Filip's main research interest is the area of probabilistic and statistical analysis in Real-Time Computing (RTC). RTC is an area of computer science that deals with systems where the correctness of the computation depends on the time when it is delivered. RTC is essential for virtually all industries at the foundation of modern society such as health-care, transportation, and manufacturing. If in such systems timing requirements are not met, i.e., if computers take action in the physical world at the wrong time, then consequences can be critical, e.g., fatal amount of radiation exposed to the patient or traffic crashes, etc.

The RTC field studies mathematical analyses to safely assess the temporal behaviour of such systems.

The probabilistic RTC field studies the use of probability theory and statistics to safely assess the temporal behaviour of cyber-physical systems. And it is super interesting.

Prior to his work on probabilistic RTC, during his PhD years, Filip has researched about preemptive scheduling, a scheduling paradigm within teal-time computing. He has also worked on:

Cache-related preemption delay estimations
Preemption Point Selection
Integration of worst-case execution time, CRPD and shedulability analysis
and many more.

[Show all publications]

[Google Scholar author page]

Latest publications:

Scheduling Elastic Applications in Compositional Real-Time Systems (Sep 2021)
Shaik Salman, Alessandro Papadopoulos, Filip Markovic, Saad Mubeen, Thomas Nolte
26th IEEE International Conference on Emerging Technologies and Factory Automation (ETFA 2021)

Adaptive Runtime Estimate of Task Execution Times using Bayesian Modeling (Aug 2021)
Anna Friebe, Filip Markovic, Alessandro Papadopoulos, Thomas Nolte
27th IEEE International Conference on Embedded and Real-Time Computing Systems and Applications (RTCSA'21)

On the Convolution Efficiency for Probabilistic Analysis of Real-Time Systems (Jul 2021)
Filip Markovic, Alessandro Papadopoulos, Thomas Nolte
33rd Euromicro Conference on Real-Time Systems (ECRTS 2021)

Improving the accuracy of cache-aware response time analysis using preemption partitioning (Jul 2020)
Filip Markovic, Jan Carlson, Sebastian Altmeyer , Radu Dobrin
The 32nd Euromicro Conference on Real-Time Systems (ECRTS 2020)

Preemption-Delay Aware Schedulability Analysis of Real-Time Systems (Jun 2020)
Filip Markovic

Cache-aware response time analysis for real-time tasks with fixed preemption points (Apr 2020)
Filip Markovic, Jan Carlson, Radu Dobrin
The 26TH IEEE Real-time and embedded Technology and Applications Symposium (RTAS'20)

Project Title	Status
FIESTA - Federated Choreography of an Integrated Embedded Systems Software Architecture	active
PARIS - Practical Probabilistic Timing Analysis of Real-Time Systems	active

PhD students supervised as assistant supervisor:

Anna Friebe

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