Leonid Ozirkovskyy serves as the Deputy Dean and Associate Professor at Lviv Polytechnic National University, where he is a leading figure in the field of safety and reliability engineering. With a Ph.D. in this specialized area, Leonid has dedicated his career to advancing the understanding...
Leonid Ozirkovskyy serves as the Deputy Dean and Associate Professor at Lviv Polytechnic National University, where he is a leading figure in the field of safety and reliability engineering. With a Ph.D. in this specialized area, Leonid has dedicated his career to advancing the understanding and application of safety and reliability in complex systems, particularly those utilized in critical applications. His research focuses on developing innovative methods, techniques, and models that enhance the evaluation of safety and reliability indicators during the system design phase. This work is not only theoretical but has practical implications, as the results are implemented as software applications that can be utilized in various industries.
In his role, Leonid is actively involved in organizing the educational process, ensuring that students receive a comprehensive understanding of the principles of reliability and safety engineering. He delivers engaging lectures and is committed to the development of e-learning systems that facilitate modern educational practices. His expertise extends to the simulation of functional and reliability behavior in complex radioelectronic systems, equipping students and professionals alike with the skills necessary to navigate the challenges of today's technological landscape.
Leonid's skill set encompasses software development, testing, and reliability prediction, with a particular emphasis on Markov models and networking. His contributions to faculty development and program assessment further underscore his commitment to academic excellence and the continuous improvement of educational standards. As a senior researcher and consultant in reliability and safety engineering, Leonid Ozirkovskyy is at the forefront of shaping the future of complex systems, ensuring that safety and reliability remain paramount in critical applications.
