Título:	Influence of Frictional Properties of Conveyor Systems on the Process of Robotic Manipulation of Flexible Objects
Outros títulos:	Вплив Фрикційних Властивостей Конвеєрних Систем на Процес Робототехнічного Маніпулювання Гнучких Об’єктів
Authors:	Mykhailyshyn, Roman Duchon, Frantisek Mykhailyshyn, Mykhailo Kelemen, Michal Xiao, Jing Majewicz Fey, Ann
Affiliation:	Тернопільський національний технічний університет імені Івана Пулюя Амерікан Юніверсіті Київ Словацький технологічний університет в Братиславі Технологічний університет в Кошице Вустерський політехнічний інститут Техаський університет в Остіні American University Kyiv The University of Texas at Austin Slovak University of Technology Technical University of Kosice Worcester Polytechnic Institut
Bibliographic description (Ukraine):	Роман Михайлишин, Франтішек Духон, Михайло Михайлишин, Міхал Келемен, Джін Cяо, Енн Маєвич Фей, Вплив Фрикційних Властивостей Конвеєрних Систем на Процес Робототехнічного Маніпулювання Гнучких Об’єктів / Михайлишин Р., Духон Ф., Михайлишин М., Келемен М., Cяо Д., Маєвич Фей Е. // Прикладна механіка. Праці І Міжнародної науково-технічної конференції, - Т. : ТНТУ, 2024. - С. 311–313. Roman Mykhailyshyn, Frantisek Duchon, Mykhailo Mykhailyshyn, Michal Kelemen, Jing Xiao, Ann Majewicz Fey, Influence of Frictional Properties of Conveyor Systems on the Process of Robotic Manipulation of Flexible Objects. 1st International Scientific and Technical Conference "Applied Mechanics", TNTU, 2024, pp. 311–313. R. Mykhailyshyn, F. Duchon, M. Mykhailyshyn, M. Kelemen, J. Xiao, A. Majewicz Fey, (2024) Influence of Frictional Properties of Conveyor Systems on the Process of Robotic Manipulation of Flexible Objects. 1st International Scientific and Technical Conference "Applied Mechanics", TNTU, pp. 311–313.
Bibliographic description (International):	R. Mykhailyshyn, F. Duchon, M. Mykhailyshyn, M. Kelemen, J. Xiao, A. Majewicz Fey, (2024) Influence of Frictional Properties of Conveyor Systems on the Process of Robotic Manipulation of Flexible Objects. 1st International Scientific and Technical Conference "Applied Mechanics", TNTU, pp. 311–313.
Journal/Collection:	І Міжнародна науково-технічна конференція "Прикладна механіка" 1st International Scientific and Technical Conference "Applied Mechanics"
Data de edición:	6-Jun-2024
Date of entry:	17-Jun-2024
Country (code):	UA
Place of the edition/event:	Тернопільський національний технічний університет імені Івана Пулюя
UDC:	621.865
Palabras chave:	robotics automation grasping manipulation
Page range:	311-313
URI:	http://elartu.tntu.edu.ua/handle/lib/45302
ISBN:	978-617-7875-80-1
Copyright owner:	Тернопільський національний технічний університет імені Івана Пулюя, 2024
URL for reference material:	https://elartu.tntu.edu.ua/handle/lib/45237
References (Ukraine):	1. Sensing of Continuum Robots: A Review / P.J. Sincak, E. Prada, L. Miková, R. Mykhailyshyn, M. Varga, T. Merva, I. Virgala // Sensors. – 24(4). – 2024. – DOI: 10.3390/s24041311. 2. Mathematical Modeling of Robotic Locomotion Systems / E. Prada, L. Mikova, I. Virgala, M. Kelemen, P.J. Sinčák, R. Mykhailyshyn // Symmetry. – 16(3). – 2024. DOI: 10.3390/sym16030376 3. Robot Trajectory Planning / D. Hroncova, P. Sincak, T. Merva R. Mykhailyshyn // MM Science Journal. – 2022. – DOI: 10.17973/MMSJ.2022_11_2022093. 4. Global Path Planning Method Based on a Modification of the Wavefront Algorithm for Ground Mobile Robots / R. Mykhailyshyn, V. Savkiv, I. Diahovchenko, F. Duchon, R. Trembach // Robotics. – 12(1). – 2023. – P. 527-532. – DOI: 10.3390/robotics12010025. 5. Substantiation of Parameters of Friction Elements of Bernoulli Grippers With a Cylindrical Nozzle / R. Mykhailyshyn, V. Savkiv, I. Boyko, E. Prada, & I. Virgala // International Journal of Manufacturing, Materials, and Mechanical Engineering (IJMMME). – 11(2). – 2021. – P. 17-39. – DOI: 10.4018/IJMMME.2021040102. 6. A Systematic Review on Pneumatic Gripping Devices for Industrial Robots / R. Mykhailyshyn, V. Savkiv, P. Maruschak, J. Xiao // Transport. – 37(3). – 2022. – P. 201-231. – DOI: 10.3846/transport.2022.17110 7. Three-Dimensional Printing of Cylindrical Nozzle Elements of Bernoulli Gripping Devices for Industrial Robots / R. Mykhailyshyn, F. Duchoň, M. Mykhailyshyn, A. Majewicz Fey // Robotics. – 11(6). – 2022. – DOI: 10.3390/robotics11060140. 8. Optimization of Outer Diameter Bernoulli Gripper with Cylindrical Nozzle / R. Mykhailyshyn, F. Duchoň, I. Virgala, P.J. Sinčák, A. Majewicz Fey // Machines. – 11(6). – 2023. – DOI: 10.3390/machines11060667. 9. Influence of Inlet Parameters on Power Characteristics of Bernoulli Gripping Devices for Industrial Robots / R. Mykhailyshyn, J. Xiao // Applied Sciences. – 12(14). – 2022. 7074. DOI: 10.3390/app12147074. 10. Experimental Research of the Manipulatiom Process by the Objects Using Bernoulli Gripping Devices / R. Mykhailyshyn, V. Savkiv, M. Mikhalishin, F. Duchon // In Young Scientists Forum on Applied Physics and Engineering, International IEEE Conference. – 2017. – P. 8-11. – DOI: 10.1109/YSF.2017.8126583 11. Orientation Modeling of Bernoulli Gripper Device with Off-Centered Masses of the Manipulating Object / V. Savkiv, R. Mykhailyshyn, O. Fendo, M. Mykhailyshyn // Procedia Engineering. – 2017. – № 187. – P. 264-271. – DOI: 10.1016/j.proeng.2017.04.374 12. Михайлишин Р.І. Обґрунтування параметрів та орієнтації струминного захоплювача маніпулятора для автоматизації вантажно-розвантажувальних операцій: автореф. дис. на здобуття наук. ступеня канд. техн. наук : спец. 05.05.05 “Піднімально-транспортні машини” / Р.І. Михайлишин. – Тернопіль, 2018. – 21 с. 13. Energy efficiency analysis of the manipulation process by the industrial objects with the use of Bernoulli gripping devices / V. Savkiv, R. Mykhailyshyn, F. Duchoň, M. Mykhailyshyn // Journal of Electrical Engineering. – 2017. – 68(6). – P. 496-502. 14. Modeling of Bernoulli gripping device orientation when manipulating objects along the arc/ V. Savkiv, R. Mykhailyshyn, Duchoň, M. Mykhailyshyn // International Journal of Advanced Robotic Systems. – 15(2). – 2018. – P. 2397-2408. DOI: 10.1177/1729881418762670 15. Gripping Device for Textile Materials / R. Mykhailyshyn, V. Savkiv, A. Majewicz Fey, & J. Xiao // IEEE Transactions on Automation Science and Engineering. – 20(4). – 2023. – P. 2397-2408. DOI: 10.1109/TASE.2022.3208796 16. Low-Contact Grasping of Soft Tissue using a Novel Vortex Gripper / R. Mykhailyshyn, A. Majewicz Fey // 2024 International Symposium on Medical Robotics (ISMR). – 2024. 17. Finite element modeling of grasping porous materials in robotics cells / R. Mykhailyshyn, A. Majewicz Fey, J. Xiao // Robotica. – 41(2). – 2023. – P. 3485-3500. – DOI: 10.1017/S0263574723001121. 18. Problems Modeling the Process of Manipulation Flexible Objects in Robotics / R. Mykhailyshyn, M. Mykhailyshyn, F. Duchon, M. Kelemen, A. Majewicz Fey, J. Xiao // International Scientific-Technical Conference "Mathematical Methods and Models of Technical and Economic Systems". – 2022. – P. 73-74. 19. Increasing the Holding Force of Non-Rigid Materials Through Robot End-Effector Reorientation / R. Mykhailyshyn, A. Majewicz Fey, J. Xiao // IROS 2023 Workshop on Leveraging Models for Contact-Rich Manipulation – IEEE, 2023. 20. Toward Novel Grasping of Non-Rigid Materials Through Robotic End-Effector Reorientation / R. Mykhailyshyn, A. Majewicz Fey, J. Xiao // IEEE/ASME Transactions on Mechatronics – 2024. DOI: 10.1109/TMECH.2023.3337628.
References (International):	1. Sensing of Continuum Robots: A Review / P.J. Sincak, E. Prada, L. Miková, R. Mykhailyshyn, M. Varga, T. Merva, I. Virgala // Sensors. – 24(4). – 2024. – DOI: 10.3390/s24041311 2. Mathematical Modeling of Robotic Locomotion Systems / E. Prada, L. Mikova, I. Virgala, M. Kelemen, P.J. Sinčák, R. Mykhailyshyn // Symmetry. – 16(3). – 2024. DOI: 10.3390/sym16030376 3. Robot Trajectory Planning / D. Hroncova, P. Sincak, T. Merva R. Mykhailyshyn // MM Science Journal. – 2022. – DOI: 10.17973/MMSJ.2022_11_2022093 4. Global Path Planning Method Based on a Modification of the Wavefront Algorithm for Ground Mobile Robots / R. Mykhailyshyn, V. Savkiv, I. Diahovchenko, F. Duchon, R. Trembach // Robotics. – 12(1). – 2023. – P. 527-532. – DOI: 10.3390/robotics12010025 5. Substantiation of Parameters of Friction Elements of Bernoulli Grippers With a Cylindrical Nozzle / R. Mykhailyshyn, V. Savkiv, I. Boyko, E. Prada, & I. Virgala // International Journal of Manufacturing, Materials, and Mechanical Engineering (IJMMME). – 11(2). – 2021. – P. 17-39. – DOI: 10.4018/IJMMME.2021040102 6. A Systematic Review on Pneumatic Gripping Devices for Industrial Robots / R. Mykhailyshyn, V. Savkiv, P. Maruschak, J. Xiao // Transport. – 37(3). – 2022. – P. 201-231. – DOI: 10.3846/transport.2022.17110 7. Three-Dimensional Printing of Cylindrical Nozzle Elements of Bernoulli Gripping Devices for Industrial Robots / R. Mykhailyshyn, F. Duchoň, M. Mykhailyshyn, A. Majewicz Fey // Robotics. – 11(6). – 2022. – DOI: 10.3390/robotics11060140 8. Optimization of Outer Diameter Bernoulli Gripper with Cylindrical Nozzle / R. Mykhailyshyn, F. Duchoň, I. Virgala, P.J. Sinčák, A. Majewicz Fey // Machines. – 11(6). – 2023. – DOI: 10.3390/machines11060667 9. Influence of Inlet Parameters on Power Characteristics of Bernoulli Gripping Devices for Industrial Robots / R. Mykhailyshyn, J. Xiao // Applied Sciences. – 12(14). – 2022. 7074. DOI: 10.3390/app12147074 10. Experimental Research of the Manipulatiom Process by the Objects Using Bernoulli Gripping Devices / R. Mykhailyshyn, V. Savkiv, M. Mikhalishin, F. Duchon // In Young Scientists Forum on Applied Physics and Engineering, International IEEE Conference. – 2017. – P. 8-11. – DOI: 10.1109/YSF.2017.8126583 11. Orientation Modeling of Bernoulli Gripper Device with Off-Centered Masses of the Manipulating Object / V. Savkiv, R. Mykhailyshyn, O. Fendo, M. Mykhailyshyn // Procedia Engineering. – 2017. – № 187. – P. 264-271. – DOI: 10.1016/j.proeng.2017.04.374 12. Михайлишин Р.І. Обґрунтування параметрів та орієнтації струминного захоплювача маніпулятора для автоматизації вантажно-розвантажувальних операцій: автореф. дис. на здобуття наук. ступеня канд. техн. наук : спец. 05.05.05 “Піднімально-транспортні машини” / Р.І. Михайлишин. – Тернопіль, 2018. – 21 с 13. Energy efficiency analysis of the manipulation process by the industrial objects with the use of Bernoulli gripping devices / V. Savkiv, R. Mykhailyshyn, F. Duchoň, M. Mykhailyshyn // Journal of Electrical Engineering. – 2017. – 68(6). – P. 496-502 14. Modeling of Bernoulli gripping device orientation when manipulating objects along the arc/ V. Savkiv, R. Mykhailyshyn, Duchoň, M. Mykhailyshyn // International Journal of Advanced Robotic Systems. – 15(2). – 2018. – P. 2397-2408. DOI: 10.1177/1729881418762670 15. Gripping Device for Textile Materials / R. Mykhailyshyn, V. Savkiv, A. Majewicz Fey, & J. Xiao // IEEE Transactions on Automation Science and Engineering. – 20(4). – 2023. – P. 2397-2408. DOI: 10.1109/TASE.2022.3208796 16. Low-Contact Grasping of Soft Tissue using a Novel Vortex Gripper / R. Mykhailyshyn, A. Majewicz Fey // 2024 International Symposium on Medical Robotics (ISMR). – 2024 17. Finite element modeling of grasping porous materials in robotics cells / R. Mykhailyshyn, A. Majewicz Fey, J. Xiao // Robotica. – 41(2). – 2023. – P. 3485-3500. – DOI: 10.1017/S0263574723001121 18. Problems Modeling the Process of Manipulation Flexible Objects in Robotics / R. Mykhailyshyn, M. Mykhailyshyn, F. Duchon, M. Kelemen, A. Majewicz Fey, J. Xiao // International Scientific-Technical Conference "Mathematical Methods and Models of Technical and Economic Systems". – 2022. – P. 73-74 19. Increasing the Holding Force of Non-Rigid Materials Through Robot End-Effector Reorientation / R. Mykhailyshyn, A. Majewicz Fey, J. Xiao // IROS 2023 Workshop on Leveraging Models for Contact-Rich Manipulation – IEEE, 2023 20. Toward Novel Grasping of Non-Rigid Materials Through Robotic End-Effector Reorientation / R. Mykhailyshyn, A. Majewicz Fey, J. Xiao // IEEE/ASME Transactions on Mechatronics – 2024. DOI: 10.1109/TMECH.2023.3337628 21. Virgala, I., Varga, M., Sinčák, P. J., Merva, T., Mykhailyshyn, R., & Kelemen, M. (2024). Mathematical framework for snake robot motion in a confined space. Applied Mathematical Modelling, 132, 22-40. 22. Stadnyk, I., Piddubnyi, V., Mykhailyshyn, R., Petrychenko, I., Fedoriv, V., & Kaspruk, V. (2023). The Influence of Rheology and Design of Modeling Rolls On the Flow and Specific Gravity During Dough Rolling and Injection. Journal of Advanced Manufacturing Systems, 22(02), 403-421. 1. Sensing of Continuum Robots: A Review / P.J. Sincak, E. Prada, L. Miková, R. Mykhailyshyn, M. Varga, T. Merva, I. Virgala // Sensors. – 24(4). – 2024. – DOI: 10.3390/s24041311. 2. Mathematical Modeling of Robotic Locomotion Systems / E. Prada, L. Mikova, I. Virgala, M. Kelemen, P.J. Sinčák, R. Mykhailyshyn // Symmetry. – 16(3). – 2024. DOI: 10.3390/sym16030376 3. Robot Trajectory Planning / D. Hroncova, P. Sincak, T. Merva R. Mykhailyshyn // MM Science Journal. – 2022. – DOI: 10.17973/MMSJ.2022_11_2022093. 4. Global Path Planning Method Based on a Modification of the Wavefront Algorithm for Ground Mobile Robots / R. Mykhailyshyn, V. Savkiv, I. Diahovchenko, F. Duchon, R. Trembach // Robotics. – 12(1). – 2023. – P. 527-532. – DOI: 10.3390/robotics12010025. 5. Substantiation of Parameters of Friction Elements of Bernoulli Grippers With a Cylindrical Nozzle / R. Mykhailyshyn, V. Savkiv, I. Boyko, E. Prada, & I. Virgala // International Journal of Manufacturing, Materials, and Mechanical Engineering (IJMMME). – 11(2). – 2021. – P. 17-39. – DOI: 10.4018/IJMMME.2021040102. 6. A Systematic Review on Pneumatic Gripping Devices for Industrial Robots / R. Mykhailyshyn, V. Savkiv, P. Maruschak, J. Xiao // Transport. – 37(3). – 2022. – P. 201-231. – DOI: 10.3846/transport.2022.17110 7. Three-Dimensional Printing of Cylindrical Nozzle Elements of Bernoulli Gripping Devices for Industrial Robots / R. Mykhailyshyn, F. Duchoň, M. Mykhailyshyn, A. Majewicz Fey // Robotics. – 11(6). – 2022. – DOI: 10.3390/robotics11060140. 8. Optimization of Outer Diameter Bernoulli Gripper with Cylindrical Nozzle / R. Mykhailyshyn, F. Duchoň, I. Virgala, P.J. Sinčák, A. Majewicz Fey // Machines. – 11(6). – 2023. – DOI: 10.3390/machines11060667. 9. Influence of Inlet Parameters on Power Characteristics of Bernoulli Gripping Devices for Industrial Robots / R. Mykhailyshyn, J. Xiao // Applied Sciences. – 12(14). – 2022. 7074. DOI: 10.3390/app12147074. 10. Experimental Research of the Manipulatiom Process by the Objects Using Bernoulli Gripping Devices / R. Mykhailyshyn, V. Savkiv, M. Mikhalishin, F. Duchon // In Young Scientists Forum on Applied Physics and Engineering, International IEEE Conference. – 2017. – P. 8-11. – DOI: 10.1109/YSF.2017.8126583 11. Orientation Modeling of Bernoulli Gripper Device with Off-Centered Masses of the Manipulating Object / V. Savkiv, R. Mykhailyshyn, O. Fendo, M. Mykhailyshyn // Procedia Engineering. – 2017. – № 187. – P. 264-271. – DOI: 10.1016/j.proeng.2017.04.374 12. Михайлишин Р.І. Обґрунтування параметрів та орієнтації струминного захоплювача маніпулятора для автоматизації вантажно-розвантажувальних операцій: автореф. дис. на здобуття наук. ступеня канд. техн. наук : спец. 05.05.05 “Піднімально-транспортні машини” / Р.І. Михайлишин. – Тернопіль, 2018. – 21 с. 13. Energy efficiency analysis of the manipulation process by the industrial objects with the use of Bernoulli gripping devices / V. Savkiv, R. Mykhailyshyn, F. Duchoň, M. Mykhailyshyn // Journal of Electrical Engineering. – 2017. – 68(6). – P. 496-502. 14. Modeling of Bernoulli gripping device orientation when manipulating objects along the arc/ V. Savkiv, R. Mykhailyshyn, Duchoň, M. Mykhailyshyn // International Journal of Advanced Robotic Systems. – 15(2). – 2018. – P. 2397-2408. DOI: 10.1177/1729881418762670 15. Gripping Device for Textile Materials / R. Mykhailyshyn, V. Savkiv, A. Majewicz Fey, & J. Xiao // IEEE Transactions on Automation Science and Engineering. – 20(4). – 2023. – P. 2397-2408. DOI: 10.1109/TASE.2022.3208796 16. Low-Contact Grasping of Soft Tissue using a Novel Vortex Gripper / R. Mykhailyshyn, A. Majewicz Fey // 2024 International Symposium on Medical Robotics (ISMR). – 2024. 17. Finite element modeling of grasping porous materials in robotics cells / R. Mykhailyshyn, A. Majewicz Fey, J. Xiao // Robotica. – 41(2). – 2023. – P. 3485-3500. – DOI: 10.1017/S0263574723001121. 18. Problems Modeling the Process of Manipulation Flexible Objects in Robotics / R. Mykhailyshyn, M. Mykhailyshyn, F. Duchon, M. Kelemen, A. Majewicz Fey, J. Xiao // International Scientific-Technical Conference "Mathematical Methods and Models of Technical and Economic Systems". – 2022. – P. 73-74. 19. Increasing the Holding Force of Non-Rigid Materials Through Robot End-Effector Reorientation / R. Mykhailyshyn, A. Majewicz Fey, J. Xiao // IROS 2023 Workshop on Leveraging Models for Contact-Rich Manipulation – IEEE, 2023. 20. Toward Novel Grasping of Non-Rigid Materials Through Robotic End-Effector Reorientation / R. Mykhailyshyn, A. Majewicz Fey, J. Xiao // IEEE/ASME Transactions on Mechatronics – 2024. DOI: 10.1109/TMECH.2023.3337628.
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