests:

- Electric cars: Battery Electric Vehicles (BEV) and Plug in Hybrid Electric Vehicles (PHEV)

- Combustion engine cars with 12V/48V Batteries and Pb/Lithium Batteries.

• Tools:

- Internal ECU and BUS signal measuring (INCA, CARmen).

- Car Diagnosis (Ediabas Tool32, INPA)

- BMW Testing Process (JiRa, DOORS)

- Ethernet, CAN, LIN, FlexRay, XCP, Messtechnik Tools. Education

2009 - 2012 Bachelor of Applied Science, Mechanical Engineering Public University of Navarre – Pamplona, Navarre, Spain 3 year bachelor program and rapid access to master’s program. 2013 – 2014 USA exchange program – Engineering in electronics and electricity Montana State University – Bozeman, MT, USA

1 year scholarship program to continue studies in MSU, 3.8 GPA. 2012 – 2015 Master’s degree - Engineering in electronics and electricity Public University of Navarre – Pamplona, Navarre, Spain Completed with a top grade master thesis in collaboration with TUM and IBMI at the Helmholtz center in Munich under the supervision of Prof. Daniel Razansky. Title:

“Thermal-optoacoustic model for cardiac radiofrequency ablation”. Languajes

Engish Proficient User (C2) – TOEFL iBT 91

German Independent User (B2.2) – Goethe Zertifikat Spanish Native speaker

List of Current Publications

Oyaga F.J., Deán-Ben X.L., Montero de Espinosa F., and Razansky D., "Noncontact monitoring of incision depth in laser surgery with air-coupled ultrasound transducers," Opt. Lett. 41, 2704-2707 (2016). Oyaga F.J., Deán-Ben X.L., Montero de Espinosa F., and Razansky D., “Non-contact monitoring during laser surgery by measuring the incision depth with air-coupled transducers,” Proc. SPIE 10064-H (2017). Oyaga F.J., Deán-Ben X.L., Sroka R., and Razansky D., "Volumetric Optoacoustic Temperature Mapping in Photothermal Therapy," Sci. Rep. 7, 9695 (2017).

Oyaga F.J., Deán-Ben X.L., Sroka R., and Razansky D., "Real-time Three-dimensional Temperature Mapping in Photothermal Therapy with Optoacoustic Tomography," Proc. SPIE 10415-A (2017). Oyaga F.J., Deán-Ben X.L., Sroka R., and Razansky D., "Four-dimensional optoacoustic temperature mapping in laser-induced thermotherapy," Proc. SPIE 10494-0D (2018). Oyaga F.J., Penacoba S.R., Deán-Ben X.L., Montero de Espinosa F., and Razansky D., "Four-dimensional optoacoustic monitoring of tissue heating with medium intensity focused ultrasound," Ultrasonics. 94, 117-123 (2019). Oyaga F.J., Penacoba S.R., Deán-Ben X.L., Montero de Espinosa F., and Razansky D., "Monitoring of tissue heating with medium intensity focused ultrasound via four dimensional optoacoustic tomography," Proc. SPIE 10494-5J

(2018).

Rebling J., Oyaga F.J., Deán-Ben X.L., Douplik A., and Razansky D., "Integrated Catheter for Simultaneous Radiofrequency Ablation and Optoacoustic Monitoring of Lesion Progression," Opt. Lett. 43(8), 1886-1889 (2018). Francisco Oyaga – Resume

Rebling J., Oyaga F.J., Deán-Ben X.L., Douplik A., and Razansky D., "A new catheter design for combined radiofrequency ablation and optoacoustic treatment monitoring using copper-coated light-guides," Proc. SPIE 10488-05 (2018).

Oyaga F.J., Özsoy C., Deán-Ben X.L., and Razansky D., "Optoacoustic monitoring of RF ablation lesion progression," Proc. SPIE 10878-2R (2019).

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