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Lisa Maile's research focuses on reliable, real-time, and high-performance communication in networked systems, with an emphasis on time-sensitive and real-time networking for safety-critical applications.

She investigates how theoretical modeling (e.g. Network Calculus), model-driven engineering, and resouce optimization can be combined to enable dynamic, verifiable system behavior which can be used real-world networks.

Her work addresses protocol design, flow and resource optimization, and latency analysis across heterogeneous technologies, with her main focus on Time-Sensitive Networking (TSN) and 5G. She is particularly interested in bridging the gap between research and industry, with applications in autonomous systems, industrial automation, and critical infrastructures such as smart grids.

Lisa is also a member of the IEEE 802.1 TSN Task Group and Editor of the . She contributes to the standardization of future communication technologies, promotes safe-by-design system architectures, and provides open-source tools to support reproducibility and transfer into practice.  

Behind every successful system lies meaningful research.

If you tell someone to halt, you hope they hear you and react quickly. Humans try. Machines must. I want to make sure they do: communicating reliably and in real-time.

Lisa Maile is an Assistant Professor (tenured) in the Electronic Systems group at Eindhoven University of Technology (黑料福利网). 

From 2024 to 2025, she was a postdoctoral researcher at TU Braunschweig, where she worked on contract-based system modeling and the integration of wireless and deterministic wired networks for cyber-physical systems.

She completed her PhD in Computer Science at Friedrich-Alexander-Universit盲t Erlangen-N眉rnberg with highest honors. Her dissertation, Reliable Real-Time Communication in Time-Sensitive Networking with Static and Dynamic Network Traffic, was recognized as Excellent Computer Science Dissertation by the Gesellschaft f眉r Informatik e.V. and included the development of , an open-source framework for model-based real-time flow configuration and latency analysis in TSN.

Internationally, she has held research and teaching positions at Universidad de Granada (2021) and VERIMAG / Universit茅 Grenoble Alpes (2024), where she taught on Safety-Critical and Real-Time Communication. 

She serves as TPC in various conferences, such as DATE, RTNS, RTSS, and has co-chaired the Industrial Communication Technologies and Systems Track of ETFA, the International Workshop for Network Calculus and the Junior Researcher Workshop on Real-Time Computing of RTNS. She also frequently reviews papers for IEEE journals.