Recognized scientific authority of the Institute's specialists at the University, in the country and abroad. The research results are relevant to Lithuanian manufacturing, wellness equipment, microtechnology, mechatronics, polygraphy companies such as Precizika Metrology UAB, Dovaina, Metec, Artmedica and others.  They are used in the development of new materials processing technologies and wireless devices, sensors / actuators, human health devices, bio-parametric measurements and monitoring.

In 2012-2014 the Eurostars joint project“ „Moinfo“ was carried out together with join venture company Baltic CNC Technologies. in 2011-2015 the FP-6 project „Manufuture 2013“ was carried out with LINPRA, which led to the identification of „Horizon 2020“ priorities with the European Commission during the International event in Vilnius. Dozens of Lithuanian and 2 international patent certificates have been obtained as a result of the collaboration with business partners.

[/vc_column_text][/vc_tta_section][vc_tta_section title="PhD theses and impact" tab_id="PhD-theses-and-impact"][vc_row_inner][vc_column_inner][vc_column_text]

Scholarship - Bialystok University of Technology

[/vc_column_text][vc_column_text]As a part of the project titled: International scholarship exchange of doctoral students and academic staff (PROM) financed from the National Academic Exchange Agency (NAEA) program, Institute of Mechatronics Ph.D. student Paulius Karpavicius - performed an internship at Bialystok Technical Universities, Faculty of Mechanical Engineering. Paulius Karpavicius in his doctoral thesis investigates the mechanical vibration energy harvesting system for monitoring of rotating tool condition during machining operation. During the two-weeks internship from June 24 to July 5, 2019 at the Faculty of Mechanical Engineering of the Bialystok University of Technology Paulius Karpavicius continued simulation research and experimental verification of the milling tool condition monitoring system under the supervision of dr. hab. eng. Arkadiusz Mystkowski from the Department of Automatic Control and Robotics. The topic of the work is development of a self-powered rotating tool condition monitoring system. In this system, the electrical energy required to power the systems electronics is harvested from the mechanical vibration of the tool using piezoelectric transducer during machining operation. In particular, the harvested electrical energy is enough to power up the low-current Bluetooth module that provides a real-time transition of data concerning tool condition to a Bluetooth enabled smart device. The developed system is able to predict the wear of the cutting tool and to monitor other parameters of the CNC machine.  One of the example of the domestic application can be a cutting tool vibration monitoring during milling process, where the operator receives urgent data about the milling process parameters on a smartphone application. In the system under development, the self-powered monitoring system with a piezoelectric transducer and a Bluetooth module is integrated in the milling knife holder. During the cutting process, a higher wear of the milling cutter generates a greater amplitude of vibrations and thus a higher electrical voltage is generated by deformation of the piezoelectric transducer. The research conducted at the Faculty of Mechanical Engineering of the Bialystok University of Technology concerns the experimental verifications and measurement of the torsional and radial vibrations (in two axis) of the milling tool holder and the measurement of the vibration harvested energy. Tests were performed for various parameters of the machining process, including different wear modes of the milling cutter. The combination of measurements results, their processing and analysis will allow us to obtain a machine tool vibration signal estimator using the piezoelectric transducer. Finally, the vibration estimator together with the piezoelectric transducer will provide the self-powered torsional/radial vibration sensor with wireless communication. The research results will be published in journals from JCR database.[/vc_column_text][vc_raw_html][/vc_raw_html][/vc_column_inner][/vc_row_inner][/vc_tta_section][vc_tta_section title="Significance of publications" tab_id="Significance-of-publications"][vc_column_text]Researchers at the Institute focuses on the development of the new technologies and wireless devices for it control, on the dynamics of microsystems, and the development and applications of human health and therapy devices. The research is multidirectional, interdisciplinary and relevant to the contemporary development of society. The scientific results are published at international conferences, published in the prestigious international journals with high citation indexes and listed in Clarivate Analytics, Web of Science. Two monographs were published by Springer. Scientists are on the editorial boards of various scientificjournals, and they edit the international journal Mechanics.[/vc_column_text][vc_column_text]

Scientific Monographs

Digital twins in manufacturing: virtual and physical twins for advanced manufacturing Ostaševičius, Vytautas. Digital twins in manufacturing: virtual and physical twins for advanced manufacturing. Cham : Springer, 2022. 358 p. (Springer series in advanced manufacturing, ISSN 1860-5168, eISSN 2196-1735). ISBN 9783030982744. eISBN 9783030982751. DOI: 10.1007/978-3-030-98275-1.[/vc_column_text][vc_column_text][S1; CH; OA] Ciganas, Justas; Bubulis, Algimantas; Jurenas, Vytautas; Griskevicius, Paulius; Palevicius, Arvydas; Urbaite, Sigita; Janusas, Giedrius. Dynamic mechanical properties of PVC plastics in the formation of microstructures with novel magnetostrictor // Micromachines. Basel : MDPI. ISSN 2072-666X. 2023, vol. 14, iss. 4, art. no. 820, p. 1-10. DOI: 10.3390/mi14040820. [Science Citation Index Expanded (Web of Science); Scopus] [IF: 3,523; AIF: 5,908; IF/AIF: 0,596; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,284] [S1; CH; OA] Ostasevicius, Vytautas; Jurenas, Vytautas; Mikuckyte, Sandra; Vezys, Joris; Stankevičius, Edgaras; Bubulis, Algimantas; Venslauskas, Mantas; Kizauskiene, Laura. Development of a low-frequency piezoelectric ultrasonic transducer for biological tissue sonication // Sensors. Basel : MDPI. ISSN 1424-8220. 2023, vol. 23, iss. 7, art. no. 3608, p. 1-16. DOI: 10.3390/s23073608. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,847; AIF: 4,274; IF/AIF: 0,900; Q2 (2021, InCites JCR SCIE)] [M.kr.: N 009, N 010, T 009] [Indėlis: 0,625] [S1; DE; OA] Guduru, Rama Krishna Reddy; Domeika, Aurelijus; Dubosiene, Milda; Kazlauskiene, Kristina. Prediction framework for upper body sedentary working behaviour by using deep learning and machine learning techniques // Soft computing. Berlin : Springer. ISSN 1432-7643. eISSN 1433-7479. 2022, vol. 26, iss. 23, p. 12969-12984. DOI: 10.1007/s00500-021-06156-8. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,732; AIF: 5,554; IF/AIF: 0,671; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,750] [S1; GB] Baskutis, Saulius; Gružauskas, Valentas; Leibl, Peter; Obcarskas, Linas. Agent-based modelling approach for autonomous vehicle influence on countries’ welfare // Journal of cleaner production. Oxford : Elsevier. ISSN 0959-6526. eISSN 1879-1786. 2022, vol. 374, art. no. 134008, p. 1-11. DOI: 10.1016/j.jclepro.2022.134008. [Science Citation Index Expanded (Web of Science); Scopus; Dimensions] [IF: 11,072; AIF: 7,953; IF/AIF: 1,392; Q1 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,250] [S1; CH; OA] Lukočius, Robertas; Vilkauskas, Andrius; Marčiulionis, Povilas; Grigaliūnas, Valdas; Nakutis, Žilvinas; Deltuva, Ramūnas. An analysis of axial magnetic coupling force and torque dependencies on its structure parameters using a 3D FEM // Applied sciences. Basel : MDPI. ISSN 2076-3417. 2022, vol. 12, iss. 13, aart. no. 6546, p. 1-15. DOI: 10.3390/app12136546. [Science Citation Index Expanded (Web of Science); Scopus; Dimensions] [IF: 2,838; AIF: 5,795; IF/AIF: 0,489; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 001, T 009] [Indėlis: 0,249] [S1; CH; OA] Guduru, Rama Krishna Reddy; Domeika, Aurelijus; Domeikienė, Auksė. Effect of rounded and hunched shoulder postures on myotonometric measurements of upper body muscles in sedentary workers // Applied sciences. Basel : MDPI. ISSN 2076-3417. 2022, vol. 12, iss. 7, art. no. 3333, p. 1-11. DOI: 10.3390/app12073333. [Science Citation Index Expanded (Web of Science); Scopus; DOAJ] [IF: 2,838; AIF: 5,795; IF/AIF: 0,489; Q2 (2021, InCites JCR SCIE)] [M.kr.: M 004, T 009] [Indėlis: 0,333] [S1; GB; OA] Guduru, Rama Krishna Reddy; Domeika, Aurelijus; Obcarskas, Linas; Ylaitė, Berta. The ergonomic association between shoulder, neck/head disorders and sedentary activity: a systematic review // Journal of healthcare engineering. London : Hindawi. ISSN 2040-2295. eISSN 2040-2309. 2022, vol. 2022, art. no. 5178333, p. 1-15. DOI: 10.1155/2022/5178333. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,822; AIF: 4,049; IF/AIF: 0,943; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 1,000] [S1; CH; OA] Čeponis, Andrius; Jūrėnas, Vytautas; Mažeika, Dalius. Triangular-shaped 5-DOF piezoelectric robot for optical lens positioning // Applied science. Basel : MDPI. ISSN 2076-3417. 2022, vol. 12, iss. 5, art. no. 2498, p. 1-20. DOI: 10.3390/app12052498. [Science Citation Index Expanded (Web of Science); Scopus; J-Gate] [IF: 2,838; AIF: 5,795; IF/AIF: 0,489; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 007, T 009] [Indėlis: 0,667] [S1; CH; OA] Ostasevicius, Vytautas; Paulauskaite‐Taraseviciene, Agnė; Paleviciute, Ieva; Jurenas, Vytautas; Griskevicius, Paulius; Eidukynas, Darius; Kizauskiene, Laura. Investigation of the robotized incremental metal-sheet forming process with ultrasonic excitation // Materials. Basel : MDPI. ISSN 1996-1944. 2022, vol. 15, iss. 3, art. no. 1024, p. 1-18. DOI: 10.3390/ma15031024. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,748; AIF: 6,225; IF/AIF: 0,602; Q1 (2021, InCites JCR SCIE)] [M.kr.: T 009, T 007, N 009] [Indėlis: 0,574] [S1; CH; OA] Čeponis, Andrius; Mažeika, Dalius; Jūrėnas, Vytautas. 2-DOF small-size piezoelectric locomotion platform with the unlimited motion range // Micromachines. Basel : MDPI. ISSN 2072-666X. eISSN 2072-666X. 2021, vol. 12, iss. 11, art. no. 1396, p. 1-19. DOI: 10.3390/mi12111396. [Science Citation Index Expanded (Web of Science); Scopus; Gale's Academic OneFile] [IF: 3,523; AIF: 5,908; IF/AIF: 0,596; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 007, T 009] [Indėlis: 0,333] [S1; GB; OA] Mullaveettil, Farusil Najeeb; Daukševičius, Rolanas; Rimašauskas, Marius; Grigaliūnas, Valdas. Fused filament fabrication and mechanical performance of PVDF-based specialty thermoplastics // International journal of advanced manufacturing technology. London : Springer. ISSN 0268-3768. eISSN 1433-3015. 2021, vol. 117, iss. 11-12, p. 3267-3280. DOI: 10.1007/s00170-021-07887-6. [Science Citation Index Expanded (Web of Science); Scopus] [IF: 3,563; AIF: 5,321; IF/AIF: 0,669; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 1,000] [S1; CH; OA] Ostasevicius, Vytautas; Karpavicius, Paulius; Paulauskaite-Taraseviciene, Agne; Jurenas, Vytautas; Mystkowski, Arkadiusz; Cesnavicius, Ramunas; Kizauskiene, Laura. A machine learning approach for wear monitoring of end mill by self-powering wireless sensor nodes // Sensors. Basel : MDPI. ISSN 1424-8220. 2021, vol. 21, iss. 9, art. no. 3137, p. 1-26. DOI: 10.3390/s21093137. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,847; AIF: 4,274; IF/AIF: 0,900; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 007, N 009, T 009] [Indėlis: 0,432] [S1; GB] Lukonaitienė, Inga; Kamandulis, Sigitas; Paulauskas, Henrikas; Domeika, Aurelijus; Pliauga, Vytautas; Kreivytė, Rasa; Stanislovaitienė, Jūratė; Conte, Daniele. Investigating the workload, readiness and physical performance changes during intensified 3-week preparation periods in female national Under18 and Under20 basketball teams // Journal of sports sciences. Abingdon : Routledge–Taylor & Francis. ISSN 0264-0414. eISSN 1466-447X. 2020, vol. 38, iss. 9, p. 1018-1025. DOI: 10.1080/02640414.2020.1738702. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,337; AIF: 3,521; IF/AIF: 0,947; Q2 (2020, InCites JCR SCIE)] [M.kr.: N 010, T 009] [Indėlis: 0,125] [S1; GB] Ostasevicius, Vytautas; Jurenas, Vytautas; Balevicius, Gytautas; Cesnavicius, Ramunas. Development of actuators for ultrasonically assisted grinding of hard brittle materials // International journal of advanced manufacturing technology. London : Springer. ISSN 0268-3768. eISSN 1433-3015. 2020, vol. 106, p. 289-301. DOI: 10.1007/s00170-019-04484-6. [Science Citation Index Expanded (Web of Science); Scopus] [IF: 3,226; AIF: 4,609; IF/AIF: 0,699; Q2 (2020, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 1,000] [S1; GB] Bansevičius, R.; Mazeika, D.; Kulvietis, G.; Tumasoniene, I.; Drukteinienė, A.; Jurenas, V.; Bakanauskas, V. Investigation of sphere trajectories of a rotational type piezoelectric deflector // Mechanical systems and signal processing. London : Elsevier. ISSN 0888-3270. eISSN 1096-1216. 2020, vol. 136, art. no. 104907, p. 1-8. DOI: 10.1016/j.ymssp.2017.05.038. [Science Citation Index Expanded (Web of Science); Scopus] [IF: 6,823; AIF: 3,440; IF/AIF: 1,983; Q1 (2020, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,432] [S1; CH; OA] Abramavičius, Silvijus; Venslauskas, Mantas; Vaitkus, Antanas; Gudžiūnas, Vaidotas; Laucius, Ovidijus; Stankevičius, Edgaras. Local vibrational therapy for essential tremor reduction: a clinical study // Medicina. Basel : MDPI. ISSN 1010-660X. eISSN 1648-9144. 2020, vol. 56, iss. 10, art. no. 552, p. 1-9. DOI: 10.3390/medicina56100552. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 2,430; AIF: 5,182; IF/AIF: 0,468; Q2 (2020, InCites JCR SCIE)] [M.kr.: M 001, T 009] [Indėlis: 0,249][/vc_column_text][/vc_tta_section][vc_tta_section title="Events and their impact" tab_id="Events-and-their-impact"][vc_column_text]The staff of the institute regularly chairs and organizes international conferences "Mechanics", "Transport Means", MSM. This year, the Institute staff is organizing the IFToMM World Summer School on "MECHANISM DESIGN FOR APPLICATIONS IN MECHATRONIC SYSTEMS (MDAMS 2020)".[/vc_column_text][/vc_tta_section][vc_tta_section title="Science laureates, awards, other achievements" tab_id="Science-laureates-awards-other-achievements"][vc_row_inner][vc_column_inner][vc_column_text]Prof. Vytautas Ostaševičius, Prof. Vytautas Jūranas and Dr. Rolanas Daukševičius are dedicated to the year 2018. Lithuanian Science Prize in Technology Science for the work “Development of Micromechanical Systems, research and applications (2003-2017) ”. Doctoral students Sandra Mikuckytė, Gytautas Balevičius, Paulius Karpavičius are the winners of the Young Scientists' Conference “Interdisciplinary Research in Physical and Technological Sciences”, nominated by the Prime Minister of the Republic of Lithuania. Prof. Vytautas Ostaševičius has been awarded the Orders of the French Republic and the Kingdom of Belgium, and has been elected a Foreign Member of the Royal Swedish Academy of Engineering Sciences[/vc_column_text][vc_raw_html][/vc_raw_html][/vc_column_inner][/vc_row_inner][/vc_tta_section][/vc_tta_tour][/vc_column][/vc_row][vc_row full_width="stretch_row_content_no_spaces"][vc_column css=".vc_custom_1501762176328{margin-top: 0px !important;margin-right: 0px !important;margin-bottom: 0px !important;margin-left: 0px !important;border-top-width: 0px !important;border-right-width: 0px !important;border-bottom-width: 0px !important;border-left-width: 0px !important;padding-top: 0px !important;padding-right: 0px !important;padding-bottom: 0px !important;padding-left: 0px !important;}"][ktu_content_nav ktu_content_section_name="Research infrastructure and services" ktu_content_section_id="research-infrastructure-and-services"][ktu_separator_row ktu_separator_title="Research infrastructure and services"][/vc_column][/vc_row][vc_row][vc_column][vc_column_text]Institute of Mechatronics has the status of national research infrastructure (RI “Mechatronika”) and provides open access to an extensive set of tools for prototyping and testing of macro/micro/bio mechatronic systems. The institute serves the needs of researchers working in mechanical, production, materials, electronics, measurement and microsystems engineering fields and supports companies from different manufacturing industries in development of high value-added products. The institute operates a wide range of vibration testing tools including a suite of POLYTEC laser vibrometers, which enable full dynamic characterization (modal analysis) of macro/micro-structures including electromechanical testing of MEMS components under controlled vacuum and temperature conditions. The institute is equipped with an extensive set of instruments for biomechanical analysis including systems for 3D motion analysis, 3D body part scanning, musculoskeletal ultrasonic diagnostics, EMG/EEG acquisition as well as a range of training equipment, anthropometric devices and sensors. The infrastructure also includes several 3D printers for additive manufacturing of polymeric parts using SLS, FDM and Polyjet technologies. The institute specializes in various applications of smart materials and provides access to test equipment for static, dynamic, indentation- and scratch-based characterization of mechanical properties as well as instruments for electrical and rheological measurements[/vc_column_text][vc_btn title="Research infrastructure" style="outline" color="black" align="right" i_icon_fontawesome="fas fa-file-pdf" add_icon="true" link="url:https%3A%2F%2Fmechatronics.ktu.edu%2Fwp-content%2Fuploads%2Fsites%2F240%2F2023%2F03%2FMechatronics-infrastructure-2023-03.pdf|target:_blank"][vc_tta_tour][vc_tta_section title="Equipment for hot melt extrusion and 3D printing of polymeric materials" tab_id="Equipment-for-hot-melt-extrusion-and-3D-printing-of-polymeric-materials"][vc_column_text]

• Melt compounding and filament extrusion system based on Noztek fusionX or Noztek Touch (with filament tensioning device Noztek Tolerance Puller, filament spooling device Winder 2.0, filament air and water coolers).
• SLS-type 3D printer EOS Formiga P110 (material – Polyamide 12 powder).
• SLA-type 3D printer Stratasys Objet30 (material – photopolymer).
• FDM-type 3D printer Stratasys Dimension BST 768 (material – ABS filament).
• FDM-type 3D printers: Ultimaker 2, Ultimaker S5, Prusa, etc..

[/vc_column_text][/vc_tta_section][vc_tta_section title="Biomechatronics equipment" tab_id="Biomechatronics-equipment"][vc_column_text]

• High-speed multi-camera 3D motion capture and analysis system by Qualisys AB based on 300 fps cameras Oqus 7+ including analysis software Visual3D.
• High-accuracy force measuring platforms AMTI Optima 400600 for full gait cycle analysis (synchronized with Qualisys 3D motion analysis system).
• On-body wireless 3D kinematics measurement system for real-time human motion tracking based on inertial sensors (with 60 Hz update rate): MVN BIOMECH Awinda + software MVN Studio BIOMECH (Xsens Technologies B.V.).
• Pressure mapping in-shoe sensing system for foot function & gait analysis F-Scan (Tekscan Inc.) and OpenGo Science (Moticon GmbH) for analysis of contact forces of the human foot.
• Balance analysis system Balance SD (Biodex Medical Systems Inc.).
• A set of training equipment: i) specialized treadmill with integrated force plate FDM-THM-S (HP, Zebris Medical GmbH); ii) stationary bicycle; iii) rowing machine; iv) small devices for different training (balance platforms and etc.)
• Digital ultrasound diagnostics system (2D and M mode) LogicScan 128 CEXT-1Z with Echo Wave II (Telemed Ltd).
• Wireless telemetric EMG system TeleMyo DTS 2400R G2 (Noraxon Inc.) with a set of various sensors: force transducers, goniometers, inclinometers, accelerometers, hand dynamometers and foot switches.
• Portable wireless EEG recorder BE Micro (EB Neuro S.p.A.).
• EEG-based neuroheadset Emotiv EPOC.
• Wearable telemetric metabolic measurement system Cosmed K5 based on exhaled gas sensing.
• Anthropometric kit: BSL MP36 (Biopac Inc.), "Harpenden" anthropometer (Holtain Ltd.), segmental body composition analyzer Tanita BC-418.
• Digital acoustic noise measurement and creation instruments: K-Array KR202, Yamaha MGP12X, Sony DWZ M50, NTI AL1 + NTI mini SPL.
• Virtual reality simulation system Cyber-I, head-mounted display Visette 45 SXGA.
• Isokinetic dynamometer HUMAC NORM 770 (CSMi Solutions) with a set of various adaptors for hands, legs and back analysis and training.

[/vc_column_text][/vc_tta_section][vc_tta_section title="Vibration testing tools" tab_id="Vibration-testingstools"][vc_column_text]

• A set of Polytec laser Doppler vibrometers (LDV) for in-depth dynamic characterization of both macro- and micro-scale structures:
  • Full-field 3D scanning LDV system Polytec PSV-500-3D-HV for full modal analysis of mini & macro structures (up to 25 MHz).
  • Microscope-based optical testing system Polytec MSA-500-TPM for out-of-plane/in-plane vibration and topography measurements of MEMS components. The system may be mounted onto manual or vacuum probe station (Cascade Microtech PMS150 or PLV50) for measurements both in ambient conditions or in high vacuum at elevated temperatures (up to 10^-5 mbar & +200°C).
  • Single-point high-sensitivity autofocusing LDV system Polytec OFV-505 + OFV-5000.
  • Single-point fiber-optic differential LDV system Polytec OFV-512 + OFV-5000.
  • Rotational laser vibrometer Polytec RLV-5500.
• Digital holographic interferometry system HYTEC PRISM for full-field real-time measurements of displacement and deformation fields.
• CCD laser displacement sensor Keyence LK-G82 + LK-G3001PV for vibration measurements (1 Hz – 20 kHz).
• Electrodynamic shaker with closed-loop vibration control B&K LDS V555 + PA1000L + Type 7542 for dynamic testing of various structures up to 25 kg (harmonic, random, shock excitation in a 20 Hz – 6.3 kHz range with acceleration up to 100g).
• Compact electromagnetic shaker Wilcoxon F4 (with impedance head Z7 for acceleration & force measurements) and piezoelectric shaker Wilcoxon F7-1.
• Vibration signal analyzer B&K PULSE Type 3560C.
• Accelerometers:
  • B&K. Charge-type models: 4371 (general-purpose), 4374-S (subminiature), 8309 (high-g & wideband: for shocks), charge-to-Deltatron converter Model 2647. IEPE models: 4513-B-002 (high-sensitivity, TEDS) & 4519-003 (miniature).
  • MEGGITT Endevco. High-temperature charge-type Models 2276 & 2248 (miniature), triaxial IEPE Models 66A50-X & 66A11.
  • MMF Metra. Charge-type KS93 (miniature), KD91.
• B&K microphones Models 4191-B-001 & 4939-B-002. B&K force transducer Model 8230-003.
• A set of vibration-isolation tables (Standa Ltd).

[/vc_column_text][/vc_tta_section][vc_tta_section title="Mechanical testing and characterization tools" tab_id="Mechanical-testing-and-characterization-tools"][vc_column_text]

• Multi-module indentation (MHT) & scratch (MST) measurement system OPX-MCT by CSM Instruments (Anton Paar).
• Rheometer Anton Paar MCR302 (with PS-MRD, PP20/MRD and TG/MRD) for characterization of MR fluids.
• High-speed impact tester: a customized version of FW Magnus 1000 50m/s (Coesfeld GmbH & Co. KG).
• 4.4 Linear-torsional cyclic testing machine Instron E10000 (10 kN, dynamic testing up to 100 Hz, stroke up to 60 mm, temperature range: -70…+350ºC). The machine is integrated with: (i) non-contact full-field displacement/shape/strain measurement 3D-DIC system from Correlated Solutions (VIC-2D/3D, VIC-Gauge 2D/3D, 20 fps @ 12 MPx, lenses: Basler Lens 25 mm, Rodenstock Rodagon 80 mm); (ii) clip-on high temperature un-cooled axial extensometer 7642-010M-025M, clip-on high temperature crack opening displacement (COD) gage 7641-010M-100M, clip-on axial/torsional extensometer 3550-025M-005-003-ST; (iii) load cells Dynacell 2527-202 (10kN, 100 Nm) and Dynacell 2527-131 (0.25 kN).
• Dual-column static tensile testing machine Tinius Olsen H25KT (25 kN) including a set of grips for hard and soft materials.
• Coordinate measuring machine DEA GLOBAL Silver Performance.
• 2-components dynamometer with signal conditioner Kistler 9345B + 5018A1003 for measurements of axial force (up to 10 kN) and torque (up to 25 Nm).
• Portable roughness meter Mitutoyo SJ-210.
• Digital force/torque gauge Mark-10 Series BGI (with force sensor SS-50 (up to 250 N) and torque sensor STJ-100 (up to 10 Nm).
• Mitutoyo instruments: 3D measuring microscope Quick Vision active 202, toolmakers measuring microscope TM-505B, contour measurement system CONTRACER CV-2100, hardness tester HR-530 (Rockwell, Rockwell Superficial, Rockwell testing of plastics (A&B), Light Force Brinell hardness), Micro-Vickers hardness tester HM-200, linear height gauge LH-600E, high-accuracy micrometer 293-100-20 (range 0-25 mm, resolution 0.0001 mm), Shore A plastic and rubber hardness tester.

[/vc_column_text][/vc_tta_section][vc_tta_section title="Robotics equipment" tab_id="Robotics-equipment"][vc_column_text]

• ABB industrial robots: IRB 1200, IRB 120, 2xIRB 360.
• Collaborative humanoid robot for assembly automation ABB YuMi IRB 14000.
• 5-fingered robot hand HIRO.
• Humaniform robot hand Shadow Dexterous Hand.
• Personalizable and interactive humanoid robot NAO V5 (Aldebaran Robotics).
• Mobile robotics device Festo Robotino and a set of robotics-related devices and accessories.
• A set of various laboratory-grade analysis and demonstration tools for mechatronics/robotics investigations (ITT Group HL01 Robotic HomeLab Basic kit, ITT Group HL02 Robotic HomeLab Add-On kit).
• Small-scale automated assembly line by FESTO for training purposes.

[/vc_column_text][/vc_tta_section][vc_tta_section title="Infrared & high-speed cameras" tab_id="Infrared-and-high-speed-cameras"][vc_column_text]

• Digital high-speed cameras:
  • Phantom v711 (7.5K fps @ 1280´800, max: 1.4M fps @ 128´8).
  • MOTION PRO 10000.
• Infrared cameras:
  • High-speed & high-sensitivity IR camera FLIR SC7500 (380 Hz @ 320´256, max: +3000°C, 8 kHz @ 64´4, 12 mm and 50 mm lenses).
  • Portable IR camera with LCD display FLIR T450sc (60 Hz @ 320´240, max +1500°C).
  • Compact IR camera ThermoVision A-20M (60 Hz @ 160´120).

[/vc_column_text][/vc_tta_section][vc_tta_section title="3D laser scanners" tab_id="3D-laser-scanners"][vc_column_text]

• Portable 3D laser scanner FARO Focus^3D X 130 for accurate (±2 mm) and mid-range (0.6 – 130 m) measurements of various complex structures, large-volume components, building facades, etc.
• Portable 7-axis measuring arm with integrated high-performance 3D laser scanner FARO Edge ScanArm for ultrahigh-resolution (±034 mm) and short-range (up to 1.8 m) measurements.
• Handheld self-positioning 3D laser scanner Creaform Go!Scan 50 for high-resolution (±5 mm) and high-speed measurements in full color (component size range: 0.3 – 3 m).
• Handheld self-positioning 3D laser scanner Creaform HandySCAN 700 for very high-resolution (±05 mm) and high-speed measurements in full color (component size range: 0.1 – 4 m).

[/vc_column_text][/vc_tta_section][vc_tta_section title="Optical microscopes" tab_id="Optical-microscopes"][vc_column_text]

• Motorized (z axis) microscope Nikon Eclipse LV100ND (objectives: ´5…´100): episcopic/diascopic illumination, 16 MPx FX-format CMOS digital camera DS-Ri2 (capture of low-noise color images: up to 6 fps @ 4908´3264, 45 fps @ 1636´1088), imaging software NIS-Elements (EDF, stereovision, 3D surface, TimeLapse, Macro, etc.).
• Manual microscope Nikon Eclipse LV150 with monochrome digital camera Infinity 1-1.

[/vc_column_text][/vc_tta_section][vc_tta_section title="Electrical measuring instruments and tools" tab_id="Electrical-measuring-instruments-and-tools"][vc_column_text]

• Probe stations for MEMS electrical testing: Cascade Microtech PMS150 (manual) and PLV50 (vacuum, +200°C).
• 2-channel wide-range high-resolution SMU Keithley SourceMeter 2614B (±200 V, ±5 A DC).
• Precision impedance analyzer Wayne Kerr Electronics 6510B (20 Hz – 10 MHz).
• Spectrum analyzer GW INSTEK GSP-930 (9 kHz – 3 GHz).
• Oscilloscopes:
  • 4-channel mixed signal oscilloscope Yokogawa DLM2034 (350 MHz).
  • 4/8-channel USB oscilloscopes: PICO 3424, 4424, 6403, 4824.
• Generators:
  • Function generator Escort EGC-3235A.
  • Function/arbitrary waveform generator Agilent 33220A.
  • 2-channel function/arbitrary waveform generator Rigol DG1032Z.
  • 4-channel function generator Tabor WW5064.
• Amplifiers:
  • Piezo amplifier Piezo Systems EPA-104 (DC – 0.3 MHz, 40 W).
  • High-power piezo amplifier Lab Systems A-310 (DC – 0.3 MHz, 250 W).
  • 3-channel piezo amplifier Piezomechanik SVR-150-3 (-30 – 150 V, 60 mA, 10 kHz).
  • Wideband power amplifier Krohn-Hite 7500 with impedance matching transformer MT56R (DC – 1 MHz, 75 W).
  • High-frequency high-current amplifier Newtons4th LPA05 (DC – 1 MHz, 90 VA).
  • Wideband amplifier Newtons4th LPA01 (DC – 1 MHz).
  • Power amplifier FLC Electronics P200 (input: 10 V, output: 100 V, 1 A, 80 kHz).
  • 4-channel signal conditioner Measurement Specialties 161A (for piezoelectric transducers).
• Power supplies:
  • 3-channel Rigol DP831A (160 W).
  • 3-channel Keithley 2230-30-1 (120 W).
• Programmable amplifier AIM TTI EX355P
• Data acquisition:
  • High-performance reconfigurable NI system 781787-02 for embedded monitoring and control of analog signals (CRIO-9082, 8-Slot, LX150, RT).
  • Data acquisition system ALMEMO 5690-2M09BT8.
• Electric and magnetic field analyzer EHP-50D by Narda Safety Test Solutions.
• 3-axis magnetometer Lake Shore 460 with sensor probe MMZ-2508-UH.
• Single-axis magnetometer Magnet-Physik FH-54.
• Portable multifunctional environment meter Velleman DVM401 (noise, temperature, humidity, illuminance measurements).
• Acoustic noise measurement instrument VT-400.
• Portable 2-channel acoustic emission measurement unit MISTRAS Pocket AE-2.
• Portable digital tachometer/stroboscope tester Lutron DT-2259 (tachometer: 5 – 100 000 RPM, stroboscope: 100 – 100 000 FPM/RPM).
• Piezoelectric coefficient (d33, d31) quasi-static meter (Berlincourt method) PolyK PKD3-2000-F10N.

[/vc_column_text][/vc_tta_section][vc_tta_section title="Miscellaneous" tab_id="Miscellaneous"][vc_column_text]

• 1000 ltr. environmental chamber JTH-1000Z with humidity & temperature control (-5…+150°C).
• General-purpose vacuum chamber.
• Solder fume extraction cabinet with filtering BOFA V250 with FumeCAB.
• A setup for research/demonstration of lumped-parameter dynamical systems DSS-01.
• PCB etching tank (transparent plastic) Gie-Tec EA141032K (1.25 ltr., 100 W).

[/vc_column_text][/vc_tta_section][/vc_tta_tour][/vc_column][/vc_row][vc_row][vc_column][ktu_header_bar ktu_box_style="1" ktu_box_text_style="2" ktu_box_button_style="2" ktu_content_link="url:https%3A%2F%2Fapcis.ktu.edu%2FMEI%2Fen|title:More|target:%20_blank|" header-background="226" ktu_header_title="KTU Open Access Centre"]Technological solutions created by the Institute’s scientists and researchers help solve technological problems for business, industry and state companies. The R&D collaboration includes all stages of activity: from completing simple orders to first testing of prototypes and joint R&D projects of national and international importance. All the services provided by Biomedical Engineering Institute and the equipment available for rent can be found on KTU Open Access Centre.[/ktu_header_bar][/vc_column][/vc_row][vc_row][vc_column][ktu_content_nav ktu_content_section_name="Projects" ktu_content_section_id="projects"][ktu_header_bar ktu_box_style="4" ktu_box_text_style="2" ktu_box_button_style="2" header-background="387" ktu_header_title="Projects" ktu_content_link="url:https%3A%2F%2Fmechatronics.ktu.edu%2Fprojects|||"]

Institute of Mechatronics

[/ktu_header_bar][/vc_column][/vc_row][vc_row full_width="stretch_row_content_no_spaces" disable_element="yes"][vc_column css=".vc_custom_1501762176328{margin-top: 0px !important;margin-right: 0px !important;margin-bottom: 0px !important;margin-left: 0px !important;border-top-width: 0px !important;border-right-width: 0px !important;border-bottom-width: 0px !important;border-left-width: 0px !important;padding-top: 0px !important;padding-right: 0px !important;padding-bottom: 0px !important;padding-left: 0px !important;}"][ktu_content_nav ktu_content_section_name="Research projects" ktu_content_section_id="research-projects"][ktu_separator_row ktu_separator_title="Research projects"][/vc_column][/vc_row][vc_row disable_element="yes"][vc_column][vc_tta_tour][vc_tta_section title="International projects" tab_id="international-projects"][vc_row_inner][vc_column_inner][vc_column_text]

International projects

EC 7BP High-Resolution Fingerprint Sensing with Vertical Piezoelectric Nanowire Matrices (PiezoMAT) (2013–2017, Dr Rolandas Daukševičius)

3D-printable Flexible Electroactive Transducers for Soft Mechatronics Systems (FLEXYMECH-3DP)(2017-2020, dr. Rolanas Daukševičius)

[/vc_column_text][/vc_column_inner][/vc_row_inner][/vc_tta_section][vc_tta_section title="National projects" tab_id="national-projects"][vc_row_inner][vc_column_inner][vc_column_text]

National projects

R&D of New Class of Trunk-Like Robots: Theory and Investigation (SmartTrunk), MIP-084/2015, (2015–2018, Prof Habil Dr Ramutis Petras Bansevičius)

Ultrasound Generated Cavitation Flows Action for Vascular Recanalization and Function Reparation: an Experimental-Clinical Trial (IntraMed), MIP-097/2015, (2015–2018, Habil Dr Algimantas Bubulis)

3D-Printable Flexible Electroactive Transducers for Soft Mechatronics Systems(FLEXYMECH-3DP)“, MIP-1789/2017, (2017–2020, Dr Rolanas Daukševičius

[/vc_column_text][/vc_column_inner][/vc_row_inner][/vc_tta_section][vc_tta_section title="Institutional projects" tab_id="institutional-projects"][vc_row_inner][vc_column_inner][vc_column_text]

Institutional projects

[/vc_column_text][/vc_column_inner][/vc_row_inner][/vc_tta_section][/vc_tta_tour][/vc_column][/vc_row][vc_row full_width="stretch_row_content_no_spaces"][vc_column css=".vc_custom_1501762176328{margin-top: 0px !important;margin-right: 0px !important;margin-bottom: 0px !important;margin-left: 0px !important;border-top-width: 0px !important;border-right-width: 0px !important;border-bottom-width: 0px !important;border-left-width: 0px !important;padding-top: 0px !important;padding-right: 0px !important;padding-bottom: 0px !important;padding-left: 0px !important;}"][ktu_content_nav ktu_content_section_name="Technological solutions" ktu_content_section_id="technological-solutions"][ktu_separator_row ktu_separator_title="Technological solutions"][/vc_column][/vc_row][vc_row][vc_column css=".vc_custom_1501762176328{margin-top: 0px !important;margin-right: 0px !important;margin-bottom: 0px !important;margin-left: 0px !important;border-top-width: 0px !important;border-right-width: 0px !important;border-bottom-width: 0px !important;border-left-width: 0px !important;padding-top: 0px !important;padding-right: 0px !important;padding-bottom: 0px !important;padding-left: 0px !important;}"][vc_column_text]Researchers and scientists of the Institute are developing technological solutions that are applicable and can be adapted to needs of various manufacturing processes.[/vc_column_text][vc_column_text][/vc_column_text][vc_btn title="Technological solutions" style="outline" color="black" align="right" link="url:https%3A%2F%2Fnivc.ktu.edu%2Fisradimai%2F||target:%20_blank|"][/vc_column][/vc_row][vc_row full_width="stretch_row_content_no_spaces"][vc_column css=".vc_custom_1501762176328{margin-top: 0px !important;margin-right: 0px !important;margin-bottom: 0px !important;margin-left: 0px !important;border-top-width: 0px !important;border-right-width: 0px !important;border-bottom-width: 0px !important;border-left-width: 0px !important;padding-top: 0px !important;padding-right: 0px !important;padding-bottom: 0px !important;padding-left: 0px !important;}"][ktu_content_nav ktu_content_section_name="Significant publications" ktu_content_section_id="significant-publications"][ktu_separator_row ktu_separator_title="Significant publications"][/vc_column][/vc_row][vc_row][vc_column][vc_column_text][S1; NL] Nasiri, Sohrab; Palanisamy, Prasanth; Rabiei, Marzieh; Hosseinnezhad, Mozhgan; Palevicius, Arvydas; Vilkauskas, Andrius; Janusas, Giedrius; Nutalapati, Venkatramaiah. Investigation of the influence of persulfurated benzene derivatives on optical and carrier mobility properties // Materials letters. Amsterdam : Elsevier. ISSN 0167-577X. eISSN 1873-4979. 2023, vol. 342, art. no. 134323, p. 1-4. DOI: 10.1016/j.matlet.2023.134323. [Science Citation Index Expanded (Web of Science); Scopus] [IF: 3,574; AIF: 6,018; IF/AIF: 0,593; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,125] [S1; CH; OA] Ciganas, Justas; Bubulis, Algimantas; Jurenas, Vytautas; Griskevicius, Paulius; Palevicius, Arvydas; Urbaite, Sigita; Janusas, Giedrius. Dynamic mechanical properties of PVC plastics in the formation of microstructures with novel magnetostrictor // Micromachines. Basel : MDPI. ISSN 2072-666X. 2023, vol. 14, iss. 4, art. no. 820, p. 1-10. DOI: 10.3390/mi14040820. [Science Citation Index Expanded (Web of Science); Scopus] [IF: 3,523; AIF: 5,908; IF/AIF: 0,596; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,284] [S1; CH; OA] Ostasevicius, Vytautas; Jurenas, Vytautas; Mikuckyte, Sandra; Vezys, Joris; Stankevičius, Edgaras; Bubulis, Algimantas; Venslauskas, Mantas; Kizauskiene, Laura. Development of a low-frequency piezoelectric ultrasonic transducer for biological tissue sonication // Sensors. Basel : MDPI. ISSN 1424-8220. 2023, vol. 23, iss. 7, art. no. 3608, p. 1-16. DOI: 10.3390/s23073608. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,847; AIF: 4,274; IF/AIF: 0,900; Q2 (2021, InCites JCR SCIE)] [M.kr.: N 009, N 010, T 009] [Indėlis: 0,625] [S1; KR; OA] Sederevičius, Antanas; Oberauskas, Vaidas; Želvytė, Rasa; Žymantienė, Judita; Musayeva, Kristina; Žemaitis, Juozas; Jūrėnas, Vytautas; Bubulis, Algimantas; Vėžys, Joris. Effect of low frequency oscillations during milking on udder temperature and welfare of dairy cows // Journal of animal science and technology. Seoul : Korean society of animal science and technology. ISSN 2672-0191. eISSN 2055-0391. 2023, vol. 65, iss. 1, art. no. e74, p. 244-257. DOI: 10.5187/jast.2022.e74. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 1,801; AIF: 2,505; IF/AIF: 0,718; Q2 (2021, InCites JCR SCIE)] [M.kr.: A 002, T 009] [Indėlis: 0,333] [S1; DE; OA] Guduru, Rama Krishna Reddy; Domeika, Aurelijus; Dubosiene, Milda; Kazlauskiene, Kristina. Prediction framework for upper body sedentary working behaviour by using deep learning and machine learning techniques // Soft computing. Berlin : Springer. ISSN 1432-7643. eISSN 1433-7479. 2022, vol. 26, iss. 23, p. 12969-12984. DOI: 10.1007/s00500-021-06156-8. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,732; AIF: 5,554; IF/AIF: 0,671; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,750] [S1; CH; OA] Nasiri, Sohrab; Rabiei, Marzieh; Markuniene, Ieva; Hosseinnezhad, Mozhgan; Ebrahimi-Kahrizsangi, Reza; Palevicius, Arvydas; Vilkauskas, Andrius; Janusas, Giedrius. Nanocomposite based on HA/PVTMS/Cl2FeH8O4 as a gas and temperature sensor // Sensors. Basel : MDPI. ISSN 1424-8220. 2022, vol. 22, iss. 24, art. no. 10012, p. 1-16. DOI: 10.3390/s222410012. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,847; AIF: 4,274; IF/AIF: 0,900; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,125] [S1; CH; OA] Cigane, Urte; Palevicius, Arvydas; Jurenas, Vytautas; Pilkauskas, Kestutis; Janusas, Giedrius. Development and analysis of electrochemical reactor with vibrating functional element for AAO nanoporous membranes fabrication // Sensors. Basel : MDPI. ISSN 1424-8220. 2022, vol. 22, iss. 22, art. no. 8856, p. 1-14. DOI: 10.3390/s22228856. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,847; AIF: 4,274; IF/AIF: 0,900; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,200] [S1; CH; OA] Čeponis, Andrius; Mažeika, Dalius; Jūrėnas, Vytautas; Deltuvienė, Dovilė; Bareikis, Regimantas. Ring-shaped piezoelectric 5-DOF robot for angular-planar motion // Micromachines. Basel : MDPI. ISSN 2072-666X. 2022, vol. 13, iss. 10, art. no. 1763, p. 1-18. DOI: 10.3390/mi13101763. [Science Citation Index Expanded (Web of Science); Scopus; INSPEC] [IF: 3,523; AIF: 5,908; IF/AIF: 0,596; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 001, T 009] [Indėlis: 0,200] [S1; GB] Baskutis, Saulius; Gružauskas, Valentas; Leibl, Peter; Obcarskas, Linas. Agent-based modelling approach for autonomous vehicle influence on countries’ welfare // Journal of cleaner production. Oxford : Elsevier. ISSN 0959-6526. eISSN 1879-1786. 2022, vol. 374, art. no. 134008, p. 1-11. DOI: 10.1016/j.jclepro.2022.134008. [Science Citation Index Expanded (Web of Science); Scopus; Dimensions] [IF: 11,072; AIF: 7,953; IF/AIF: 1,392; Q1 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,250] [S1; CH; OA] Rabiei, Marzieh; Raziyan, Motahareh Sadat; Ebrahimi-Kahrizsangi, Reza; Nasiri, Sohrab; Palevicius, Arvydas; Janusas, Giedrius; Vilkauskas, Andrius. Effects of 5 wt.% polycaprolactone, polyhydroxybutyrate and polyvinyltrimethoxysilane on the properties of Ag/Zn/Mg alloy // Materials. Basel : MDPI. ISSN 1996-1944. 2022, vol. 15, iss. 15, art. no. 5421, p. 1-14. DOI: 10.3390/ma15155421. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,748; AIF: 6,225; IF/AIF: 0,602; Q1 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,142] [S1; NL] Kumar, B. Muthu; Guduru, Rama Krishna Reddy; Srinivas, Azmeera; Ana, Farkhanda; Ramudu, Kama; Dhiman, Gaurav. Wavelength assignment in optical fiber with intelligent optimization and assignment scheme for static and dynamic traffic intensity based photonic networks // Optical and quantum electronics. Dordrecht : Springer. ISSN 0306-8919. eISSN 1572-817X. 2022, vol. 54, iss. 8, art. no. 526, p. 1-20. DOI: 10.1007/s11082-022-03880-9. [Science Citation Index Expanded (Web of Science); Scopus] [IF: 2,794; AIF: 3,696; IF/AIF: 0,755; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,166] [S1; CH; OA] Atmakuri, Ayyappa; Palevicius, Arvydas; Vilkauskas, Andrius; Janusas, Giedrius. Numerical and experimental analysis of mechanical properties of natural-fiber-reinforced hybrid polymer composites and the effect on matrix material // Polymers. Basel : MDPI. ISSN 2073-4360. 2022, vol. 14, iss. 13, art. no. 2612, p. 1-18. DOI: 10.3390/polym14132612. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 4,967; AIF: 5,162; IF/AIF: 0,962; Q1 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,250] [S1; CH; OA] Lukočius, Robertas; Vilkauskas, Andrius; Marčiulionis, Povilas; Grigaliūnas, Valdas; Nakutis, Žilvinas; Deltuva, Ramūnas. An analysis of axial magnetic coupling force and torque dependencies on its structure parameters using a 3D FEM // Applied sciences. Basel : MDPI. ISSN 2076-3417. 2022, vol. 12, iss. 13, aart. no. 6546, p. 1-15. DOI: 10.3390/app12136546. [Science Citation Index Expanded (Web of Science); Scopus; Dimensions] [IF: 2,838; AIF: 5,795; IF/AIF: 0,489; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 001, T 009] [Indėlis: 0,249] [S1; NL] Nasiri, Sohrab; Hosseinnezhad, Mozhgan; Rabiei, Marzieh; Palevicius, Arvydas; Rahimi, Zahra; Janusas, Giedrius; Vilkauskas, Andrius. New approach of mechanochromic, thermally activated delayed fluorescence’ dyes consisting of “thioxanthenone derivative as an acceptor unit and two carbazole derivatives as the donor units” used as emitting layer in organic light-emitting diodes // Optical materials. Amsterdam : Elsevier. ISSN 0925-3467. eISSN 1873-1252. 2022, vol. 127, art. no. 112320, p. 1-14. DOI: 10.1016/j.optmat.2022.112320. [Science Citation Index Expanded (Web of Science); Scopus] [IF: 3,754; AIF: 5,019; IF/AIF: 0,747; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 0,142] [S1; CH; OA] Guduru, Rama Krishna Reddy; Domeika, Aurelijus; Domeikienė, Auksė. Effect of rounded and hunched shoulder postures on myotonometric measurements of upper body muscles in sedentary workers // Applied sciences. Basel : MDPI. ISSN 2076-3417. 2022, vol. 12, iss. 7, art. no. 3333, p. 1-11. DOI: 10.3390/app12073333. [Science Citation Index Expanded (Web of Science); Scopus; DOAJ] [IF: 2,838; AIF: 5,795; IF/AIF: 0,489; Q2 (2021, InCites JCR SCIE)] [M.kr.: M 004, T 009] [Indėlis: 0,333] [S1; GB; OA] Guduru, Rama Krishna Reddy; Domeika, Aurelijus; Obcarskas, Linas; Ylaitė, Berta. The ergonomic association between shoulder, neck/head disorders and sedentary activity: a systematic review // Journal of healthcare engineering. London : Hindawi. ISSN 2040-2295. eISSN 2040-2309. 2022, vol. 2022, art. no. 5178333, p. 1-15. DOI: 10.1155/2022/5178333. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,822; AIF: 4,049; IF/AIF: 0,943; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 1,000] [S1; CH; OA] Čeponis, Andrius; Jūrėnas, Vytautas; Mažeika, Dalius. Triangular-shaped 5-DOF piezoelectric robot for optical lens positioning // Applied science. Basel : MDPI. ISSN 2076-3417. 2022, vol. 12, iss. 5, art. no. 2498, p. 1-20. DOI: 10.3390/app12052498. [Science Citation Index Expanded (Web of Science); Scopus; J-Gate] [IF: 2,838; AIF: 5,795; IF/AIF: 0,489; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 007, T 009] [Indėlis: 0,667] [S1; CH; OA] Ostasevicius, Vytautas; Paulauskaite‐Taraseviciene, Agnė; Paleviciute, Ieva; Jurenas, Vytautas; Griskevicius, Paulius; Eidukynas, Darius; Kizauskiene, Laura. Investigation of the robotized incremental metal-sheet forming process with ultrasonic excitation // Materials. Basel : MDPI. ISSN 1996-1944. 2022, vol. 15, iss. 3, art. no. 1024, p. 1-18. DOI: 10.3390/ma15031024. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,748; AIF: 6,225; IF/AIF: 0,602; Q1 (2021, InCites JCR SCIE)] [M.kr.: T 009, T 007, N 009] [Indėlis: 0,574] [S1; CH; OA] Čeponis, Andrius; Jūrėnas, Vytautas; Mažeika, Dalius. Development of 5-DOF piezoelectric actuator for planar—angular positioning // Applied science. Basel : MDPI. ISSN 2076-3417. 2022, vol. 12, iss. 3, art. no. 1033, p. 1-20. DOI: 10.3390/app12031033. [Science Citation Index Expanded (Web of Science); Scopus; J-Gate] [IF: 2,838; AIF: 5,795; IF/AIF: 0,489; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009, T 007] [Indėlis: 0,667] [S1; CH; OA] Ostasevicius, Vytautas; Paleviciute, Ieva; Paulauskaite-Taraseviciene, Agne; Jurenas, Vytautas; Eidukynas, Darius; Kizauskiene, Laura. Comparative analysis of machine learning methods for predicting robotized incremental metal sheet forming force // Sensors. Basel : MDPI. ISSN 1424-8220. 2022, vol. 22, iss. 1, art. no. 18, p. 1-22. DOI: 10.3390/s22010018. [Science Citation Index Expanded (Web of Science); Scopus; DOAJ] [IF: 3,847; AIF: 4,274; IF/AIF: 0,900; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 007, N 009, T 009] [Indėlis: 0,668] [S1; CH; OA] Ostasevicius, Vytautas; Eidukynas, Darius; Jurenas, Vytautas; Paleviciute, Ieva; Gudauskis, Marius; Grigaliunas, Valdas. Investigation of advanced robotized polymer sheet incremental forming process // Sensors. Basel : MDPI. ISSN 1424-8220. 2021, vol. 21, iss. 22, art. no. 7459, p. 1-17. DOI: 10.3390/s21227459. [Science Citation Index Expanded (Web of Science); Scopus; MEDLINE] [IF: 3,847; AIF: 4,274; IF/AIF: 0,900; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 009] [Indėlis: 1,000] [S1; CH; OA] Čeponis, Andrius; Mažeika, Dalius; Jūrėnas, Vytautas. 2-DOF small-size piezoelectric locomotion platform with the unlimited motion range // Micromachines. Basel : MDPI. ISSN 2072-666X. eISSN 2072-666X. 2021, vol. 12, iss. 11, art. no. 1396, p. 1-19. DOI: 10.3390/mi12111396. [Science Citation Index Expanded (Web of Science); Scopus; Gale's Academic OneFile] [IF: 3,523; AIF: 5,908; IF/AIF: 0,596; Q2 (2021, InCites JCR SCIE)] [M.kr.: T 007, T 009] [Indėlis: 0,333] [S1; GB; OA] Mullaveettil, Farusil Najeeb; Daukševičius, Rolanas; Rimašauskas, Marius; Grigaliūnas, Valdas. Fused filament fabrication and mechanical performance of PVDF-based specialty thermoplastics // International journal of advanced manufacturing technology. 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Monitoring the condition of the cutting tool using self-powering wireless sensor technologies. Ostaševičius, Vytautas; Jūrėnas, Vytautas; Augutis, Stasys Vygantas; Gaidys, Rimvydas; Česnavičius, Ramūnas; Kižauskienė, Laura; Dundulis, Romualdas. // International journal of advanced manufacturing technology. London: Springer. ISSN 0268-3768. 2016, vol. 84, iss. 9-12, p. [1-15]

Self-powering wireless devices for cloud manufacturing applications. Ostaševičius, Vytautas; Jūrėnas, Vytautas; Markevičius, Vytautas; Gaidys, Rimvydas; Žilys, Mindaugas; Čepėnas, Mindaugas; Kižauskienė, Laura. // International journal of advanced manufacturing technology. London: Springer. ISSN 0268-3768. 2016, vol. 83, iss. 9, p. 1937-1950.

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