Prof Dr. Erika Abraham | Formal Methods | Best Researcher Award
Professor at RWTH Aachen University, Germany
Dr. Erika Abraham is a renowned expert in computer science, particularly in the field of hybrid systems and formal methods. With a Ph.D. from the University of Leiden, she has established herself as a leading researcher and educator. Her work spans various areas, including performance analysis tools, non-linear hybrid systems, and parameter synthesis for probabilistic verification. Dr. Abraham has received numerous awards for her contributions, such as the Brigitte-Gilles award for improving gender balance in computer science and several first-place recognitions in competitions. As a professor at RWTH Aachen University, she has taught and supervised doctoral students, demonstrating her commitment to education and knowledge dissemination. Her research has significantly impacted the field of computer science and continues to inspire advancements in technology and academia.
Professional Profiles:
Education:
Dr. Erika Abraham completed her Ph.D. at the University of Leiden, The Netherlands, in January 2005. Her research was supervised by Professors W.-P. de Roever and J. N. Kok, with co-supervision from Professors F. S. de Boer and M. Steffen. Prior to her Ph.D., she received her Diploma from the Christian-Albrechts-University of Kiel, Germany, in February 1999, with a major in Computer Science and a minor in Physics. She graduated with distinction, receiving an average mark of 1.0, which is a distinguishing award.
š£ļøWork experience:
Since 2013, Dr. Erika Abraham has served as a Full Professor at RWTH Aachen University in Germany, where she leads the research group “Theory of Hybrid Systems.” Prior to this, from 2008 to 2013, she held the position of Junior Professor at the same university, heading the junior research group “Theory of Hybrid Systems.” Dr. Abraham’s academic career includes roles as a Postdoctoral Researcher at the JĆ¼lich Research Centre in Germany from 2007 to 2008, and at the Albert-Ludwigs-University Freiburg in Germany from 2005 to 2007. She began her academic journey as a Ph.D. student at the Christian-Albrechts-University Kiel in Germany from 1999 to 2005.
Awards and patents:
Dr. Erika Abraham has received several prestigious awards and holds patents for her innovative work in computer science and related fields. She was honored with the Brigitte-Gilles award from RWTH Aachen University for her efforts in improving gender balance in computer science. Dr. Abraham was also appointed as a Guest Professor at TU Wien in March 2020. Her accomplishments extend to winning the first place in the SMT Competition for three consecutive years from 2018 to 2020, in the category QF NIRA (quantifier-free non-linear mixed integer-real arithmetic). In 2018, she also achieved first place in the Planning and Execution Competition for Logistics Robots in Simulation. Dr. Abraham’s contributions to the field have been recognized with the Best Paper Award at the CSI International Symposium on Computer Science and Software Engineering (CSSEā11) and the Best Presentation Award at the International Conference on Engineering of Complex Computer Systems (ICECCSā01). Additionally, she received a distinguishing award for her Diploma thesis from the Christian-Albrechts-University of Kiel in 1999. Furthermore, Dr. Abraham is the inventor of two patents: one for a method and system for controlling loads in a building (EP4145243A1) and another for controlling building services using a neural network (RWTH-AZ 2567). Her innovative work and contributions to the field have been recognized both nationally and internationally, highlighting her exceptional talent and dedication to advancing computer science.
Teaching experience:
Since 2008, Dr. Erika Abraham has been actively involved in teaching at RWTH Aachen University, where she conducts lectures, seminars, and practical courses for Bachelor’s and Master’s students. Annually since 2009, she has taught a lecture on Satisfiability Checking during the winter term, with an average evaluation of 1.5 (on a scale of 1-5, with 1 being the best). Similarly, since 2010, she has delivered a lecture on Modeling and Analysis of Hybrid Systems each summer term, with an average evaluation of 1.6. Additionally, Dr. Abraham conducts seminars and practical courses each semester, engaging students in various topics. In specific terms, during the summer term of 2014, she taught Data Structures and Algorithms to approximately 600 students, receiving an average evaluation of 1.7. Furthermore, in the winter term of 2017/18, she conducted a Bridging Course on the Foundations of Informatics, and in the summer term of 2020, she taught Algorithms and Data Structures (Service) to around 150 students. In addition to her undergraduate and graduate teaching, Dr. Abraham is actively involved in doctoral studies, where she conducts tutorials and courses on advanced topics in computer science. This includes tutorials on SMT Solving at various prestigious institutions such as the Marktoberdorf Summer School in Germany, the Summer School of the European Research Training Network on Reliable AI for Marine Robotics (REMARO) in Aachen, Germany, and the Summer School on Automated Reasoning in the Class (ARC) in Linz, Austria. She has also conducted doctoral courses on Reachability Analysis Techniques for Hybrid Systems at TU Wien in Austria, Modeling and Analysis of Hybrid Systems at the University of Szeged in Hungary, and Formal Methods for Hybrid Systems at the University of Genoa in Italy. Dr. Abraham’s commitment to excellence in teaching and research is reflected in her diverse and impactful contributions to the field of computer science education.
šPublications :
The Scalasca performance toolset architecture
Authors: M Geimer, F Wolf, BJN Wylie, E ĆbrahĆ”m, D Becker, B Mohr
Citations: 671
Year: 2010
Flow: An analyzer for non-linear hybrid systems*
Authors: X Chen, E ĆbrahĆ”m, S Sankaranarayanan
Citations: 666
Year: 2013
Taylor model flowpipe construction for non-linear hybrid systems
Authors: X Chen, E Abraham, S Sankaranarayanan
Citations: 269
Year: 2012
PROPhESY: A PRObabilistic ParamEter SYnthesis Tool
Authors: C Dehnert, S Junges, N Jansen, F Corzilius, M Volk, H Bruintjes, …
Citations: 149
Year: 2015
SMT-RAT: An Open Source C++ Toolbox for Strategic and Parallel SMT Solving
Authors: F Corzilius, G Kremer, S Junges, S Schupp, E ĆbrahĆ”m
Citations: 117
Year: 2015
Usage of the SCALASCA toolset for scalable performance analysis of large-scale parallel applications
Authors: F Wolf, BJN Wylie, E Abraham, D Becker, W Frings, K FĆ¼rlinger, M Geimer, …
Citations: 92
Year: 2008
HyPro: A C++ Library of State Set Representations for Hybrid Systems Reachability Analysis
Authors: S Schupp, E ĆbrahĆ”m, IB Makhlouf, S Kowalewski
Citations: 83
Year: 2017
Accelerating parametric probabilistic verification
Authors: N Jansen, F Corzilius, M Volk, R Wimmer, E ĆbrahĆ”m, JP Katoen, …
Citations: 76
Year: 2014
Verification for Javaās reentrant multithreading concept
Authors: E AbrahƔm-Mumm, FS De Boer, WP de Roever, M Steffen
Citations: 73
Year: 2002
DTMC model checking by SCC reduction
Authors: E AbrahƔm, N Jansen, R Wimmer, JP Katoen, B Becker
Citations: 66
Year: 2010
A greedy approach for the efficient repair of stochastic models
Authors: S Pathak, E ĆbrahĆ”m, N Jansen, A Tacchella, JP Katoen
Citations: 60
Year: 2015
Verification of hybrid systems: Formalization and proof rules in PVS
Authors: E ĆbrahĆ”m-Mumm, U Hannemann, M Steffen
Citations: 60
Year: 2001
Counterexample generation for discrete-time Markov models: An introductory survey
Authors: E ĆbrahĆ”m, B Becker, C Dehnert, N Jansen, JP Katoen, R Wimmer
Citations: 58
Year: 2014