IEEE 38th International Conference on

APRIL 24-26, 2018
NTUU "Igor Sikorsky Kyiv Polytechnic Institute",
Kyiv, Ukraine

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Guest speakers for ELNANO 2018:

1) Review of Model Predictive Control Method and its potential in Power Electronics applications
Sergio P. Pimentel, Dr.
Visiting researcher at Tallinn University of Technology, Tallinn (Estonia)
Professor at Federal University of Goias, Goiania (Brazil)

Dr. Pimentel is graduate in Electrical Engineering from the Federal University of Goias, Brazil (2003), master's and Ph.D. in Electrical Engineering (2011), both from the University of Campinas, Brazil (2006 and 2011, respectively). Since 2012 Dr. Pimentel has been a professor at Federal University of Goias (Goiania, Brazil), working on topics related to Renewable Energy, Linear and Nonlinear Control Systems, Power Quality, and Power Electronics Devices. During 2017-2018 season he also has been working as a visiting researcher (postdoctoral research) at Power Electronics Group from the Tallinn University of Technology (Estonia). Dr. Pimentel is a professional member of IEEE, ISES, SOBRAEP, SBA, and ABENS.

2) Remote RF Based Vital Signs Sensing: Principles and Implementation
A. Vorobyev, Dr.
VCSEM Co., Neuchatel, Switzerland

ALEXANDER V. VOROBYOV received the M.S. degree in radiophysics and electronics from Kharkiv State University, Kharkiv, Ukraine, in 2000. In 2002-2003, he was with the Department of Applied Mechanics, Kharkov Academy of Fire Safety, as an Assistant Lecturer. He was also involved with remote sensing of natural raw materials with respect to centers of self-warming up. In 2004, he joined the International Research Centre for Telecommunications-Transmission and Radar, Delft University of Technology, and in 2008 received the PhD degree in electrical engineering. In April 2008, he became a Post-Doctoral Research Associate at IETR Rennes, France, where he was involved in research on the development of automotive frontend antenna array radar system with integrated MEMS based phase shifters. Since May 2012, he is with a "Wireless Embedded Systems" group at CSEM, Switzerland as Senior R&D Engineer, mainly involved in RF propagation, RF sensing, antenna design and characterization.

3) Wave Processes in Moderately and Strongly Nonlinear and Active Hyperbolic Metamaterials and Potential Applications
Prof. Yuriy Rapoport, Taras Shevchenko National University of Kyiv, Ukraine

Yuriy Rapoport is Dr. of Physical-Mathematical Science. He is Senior research fellow with National Taras Shevchenko University of Kyiv, Physics Faculty, Astronomy and Space Physics Dept., Space Physics Laboratory. He graduated from the same university, Theoretical Physics Dept. in 1978. Ph.D. thesis: Interactions of magnetostatic, electromagnetic and acoustic waves in transversally- bounded ferromagnetics was defenced in 1986. Dr. Sci. thesis: Wave processes in layered nonlinear and active metamaterials, gyrotropic and plasma media was defenced in 2017 on the speciality: Theoretical Physics.
Scientific interests include nonlinear wave processes in the active layered and inhomogeneous media of different physical nature: metamaterials, plasma structures, system Earth-Atmosphere-Ionosphere-Magnetosphere (EAIM); mechanisms of wave coupling and synergetic processes, connected with Space Weather in the system EAIM; strongly nonlinear processes in active nonlinear hyperbolic metamaterials.


Seminar 1: Hardware acceleration of computations using Intel FPGA OpenCL technology:

By: Lampa Lab (Department of Design of Electronic Digital Equipment, Igor Sikorsky Kyiv Polytechnic Institute, Ukraine)

1) GPU vs FPGA power & processing performance comparison
2) The structure of FPGA-based OpenCL acceleration frameworks for ARM & x86 platforms
3) Example of vector-add OpenCL project for Cyclone V based DE1-SoC board (code analysis, compilation, demo work, performance analysis)
4) Survey of materials for further study

Upon completion this seminar, participants will learn how to:
1) Obtain free OpenCL compiler and boards from Intel FPGA
2) Create OpenCL applications
3) Simulate OpenCL applications
4) Adopt (recompile) Intel FPGA OpenCL driver for new boards/platforms

PhD Ievgen Korotkyi, Associate Professor of DEDEC Department
Approximate duration of the seminar: 90 minutes

Seminar 2: Discriminative Correlation Filters and their application to the Visual Object Tracking Task:

By: Digital Lab (Department of Design of Electronic Digital Equipment, Igor Sikorsky Kyiv Polytechnic Institute, Ukraine)

1) Fundamentals of Discriminative Correlation Filters (DCF)
2) Fast frequency domain solution for obtaining the DCF and its limitations
3) Known improvements of DCF
4) Example of the DCF Tracker running in real-time on embedded hardware

Upon the completion of the seminar, participants will learn:
1) What is the Discriminative Correlation Filter (DCF) and how it is applied to the visual object tracking task
2) How to rapidly construct the DCF filter in the frequency domain
3) What are the problems of construction of the DCF filter in the frequency domain and how they can be overcome

PhD Anton Varfolomieiev, Associate Professor of DEDEC Department
Approximate duration of the seminar: 60 minutes

To contact organizer: Prof. Oleksandr Lysenko,
tel. +380 44 204-93-63, 204-95-38
room 339, building 12

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