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Miriam Gonzalez-Atienza
Also published under:Miriam González Atienza
Affiliation
Mechatronics Group, and the Flanders Make, ESAT-WaveCoRE, KU Leuven, Bruges, Belgium
Topic
Electromagnetic Environment,Electromagnetic Interference,Signal-to-interference Ratio,Bayesian Algorithm,Decision Algorithm,Harsh Environments,Printed Circuit Board,Adaptation Decisions,Bayesian Decision,Bellman Equation,Bitrate,Data Symbols,Decoding,Electromagnetic Compatibility,Finite-difference Time-domain,Gaussian Mixture Model,Harsh Electromagnetic Environment,Lookup Table,Markov Decision Process,Observation Matrix,Performance Of Algorithm,Plane Wave,Polar Angle,Posterior Probability,Safety Systems,Symbol Error Rate,Value Iteration,Absorbing Boundary Conditions,Access System,Active Control,Adaptive Algorithm,Adaptive Learning,Additive Noise,Alarm System,Assignable Cause,Average Accuracy,Azimuth Angle,Base Station,Bit Error,Bit Error Rate,Bitstream,Blood Glucose,Blood Glucose Measurements,Blue Box,Box In Fig,CPU Time,Classification Accuracy,Communication Channels,Communication Errors,Communication Systems,
Biography
Miriam González Atienza (Graduate Student Member, IEEE) received the bachelor’s degree in telecommunication engineering and the master’s degree in physics and mathematics from the University of Granada (UGR), Granada, Spain, in 2020 and 2021, respectively.
Since 2021, she is a Ph.D. Researcher within the Marie Skłodowska-Curie Actions’ Eternity Project at the Department of Electrical Engineering, KU Leuven, Bruges Campus, Bruges, Belgium. She is currently working on the Application of system thinking and system safety to EMI risk assessment of medical applications. Her project focuses on the characterization of the electromagnetic-interferencerelated risks, stemming from the operating electromagnetic environment and the susceptibility of the specific medical system.
Since 2021, she is a Ph.D. Researcher within the Marie Skłodowska-Curie Actions’ Eternity Project at the Department of Electrical Engineering, KU Leuven, Bruges Campus, Bruges, Belgium. She is currently working on the Application of system thinking and system safety to EMI risk assessment of medical applications. Her project focuses on the characterization of the electromagnetic-interferencerelated risks, stemming from the operating electromagnetic environment and the susceptibility of the specific medical system.