Róbert Galambos
About Róbert Galambos
Róbert Galambos is a Software Project Lead and Technical Lead at ThyssenKrupp in Budapest, Hungary, with a background in Electrical Engineering and extensive experience in embedded systems and digital signal processing.
Company
Róbert Galambos is currently employed at ThyssenKrupp in Budapest, Hungary where he performs duties as a Software Project Lead, Technical Lead, and Software Integrator.
Previous Experience
Before joining ThyssenKrupp, Róbert Galambos worked at Knorr-Bremse as an Embedded Software Engineer. His tenure at Knorr-Bremse spanned from 2009 to 2011, during which he focused on embedded software development.
Education and Expertise
Róbert Galambos received his Doctor of Philosophy (PhD) and Master of Science (MSc) degrees in Electrical Engineering from the Budapest University of Technology and Economics. His academic background provides a solid foundation in electrical engineering principles, bolstered by specialized studies in digital signal processing, with a focus on digital audio processing.
Technical Skills
Róbert Galambos possesses extensive experience with microcontrollers, including PPC, Atmel, PIC, and CortexMx. He is proficient in static code analysis tools such as Parasoft, Polyspace, pclint, Coverty, and QAC. He is also skilled in dynamic code analysis using tools like Parasoft and Valgrind. Additionally, he has familiarity with automotive industrial standards like MISRA and ISO-26262.
Software Development Expertise
In the realm of software development, Róbert Galambos has developed low-level drivers and CAN communication stacks. He is proficient in various programming languages such as Java, Delphi, Verilog, MATLAB, and several scripting languages. His experience also spans module/unit testing, software-in-the-loop, and hardware-in-the-loop testing.
Leadership and Project Management
Róbert Galambos is responsible for technical leadership in customer projects, planning software releases, and managing resources. He has designed and implemented solutions for cross-project problems, particularly in software architecture and process improvements. He has also developed automation tools for manual development steps and optimized tool chains for continuous integration.