Slobodan Birgermajer

Position:Research associate

Academic Rank: Research associate in the field of technical/technological sciences, telecommunications and Information Technologies

Google Scholar

Slobodan Birgermajer is research associate in the Center for Sensing Technologies at the BioSense Institute. Mr. Birgermajer received his PhD in microware electronics form the Faculty of Technical Sciences, University of Novi Sad, in 2019. He is currently working on development and application of the sensors in agriculture, food industry, and environmental monitoring, and he is actively involved in many H2020 projects such as ANTARES, IPANEMA SHealty, etc. His main research interest includes microwave passive devices, photonic crystals, microfluidic sensors, and 3D and 4D printing.

Center:

CST

Themes:

1. Plant-O-Meter – low-cost portable multispectral optical device for precise plant status assessment

2. Agrobot for in-field soil analysis

3. FastMast – instrument for early detection of mastitis

4. Environmental monitoring applications

5. AgroSense

6. Government

Projects:

1. ANTARES- Centre of Excellence for Advanced Technologies in Sustainable Agriculture and Food Security

2. IPANEMA – Integration of PAper-based Nucleic acid testing mEthods into Microfluidic devices for improved biosensing Applications

3. agROBOfood- Business-Oriented Support to the European Robotics and Agri-food Sector, towards a network of Digital Innovation Hubs in Robotics

4. SHEALTHY- Non-Thermal physical technologies to preserve fresh and minimally processed fruit and vegetables

5. Development of the device for measurement and mapping of nitrogen as the most important parameter in sustainable agriculture

6. Optimization of sampling location and number of soil samples based on processing of satellite images of plots and zoning in order to reduce costs

7. The use of satellite images during the growing season in order to visualize crop variation and develop maps for rational variable nitrogen supplementation

8. Analysis of collected data using unmanned aerial vehicles

9. Application of modern information technologies in vocational agricultural schools and agricultural stations

10. Detection of usurped state-owned agricultural land and detection of burning of crop residues on the territory of APV

11. AgroSense APV

12. Code: Re-farm – Consumer-driven demands to reframe farming systems

13. FLEXIGROBOTS-Flexible robots for intelligent automation of precision agriculture operations

14. DIATOMIC- Digital Innovation Hubs boosting European Microelectronics Industry

15. IoF2020 – Internet of Food and Farm 2020

16. KATANA – Emerging industries as key enablers for the adoption of advanced technologies in the agrifood sector

17. Smart-AKIS- European Agricultural Knowledge and Innovation Systems (AKIS) towards innovation-driven research in Smart Farming Technology

18. Development of 3D-printing functional materials and magnetic components prototyping

19. EUREKA WaQuMoS – Water Quality Monitoring System with Multi-Parameter IoT Sensor Nodes for Proactive Water Resource Management, 2019-2022, E!13044

20. CleanNanoCatalyze – In situ pollutants removal from waters by sustainable green nanotechnologie

Publications:

1. S. Birgermajer, N. Janković, V. Radonić, V. Crnojević-Bengin, M. Bozzi, “Microstrip-Ridge Gap Waveguide Filter Based on Cavity Resonators With Mushroom Inclusions,” IEEE Trans. Microw. Theory Tech., vol. 66, no. 1, pp. 136–146, Jan. 2018. DOI: 10.1109/TMTT.2017.2750149
2. Vasa Radonić, Goran Kitić, Slobodan Birgermajer, “Microfluidic EBG Sensor Based on Phase-Shift Method Realized Using 3D Printing Technology”, Sensors 2017, 17(4), 892; DOI: 10.3390/s17040892
3. Kitić, G., Tagarakis, A., Cselyuszka, N., Panić, M., Birgermajer, S., Sakulski, D., Matović, J., “A new low-cost portable multispectral optical device for precise plant status assessment”, Computers and Electronics in Agriculture, 162, 300–308, April 2019, DOI: 10.1016/j.compag.2019.04.021
4. S. Birgermajer, N. Janković, V. Crnojević-Bengin, and V. Radonić, “Millimetre-Wave Dual-Mode Filters Realized in Microstrip-Ridge Gap Waveguide Technology,” Int. J. Infrared Millimeter Waves, 40, 1, 92-107 Jan. 2019. DOI: 10.1007/s10762-018-0550-y
5. Kojić, S., Birgermajer, S., Radonić, V. et al. Optimization of hybrid microfluidic chip fabrication methods for biomedical application. Microfluid Nanofluid 24, 66 (2020), DOI: 10.1007/s10404-020-02372-0

Patent:

- System and method for intelligent soil sampling