| 1. | Basic data on the field of the habilitation proceeding and the inauguration proceeding (hereinafter referred to as the "HPaIP field") | ||
| Name of the University | University of Žilina (UNIZA) | ||
| Name of the Faculty/Workplace | Faculty of Electrical Engineering and Information Technology | ||
| Name of the HPaIP field | Electrotechnologies and Materials | ||
| Awarded title | Associate Professor (Slovak abbr.: doc.), Professor (Slovak abbr.: prof.) | ||
| University Authority for Approval of the HPaIP field | UNIZA Accreditation Committee | ||
| Number of the decision on granting the right to carry out HPaIP (from the old accreditation) | 2018/10524:29-15A0 (14.08.2018) https://www.portalvs.sk/sk/hai/zobrazit/1830 | ||
| Reference to the result of the last periodic review of the HPaIP field by the University | |||
| 2. | Definition of the HPaIP field |
| a | Name and definition of the content of the HPaIP field (draw the content definition from the description of the field of study to which the HPaIP field is assigned – state the main topics of the core knowledge of the field of study from the Decree No. 244/2019 Coll. of the Ministry of Education, Science, Research and Sports of the Slovak Republic on the system of fields of study in the Slovak Republic) |
The core topics of the study field are knowledge related to electrical engineering, electronics, microelectronics and nanoelectronics, organic electronics, photonics and optoelectronics, sensors, autotronic systems and the Internet of Things (IoT), power engineering and measurement technology, lighting technology, materials and technologies for electrical engineering and electronics, theoretical electrical engineering, theory of circuits and systems, methods of processing and transmission of analog and digital signals, low and high frequency electronic circuits and systems. The core also includes knowledge of processes, equipment and systems for the production, conversion, distribution and storage of electricity, power electronic systems and circuits, electric drives and their control. The study also reflects on knowledge about biomedical engineering, sensors, sensors and measuring technology, principles and design of electrical machines and devices, as well as their programming and control, technical applications of electromagnetic field theory, electromagnetic compatibility and physical engineering. . Relevant electrophysical models are used in modeling and simulation, which have a significant application in the design of new semiconductor structures or for the interpretation of the results obtained. The core of knowledge also includes basic knowledge of information and communication technologies and a scientific outlook. The individual core topics of the core are developed on the basis of the specific specialization of the relevant multidisciplinary study program. |
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| b | Name of the field of study (1 or 2) to which the HPaIP field is assigned (description of the field of study (1 or 2) from the Decree No. 244/2019 Coll. of the Ministry of Education, Science, Research and Sports of the Slovak Republic on the system of fields of study in the Slovak Republic) |
HPaIP Electrotechnologies and Materials assigned to the study field 9. Electrical engineering |
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| c | The content definition of the HPaIP field must be as close as possible to the field of study (1 or 2) to which it is assigned (indicate here the area and scope of knowledge for the third level (point 4) from the Decree No. 244/2019 Coll. of the Ministry of Education, Science, Research and Sports of the Slovak Republic on the system of fields of study in the Slovak Republic) |
Applicant for HPaIP masters the methods of analysis and synthesis, can apply them in the implementation of basic and applied research in a selected area of ??study. He has extensive knowledge of theories, sophisticated methods and procedures of science at a level corresponding to international criteria in the field of electrical engineering and electronic engineering. He has a systematic, comprehensive and comprehensive set of knowledge from several areas of the field of study, which serves as a basis for research and development and the creation of new knowledge in technical, high-current electrical engineering, energy, electrical technology and materials, power and signal electronics, control systems hardware, microelectronics and nanoelectronics, power engineering, photonics, biomedical and physical engineering and measurement technology. He uses this knowledge in the education of new professionals. The applicant for HPaIP is able to actively acquire new knowledge and information, critically analyze and re-evaluate them and use them in theory and in practical applications for the development of the field of study. The applicant for HPaIP is able to formulate new hypotheses and strategies for further research and development of the field of study. He applies his own findings of his theoretical analysis and his comprehensive scientific research in solving problems in this area. Based on its outputs and findings, it is able to design, verify and implement new research and working procedures. He practically masters the chosen research methods and uses them in search of new technologies, technical details and important interactive system links. Can perform research, analysis, measurement, data collection and processing, can use advanced methods and tools for computer modeling and process simulation. He can lead a research team. Applicant for HPaIP is characterized by independent, critical and analytical thinking with a subsequent synthesis of new ideas and innovative practices, which he applies in changing conditions. Can plan, initiate solutions to complex problems, including the formulation of goals, means and methods. It takes into account social, scientific and ethical aspects when formulating research intentions and interpreting research results. It independently presents the results of research and development to the professional community. He is able to formulate engineering-physical-technological problems and bring their solutions to practical implementations, he has qualified skills to independently solve scientific projects and lead a team of experts, determine the focus of research and coordinate the implementation team in the relevant scientific field. |
| 3. | Level of education in the HPaIP field |
| a | The fact confirming that UNIZA is entitled to design, deliver and modify third-level study programmes in the field of study to which the HPaIP field is assigned.
(If it is assigned to 2 fields of study, the University must have the above-mentioned rights in both fields of study). (https://www.portalvs.sk/sk/) for relevant field(s) of study in a form of a link |
3rd degree Electrotechnologies and Materials: https://www.portalvs.sk/sk/studijny-program/elektrotechnologie-a-materialy - full-time https://www.portalvs.sk/sk/studijny-program/elektrotechnologie-a-materialy0 - part-time |
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| b | The fact confirming that UNIZA delivers a third-level study programme, a second-level study programme or a study program combining the first degree and the second degree in the field of study or fields of study to which the HPaIP field is assigned Provide a list of delivered relevant study programmes for the given field of study from the University Portal (Portal VS) |
Electro-optic
https://www.portalvs.sk/en/studijny-program/elektrooptika0
Photonics
https://www.portalvs.sk/sk/studijny-program/fotonika1
Electrotechnologies and Materials
https://www.portalvs.sk/sk/studijny-program/elektrotechnologie-a-materialy
Electrotechnologies and Materials
https://www.portalvs.sk/sk/studijny-program/elektrotechnologie-a-materialy0 |
| 4. | Persons responsible for the field of habilitation proceedings and inauguration proceedings | ||
| a | HPaIP guarantors who are responsible for the development and quality assurance of the HPaIP field | ||
| 1. Name, surname, titles (the main guarantor appointed by the Dean / Rector): Dušan Pudiš prof. Ing. PhD. Function: Head of the Department of Physics, functional position: profesor Contact (mail, phone): dusan.pudis@uniza.sk, +421 41 513 2300, 2234 Link to the universities portal (staff register): https://www.portalvs.sk/regzam/detail/10070 Link to the Scientific and Artistic Pedagogical Characteristics (SAPCH): https://akreditacia.uniza.sk/formview.php?f=vupch&id=50140 Link to the Outputs of Creative Activity (OCA): https://akreditacia.uniza.sk/formview.php?f=vtc&id=50140 |
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| Name and surname of other guarantors of the HPaIP field |
Position (Assoc. prof. / prof.) in the field of activity |
Additional information | |
| 2. Martinček Ivan prof. Mgr. PhD. |
prof. |
Contact (mail, phone): ivan.martincek@uniza.sk, +421 41 513 2343 Link to the universities portal (staff register): https://www.portalvs.sk/regzam/detail/10071 Link to the Scientific and Artistic Pedagogical Characteristics (SAPCH): https://akreditacia.uniza.sk/formview.php?f=vupch&id=50008 Link to the Outputs of Creative Activity (OCA): https://akreditacia.uniza.sk/formview.php?f=vtc&id=50008 |
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| 3. Kúdelčík Jozef, prof. RNDr. PhD |
prof. |
Contact (mail, phone): jozef.kudelcik@uniza.sk, +421 41 513 2310 Link to the universities portal (staff register): https://www.portalvs.sk/regzam/detail/10201 Link to the Scientific and Artistic Pedagogical Characteristics (SAPCH): https://akreditacia.uniza.sk/formview.php?f=vupch&id=8002 Link to the Outputs of Creative Activity (OCA): https://akreditacia.uniza.sk/formview.php?f=vtc&id=8002 |
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| 4. Káčik Daniel, doc. Ing. PhD. |
doc. |
Contact (mail, phone): daniel.kacik@feit.uniza.sk +421 513 2323 Link to the universities portal (staff register): https://www.portalvs.sk/regzam/detail/10005 Link to the Scientific and Artistic Pedagogical Characteristics (SAPCH): https://akreditacia.uniza.sk/formview.php?f=vupch&id=99144 Link to the Outputs of Creative Activity (OCA): https://akreditacia.uniza.sk/formview.php?f=vtc&id=99144 |
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| 5. Tarjányi Norbert, doc. Ing. PhD. |
doc. |
Contact (mail, phone): norbert.tarjanyi@feit.uniza.sk, +421 513 2368 Link to the universities portal (staff register): https://www.portalvs.sk/regzam/detail/9920 Link to the Scientific and Artistic Pedagogical Characteristics (SAPCH): https://akreditacia.uniza.sk/formview.php?f=vupch&id=50158 Link to the Outputs of Creative Activity (OCA): https://akreditacia.uniza.sk/formview.php?f=vtc&id=50158 |
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| b | Composition of the Scientific Council of the Faculty with indication of the field of activity according to the valid legislation (If the habilitation proceedings and inauguration proceedings take place at a Faculty, the Scientific Council of the relevant Faculty shall consist of significant experts, at least one of whom has the professional capacity to evaluate the habilitation proceedings and inauguration proceedings in the relevant HPaIP field or in the field of study (fields of study) to which it is assigned and their division into domestic and external members in the prescribed ratio of at least one quarter and at most one third of the external members and with indication of their field of activity.) |
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| Composition of the UNIZA Scientific Council with indication of the field of activity according to the valid legislation (The UNIZA Scientific Council shall consist of significant experts, at least one of whom has the professional capacity to evaluate the habilitation proceedings and inauguration proceedings in the relevant HPaIP field or in the field of study (fields of study) to which it is assigned and their division into domestic and external members in the prescribed ratio of at least one quarter and at most one third of the external members and with indication of their field of activity.) |
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https://uniza.sk/index.php/graduacny-rast-vedecka-rada-uniza-zlozenie |
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| 5. | Level of research, artistic and other activities in the HPaIP field and level of quality culture of UNIZA | ||
| a | List of the most significant 25 outputs of a group of 5 persons
documenting the implementation of long-term and continuous research, artistic and other activities in the HPaIP field, the intensity and extend of which correspond to the nature of these proceedings and whose results are on an internationally significant level. (for each person there must be at least 2 outputs from the period of the last 6 years prior to the year in which the relevant accreditation application was submitted, ensuring the availability of records of the submitted outputs in databases and registers and compliance with other provisions of the standards). The output is presented in the form of a bibliographic record and must correspond to the outputs that are listed in the Research/Art/Teacher Profile (in Slovak VUPCH) and Research/Artistic/Other Output (in Slovak VTC). |
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| 1. prof. Ing. Dušan Pudiš, PhD. https://orcid.org/0000-0002-3560-562X https://www.webofscience.com/wos/author/record/485651 https://www.scopus.com/authid/detail.uri?authorId=6506209426 |
1.output Pudiš D., Urbancová P., Novák J., Kuzma A., Lettrichová I., Goraus M., Eliáš P., Laurenčíkova A., Jandura D., Šušlik Ľ., Hasenöhrl S. Near-field analysis of GaP nanocones, In: Applied Surface Science, Roč. 539 (2021) 148213. ISSN 0169-4332. [SCOPUS, CCC , WoS IF2020 = 6,707 Q1; WoS - 0 citácie, Scopus – 0 citácie] Author's share: 25% https://doi.org/10.1016/j.apsusc.2020.148213 2.output Gašo P., Pudiš D., Seyringer D., Kuzma A., Gajdošová L., Mizera T., Goraus M., 3D polymer based 1x4 beam splitter, In: Journal of Lightwave Technology, Roč. 39 (2020) 154-161. ISSN 0733-8724. [SCOPUS, CCC , WoS IF2020 = 4.142 Q1; WoS - 1 citácie, Scopus – 1 citácie] Author's share: 25% https://doi.org/10.1109/JLT.2020.3026170 3.output Lettrichová I., Pudiš D., Laurenčíková A., Novák J., Kuzma A., Goraus M., Gašo P., Jandura D., Near and far-field analysis of Fresnel structure applied in the LED surface, In: Applied Surface Science, Roč. 531 (2020) 147300. ISSN 0169-4332. [KIS, SCOPUS, CCC , WoS IF2020 = 6.707 Q1; WoS - 1 citácie, Scopus – 1 citácie] Author's share: 20% https://doi.org/10.1016/j.apsusc.2020.147300 4.output Urbancová P., Pudiš D., Kuzma A., Goraus M., Gašo P., Jandura D., IP-Dip-based woodpile structures for VIS and NIR spectral range – complex PBG analysis, In: Optical Materials Express, Roč. 9, (2019) 4307-4317. ISSN 2159-3930. [SCOPUS, CCC , WoS IF2020 = 3.064 Q1; WoS - 3 citácie, Scopus – 3 citácie] Author's share: 20% https://doi.org/10.1364/OME.9.004307 5.output Hlubina P., Urbancová P., Pudiš D., Goraus M., Jandura D., Ciprian D., Ultrahigh-sensitive plasmonic sensing of gas using a two-dimensional dielectric grating, In: Optical Letters, Roč. 44, (2019) 5602-5605. ISSN 0146-9592. [SCOPUS, CCC , WoS IF2020 = 3.714 Q1; WoS - 3 citácie, Scopus – 3 citácie] Author's share: 10% https://doi.org/10.1364/OL.44.005602 | ||
| 2. prof. Mgr. Ivan Martinček, PhD. https://orcid.org/0000-0003-0887-2551 https://www.webofscience.com/wos/author/record/1051780 https://www.scopus.com/authid/detail.uri?authorId=12241394200 |
1.output Martinček I., Káčik D., Horák J.: Interferometric optical fiber sensor for monitoring dynamic railway traffic, In: Optics and laser technology, Roč. 140 (2021), 107069. ISSN 0030-3992. [SCOPUS, CCC , WoS IF2021 = 3.867 Q1; WoS - 3 citácie, Scopus – 3 citácie] Author's share: 49% https://doi.org/10.1016/j.optlastec.2021.107069 2.output Martinček I., Bánovčin P., Goraus M., Ďuriček M.: USB capsule endoscope for retrograde imaging of the esophagus, In: Journal of Biomedical Optics, Roč. 25 (10), (2020), ISSN 1083-3668. [SIGN-UKO, SCOPUS, MEDLINE , CCC, BIOSIS Citation Index, Science Citation Index Expanded, WoS IF2020 = 3.17 Q2; WoS - 2 citácie, Scopus – 2 citácie] Author's share: 30% https://doi.org/10.1117/1.JBO.25.10.106002 3.output Martinček I., Pudiš D.: D-shaped core polysiloxane waveguide with surface relief Bragg grating, In: Optik, Roč. 127 (20) (2016), s. 10031-10035. ISSN 0030-4026. Zaradené v: Current Content Connect [SCOPUS, CCC, WoS IF2016 = 0.835 Q4; WoS - 0 citácií, Scopus – 0 citácií] Author's share: 60% https://doi.org/10.1016/j.ijleo.2016.07.085 4.output Martinček I.: Fabrication and characterisation of polysiloxane optical fiber microloop interferometers, In: Microwave and optical technology letters, Roč. 58 (12) (2016), s. 2876-2879. ISSN 0895-2477. [SCOPUS, CCC, WoS IF2016 = 0.731 Q4; WoS - 2 citácie, Scopus – 2 citácie] Author's share: 100% https://doi.org/10.1002/mop.30175 5.output Martinček I., Pudiš D.: Variable liquid-core fiber optical attenuator based on thermo-optical effect, In: Journal of lightwave technology, Roč. 29 (2011), 2647-2650. ISSN 0733-8724. [SCOPUS, CCC, WoS IF2011 = 2.784 Q1; WoS - 3 citácie, Scopus – 3 citácie] Author's share: 60% https://opg.optica.org/jlt/abstract.cfm?uri=jlt-29-17-2647 | ||
| 3. prof. RNDr. Jozef Kúdelčík, PhD. https://orcid.org/0000-0003-3470-7998 https://www.webofscience.com/wos/author/record/970637 https://www.scopus.com/authid/detail.uri?authorId=23108976600 |
1.output Kúdelčík J., Hardoň Š., Trnka P., Michal O., Hornak J.: Dielectric Responses of Polyurethane/Zinc Oxide Blends for Dry-Type Cast Cold-Curing Resin Transformers, In: POLYMERS, Roč: 13, č. 3(2021), 375. ISSN 2073-4360. [SCOPUS, CCC , WoS IF2020 = 4.329, Q1, WoS – 0 citácií, Scopus – 0 citácií] Author's share: 50% https://doi.org/10.3390/polym13030375 2.output Kúdelčík J., Hardoň Š., Bury P., Timko M., Kopčanský P., Mitróová Z.: Acoustic spectroscopy of functionalized carbon nanotubes in magnetic fluid, In: Journal of Magnetism and Magnetic Materials. Roč. 502, 166538 (2020), s. [1-5]. ISSN 0304-8853. [SCOPUS, CCC, WoS IF2020 = 2.993 Q2, WoS – 0 citácií, Scopus – 0 citácií] Author's share: 58% https://doi.org/10.1016/j.jmmm.2020.166538 3.output Zemanek M., Přibyl R., Kelar J., Pazderka M., Šťastný P., ?údelčík J., Trunec M., Černák M.: Electrical properties of alumina-based ceramic barrier layers for dielectric barrier discharge. In: Plasma Sources Science and Technology. Roč. 28, č. 7 (2019), 075001. ISSN 0963-0252. [SCOPUS, CCC , WoS IF2019= 3.193 Q1, WoS - 1 citácia, Scopus – 1 citácia] Author's share: 50% https://doi.org/10.1088/1361-6595/ab28fa 4.output Kúdelčík J., Bury P., Kopčanský P., Timko M.: Structure of nanoparticles in transformer oil-based magnetic fluids, anisotropy of acoustic attenuation In: : Journal of Magnetism and Magnetic Materials. Roč. 388 (2015), s. 28-34]. ISSN 0304-8853. [SCOPUS , CCC , WoS IF2015 = 2.357 Q2, WoS – 8 citácií, Scopus – 5 citácií] Author's share: 50% https://doi.org/10.1016/j.jmmm.2015.04.031 5.output Kúdelčík J., Bury P. Drga J., Kopčanský P., Závišová V. Timko M.: Structure of transformer oil-based magnetic fluids studied using acoustic spectroscopy, In: Journal of Magnetism and Magnetic Materials. Roč. 326, č. 1 (2013), s. 75-80. ISSN 0304-8853. [Scopus, CCC, WoS IF2013 = 2.002, Q2, WoS - 11 citácií, Scopus – 9 citácií] Author's share: 40% https://doi.org/10.1016/j.jmmm.2012.09.001 | ||
| 4. doc. Ing. Daniel Káčik, PhD. https://orcid.org/0000-0002-0483-5393 https://www.webofscience.com/wos/author/record/1509667 https://www.scopus.com/authid/detail.uri?authorId=56008162100 |
1.output Martinček I., Káčik D.: A PDMS microfiber Mach-Zehnder interferometer and determination of nanometer displacements, In: Optical Fiber Technology, Roč. 40 (2018), s. 13 – 17. ISSN 1068-5200. [Scopus, CCC, WoS IF2018 = 1,824, Q3, WoS - 8 citácií, Scopus – 8 citácií] Author's share: 50%. https://doi.org/10.1016/j.yofte.2017.10.006 2.output Káčik D., Martinček I.: Toluene optical fibre sensor based on air microcavity in PDMS, In: Optical Fiber Technology, Roč. 34 (2017) pp. 70 – 73. ISSN 1068-5200. [Scopus, CCC, WoS IF2017 = 1,35, Q3, WoS - 11 citácií, Scopus – 13 citácií] Author's share: 60%. https://doi.org/10.1016/j.yofte.2017.01.006 3.output Káčik D., Tatar P., Turek I.: Locally pressed etched optical fiber with PDMS coating for a sensor application, In: Optik, Roč.. 127(14) (2016), s. 5631-5635, 2016, ISSN 0030-4026. [Scopus, CCC, WoS IF2016 = 0,835, Q4, WoS - 6 citácií, Scopus – 6 citácií] Author's share: 80%. https://doi.org/10.1016/j.ijleo.2016.03.082 4.output Tatar P., Káčik D., Tarjányi N.: Fluorescein filled photonic crystal fiber sensor for simultaneous ultraviolet light and temperature monitoring, In: Optical Fiber Technology, Roč. 30 (2016), s. 8–11 ISSN 1068-5200. [Scopus, CCC, WoS IF2016 = 1,678, Q2, WoS - 4 citácií, Scopus – 7 citácií] Author's share: 33%. https://doi.org/10.1016/j.yofte.2016.01.010 5.output Káčik D., Turek I., Martinček I., Canning J., Issa N.A., Lyytikäinen K.: Intermodal interference in a photonic crystal fibre, In: Optics Express, Roč. 12(15) (2004), s. 3465-3470 ISSN 1094-4087. [Scopus, CCC, WoS IF2004 = 3,797, Q1, WoS - 29 citácií, Scopus – 36 citácií] Author's share: 25%. https://doi.org/10.1364/OPEX.12.003465 | ||
| 5. doc. Ing. Norbert Tajányi, PhD. https://orcid.org/0000-0002-2032-5158 https://www.webofscience.com/wos/author/record/34873828 https://www.scopus.com/authid/detail.uri?authorId=19639496100 |
1.output Tarjányi N., Veveričík M., Káčik D., Timko M., Kopčanský P.: Birefringence dispersion of 6CHBT liquid crystal determined in VIS-NIR spectral range, In: Applied Surface Science, Roč. 542, (2021), 48525. ISSN 0169-4332. [Scopus, CCC, WoS IF2020 = 6.707, Q1, WoS – 0 citácií, Scopus – 0 citácií]. Author's share: 35% https://doi.org/10.1016/j.apsusc.2020.148525 2.output Tarjányi N., Káčik D.: Dichromatic properties of a magnetic fluid thin layer, In: Optik, Roč. 244, (2021), 167562. ISSN 0030-4026. [Scopus, CCC, WoS IF2020 = 2.443, Q2, WoS – 1 citácia, Scopus – 1 citácia]. Author's share: 60% https://doi.org/10.1016/j.ijleo.2021.167562 3.output Tarjányi N., Turek I., Martinček I.: Effect of mechanical stress on optical properties of polydimethylsiloxane II – Birefringence, In: Optical Materials, Roč. 37, (2014), s. 798-803. ISSN 0925-3467. [Scopus, CCC, WoS, IF2014 = 2.221, IF2020 = 3.08, Q2, WoS – 7 citácií, Scopus – 8 citácií] Author's share: 40% https://doi.org/10.1016/j.optmat.2014.09.010 4.output Turek I., Tarjányi N., Martinček I., Káčik D.: Effect of mechanical stress on optical properties of polydimethylsiloxane, In: Optical Materials, Roč. 36 (5), (2014), s. 965-970. ISSN 0925-3467. [Scopus, CCC, WoS IF2014 = 2.221, IF2020 = 3.08, Q2, WoS – 20 citácií, Scopus – 19 citácií] Author's share: 35% https://doi.org/10.1016/j.optmat.2013.12.049 5.output Turek I., Tarjányi N.: Investigation of symmetry of photorefractive effect in LiNbO3, In: Optics Express, Roč. 15 (17), s. 10782-10788, (2007). ISSN: 1094-4087. [Scopus, CCC, WoS, IF2007 = 4.883, IF2020 = 3.894, Q1, WoS – 8 citácií, Scopus – 10 citácií] Author's share: 50% https://doi.org/10.1364/OE.15.010782 | ||
| b | UNIZA is entitled to design, deliver and modify the third-level study programmes in at least half of the fields of study in which it provides higher education (Note: this is common for all descriptions of the HPaIP fields – inserted by the R&D Rectorate) | ||
| Name of the field of study | Level of study (1st, 2nd, 3rd) | ||
| Ecological and Environmental Sciences | 1., 2. | ||
| Mechanical Engineering | 1., 2., 3. | ||
| Informatics | 1., 2., 3. | ||
| Cybernetics | 1., 2., 3. | ||
| Electrical Engineering | 1., 2., 3. | ||
| Geodesy and Cartography | 1. | ||
| Civil Engineering | 1., 2., 3. | ||
| Transport | 1., 2., 3. | ||
| Economics and Management | 1., 2., 3. | ||
| Media and Communication Studies | 1., 2., 3. | ||
| Teaching and Pedagogical Sciences | 1., 2. | ||
| Security Sciences | 1., 2., 3. | ||
| Of the 12 fields of study, 9 are third-level fields of study, which represents 75% of the total number of harmonised fields of study. | |||
| c | Periodic review of research, development, artistic and other creative activities: | ||
| Link to the evaluation report of the complex accreditation of UNIZA activities, year 2015: http://www.akredkom.sk/zapis/884fo/prku88612.pdf | |||
| 6. | Criteria for reviewing compliance of conditions for obtaining the title associate professor |
| Link to currently accepted and publicly available criteria for evaluating the compliance with the conditions for obtaining the title of associate professor, which are in accordance with generally binding regulations, and a link to previous versions of the criteria with indication of their validity | |
Link to the currently accepted criteria at the website of the Faculty/UNIZA (Criteria valid from 20/04/2022): Link to the previously accepted criteria indicating their validity (Criteria valid until 20/04/2022): https://feit.uniza.sk/wp-content/uploads/2022/07/Kriteria_HK-IK_platne-od-11-2021_AJ.pdf | |
| 7. | Criteria for reviewing compliance of conditions for obtaining the title professor |
| Link to currently accepted and publicly available criteria for evaluating the compliance with the conditions for obtaining the title of professor, which are in accordance with generally binding regulations, and a link to previous versions of the criteria with indication of their validity | |
Link to the currently accepted criteria at the website of the Faculty/UNIZA (Criteria valid from 20/04/2022): Link to the previously accepted criteria indicating their validity (Criteria valid until 20/04/2022): https://feit.uniza.sk/wp-content/uploads/2022/07/Kriteria_HK-IK_platne-od-11-2021_AJ.pdf | |
| 8. | Rules and procedures of habilitation proceedings and inauguration proceedings |
| a | Currently established and publicly available rules and procedures of the habilitation proceedings and the inauguration proceedings |
| UNIZA Directive No. 211 Procedure for obtaining scientific-pedagogical and artistic-pedagogical titles associate professor and professor at UNIZA https://www.uniza.sk/images/pdf/kvalita/EN/smernica-UNIZA-c-211-en.pdf | |
| Rules of Procedure of the Faculty Scientific Council and the UNIZA Scientific Council https://uniza.sk/images/pdf/graduacny-rast/2022/rokovaci-poriadok-VR-UNIZA-v-zneni-dodatkov-1-9.pdf | |
| Previously established and publicly available rules and procedures of the habilitation proceedings and the inauguration proceedings with indication of validity | |
| Methodological guideline No. 8/2016 Procedure for obtaining scientific-pedagogical titles or artistic-pedagogical titles associate professor and professor at the University of Žilina in Žilina https://www.uniza.sk/images/pdf/graduacny-rast/2022/postup-ziskavania-doc-prof-metodicke-usmernenie-8-2016.pdf | |
| b | |
Link to completed habilitation and inauguration proceedings in the relevant HPaIP department and their result | |
Link to existing habilitation and inauguration proceedings in the relevant HPaIP department none |