Development of an interdisciplinary research, education and development centre using 3D printing and visualisation technologies at the University of Pécs (Q3923135): Difference between revisions
Jump to navigation
Jump to search
(Changed an Item: add summary) |
(Changed an Item: Adding English translations) |
||||||||||||||
| Property / summary | |||||||||||||||
A.) The purpose of the call for proposals is to strengthen the R & D capacity of knowledge bases in order to achieve internationally listed high-quality research results. Our project achieves unique and niche goals in Hungary, as there is currently no complex, interdisciplinaryly built innovation and service center based on 3D visualisation and printing technologies. The 3D center is made uninitial by the university environment, the interdisciplinary research community, the excellent cooperation partners, the organically related economic sector and the novelty of the relevant techniques. Our application directly fits many National Smart Specialisation Strategy goals and specialisation directions. The 3D printing technology — the essence of which is to create different spatial elements from layer to layer with a 3D printer — was developed in the 1960s, but started rapidly after 2010. This is illustrated by the number of patents worldwide. The possibilities for applying these technologies continue to grow today. 3D printing technology uses a wide range of materials — thanks to its wide applicability — the potential of material engineering and methodological research is therefore outstanding within the field of science. The development will launch interdisciplinary R & D & I activities that are important internationally and with which our region is able to catch up with the most advanced centres in Europe in terms of relevant research. To do this, we have the relevant knowledge in different disciplines. Our research will be based on the optimised application of 3D technology solutions. Technical technical coordination will be carried out by researchers from the Faculty of Technology and Informatics (MIK). The Faculty has the necessary knowledge, the experience necessary for the successful implementation of the project, and the Faculty is suitable for the execution of various design, construction, automation and engineering works in an interdisciplinary system. In some disciplines, the University of Pécs has a long tradition in the application of 3D technologies, while other areas will be subject to spectacular development after the implementation of the present application. This is why the expertise and experience of our consortium partners, the research teams of the University of Debrecen (directed by Csaba Hegedűs and Zoltán Csernátony), is essential. B.) Technical and artistic applications The planned research is based on the joint, coordinated work of experts in different fields. The MIK will conduct direct research in the fields of mechanical and technical IT. These are: O hydrogen cell vehicle project; O development and manufacture of medical devices; O design and manufacture of parametrisable medical implants; development of 3D imaging for multi-frequency electrical impedance tomography. Research is also part of research into what new forms and structures can appear in traditional industrial design and product design with the help of 3D printing. The Faculty of Engineering also participates in the partial research of medical applications, such as implant design, mechanical and material examination, dental application design in orthopaedic applications, as well as the development of material structures for better integration and fixation. Among many other competencies, the use of MIK’s experience in design, material science, flow science, and 3D imaging in any field can make the achievement of goals more effective. Led by Bálint Bachmann, the results of the MIK research group of István Háber, Géza Várady and Péter Iványi also offer significant economic potential. With 3D sensors mounted on drones, we get an accurate spatial image that can be used in the areas of architecture, control technology, object and person observation. For this we develop innovative 3D scanning procedures and software, as well as sensor technology and mobile IT infrastructure. Researchers of the Faculty of Arts will also be involved in architectural-related research, who will carry out their work under the leadership of György Fusz. The objectives of this research are: development of adaptive building coverings; O parametric design; In the development studies of adaptive building coverings, we plan to print alternative materials. By implementing parametric designs, we create tangible virtual forms. At the Faculty of Arts, György Fusz, Colin Foster and Márta Nagy will examine the technical needs of fine arts that cannot be met without the use of 3D technologies. Building on the capabilities of the 3D centre and the Faculty, we will develop a Design Center for the efficient development of the creative industry. To this, sculpture, applied art (ceramic and porcelain), graphic design and painting are related to several points. (English) | |||||||||||||||
| Property / summary: A.) The purpose of the call for proposals is to strengthen the R & D capacity of knowledge bases in order to achieve internationally listed high-quality research results. Our project achieves unique and niche goals in Hungary, as there is currently no complex, interdisciplinaryly built innovation and service center based on 3D visualisation and printing technologies. The 3D center is made uninitial by the university environment, the interdisciplinary research community, the excellent cooperation partners, the organically related economic sector and the novelty of the relevant techniques. Our application directly fits many National Smart Specialisation Strategy goals and specialisation directions. The 3D printing technology — the essence of which is to create different spatial elements from layer to layer with a 3D printer — was developed in the 1960s, but started rapidly after 2010. This is illustrated by the number of patents worldwide. The possibilities for applying these technologies continue to grow today. 3D printing technology uses a wide range of materials — thanks to its wide applicability — the potential of material engineering and methodological research is therefore outstanding within the field of science. The development will launch interdisciplinary R & D & I activities that are important internationally and with which our region is able to catch up with the most advanced centres in Europe in terms of relevant research. To do this, we have the relevant knowledge in different disciplines. Our research will be based on the optimised application of 3D technology solutions. Technical technical coordination will be carried out by researchers from the Faculty of Technology and Informatics (MIK). The Faculty has the necessary knowledge, the experience necessary for the successful implementation of the project, and the Faculty is suitable for the execution of various design, construction, automation and engineering works in an interdisciplinary system. In some disciplines, the University of Pécs has a long tradition in the application of 3D technologies, while other areas will be subject to spectacular development after the implementation of the present application. This is why the expertise and experience of our consortium partners, the research teams of the University of Debrecen (directed by Csaba Hegedűs and Zoltán Csernátony), is essential. B.) Technical and artistic applications The planned research is based on the joint, coordinated work of experts in different fields. The MIK will conduct direct research in the fields of mechanical and technical IT. These are: O hydrogen cell vehicle project; O development and manufacture of medical devices; O design and manufacture of parametrisable medical implants; development of 3D imaging for multi-frequency electrical impedance tomography. Research is also part of research into what new forms and structures can appear in traditional industrial design and product design with the help of 3D printing. The Faculty of Engineering also participates in the partial research of medical applications, such as implant design, mechanical and material examination, dental application design in orthopaedic applications, as well as the development of material structures for better integration and fixation. Among many other competencies, the use of MIK’s experience in design, material science, flow science, and 3D imaging in any field can make the achievement of goals more effective. Led by Bálint Bachmann, the results of the MIK research group of István Háber, Géza Várady and Péter Iványi also offer significant economic potential. With 3D sensors mounted on drones, we get an accurate spatial image that can be used in the areas of architecture, control technology, object and person observation. For this we develop innovative 3D scanning procedures and software, as well as sensor technology and mobile IT infrastructure. Researchers of the Faculty of Arts will also be involved in architectural-related research, who will carry out their work under the leadership of György Fusz. The objectives of this research are: development of adaptive building coverings; O parametric design; In the development studies of adaptive building coverings, we plan to print alternative materials. By implementing parametric designs, we create tangible virtual forms. At the Faculty of Arts, György Fusz, Colin Foster and Márta Nagy will examine the technical needs of fine arts that cannot be met without the use of 3D technologies. Building on the capabilities of the 3D centre and the Faculty, we will develop a Design Center for the efficient development of the creative industry. To this, sculpture, applied art (ceramic and porcelain), graphic design and painting are related to several points. (English) / rank | |||||||||||||||
Normal rank | |||||||||||||||
| Property / summary: A.) The purpose of the call for proposals is to strengthen the R & D capacity of knowledge bases in order to achieve internationally listed high-quality research results. Our project achieves unique and niche goals in Hungary, as there is currently no complex, interdisciplinaryly built innovation and service center based on 3D visualisation and printing technologies. The 3D center is made uninitial by the university environment, the interdisciplinary research community, the excellent cooperation partners, the organically related economic sector and the novelty of the relevant techniques. Our application directly fits many National Smart Specialisation Strategy goals and specialisation directions. The 3D printing technology — the essence of which is to create different spatial elements from layer to layer with a 3D printer — was developed in the 1960s, but started rapidly after 2010. This is illustrated by the number of patents worldwide. The possibilities for applying these technologies continue to grow today. 3D printing technology uses a wide range of materials — thanks to its wide applicability — the potential of material engineering and methodological research is therefore outstanding within the field of science. The development will launch interdisciplinary R & D & I activities that are important internationally and with which our region is able to catch up with the most advanced centres in Europe in terms of relevant research. To do this, we have the relevant knowledge in different disciplines. Our research will be based on the optimised application of 3D technology solutions. Technical technical coordination will be carried out by researchers from the Faculty of Technology and Informatics (MIK). The Faculty has the necessary knowledge, the experience necessary for the successful implementation of the project, and the Faculty is suitable for the execution of various design, construction, automation and engineering works in an interdisciplinary system. In some disciplines, the University of Pécs has a long tradition in the application of 3D technologies, while other areas will be subject to spectacular development after the implementation of the present application. This is why the expertise and experience of our consortium partners, the research teams of the University of Debrecen (directed by Csaba Hegedűs and Zoltán Csernátony), is essential. B.) Technical and artistic applications The planned research is based on the joint, coordinated work of experts in different fields. The MIK will conduct direct research in the fields of mechanical and technical IT. These are: O hydrogen cell vehicle project; O development and manufacture of medical devices; O design and manufacture of parametrisable medical implants; development of 3D imaging for multi-frequency electrical impedance tomography. Research is also part of research into what new forms and structures can appear in traditional industrial design and product design with the help of 3D printing. The Faculty of Engineering also participates in the partial research of medical applications, such as implant design, mechanical and material examination, dental application design in orthopaedic applications, as well as the development of material structures for better integration and fixation. Among many other competencies, the use of MIK’s experience in design, material science, flow science, and 3D imaging in any field can make the achievement of goals more effective. Led by Bálint Bachmann, the results of the MIK research group of István Háber, Géza Várady and Péter Iványi also offer significant economic potential. With 3D sensors mounted on drones, we get an accurate spatial image that can be used in the areas of architecture, control technology, object and person observation. For this we develop innovative 3D scanning procedures and software, as well as sensor technology and mobile IT infrastructure. Researchers of the Faculty of Arts will also be involved in architectural-related research, who will carry out their work under the leadership of György Fusz. The objectives of this research are: development of adaptive building coverings; O parametric design; In the development studies of adaptive building coverings, we plan to print alternative materials. By implementing parametric designs, we create tangible virtual forms. At the Faculty of Arts, György Fusz, Colin Foster and Márta Nagy will examine the technical needs of fine arts that cannot be met without the use of 3D technologies. Building on the capabilities of the 3D centre and the Faculty, we will develop a Design Center for the efficient development of the creative industry. To this, sculpture, applied art (ceramic and porcelain), graphic design and painting are related to several points. (English) / qualifier | |||||||||||||||
point in time: 8 February 2022
| |||||||||||||||
Revision as of 17:45, 8 February 2022
Project Q3923135 in Hungary
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Development of an interdisciplinary research, education and development centre using 3D printing and visualisation technologies at the University of Pécs |
Project Q3923135 in Hungary |
Statements
1,849,878,059 forint
0 references
5,056,874.019 Euro
0.0027336256 Euro
15 December 2021
0 references
1,849,878,059.0 forint
0 references
100.0 percent
0 references
1 October 2016
0 references
29 December 2021
0 references
PÉCSI TUDOMÁNYEGYETEM
0 references
46°4'35.72"N, 18°13'40.94"E
0 references
A.) A pályázati kiírás célja a tudásbázisok K+F kapacitásának az erősítése annak érdekében, hogy nemzetközileg jegyzett, magas színvonalú kutatási eredmények születhessenek. Projektünk hazánkban egyedülálló és hiánypótló célokat valósít meg, hiszen jelenleg nem létezik olyan komplex, interdiszciplinárisan felépített innovációs és szolgáltató centrum, amely a 3D vizualizációs és nyomtatási technológiákon alapszik. A 3D központot az egyetemi környezet, az interdiszciplináris kutatói közösség, a kiváló együttműködő partnerek, a szervesen kapcsolódó gazdasági szektor, valamint a vonatkozó technikák újszerűsége teszi unikálissá. Pályázatunk közvetlenül illeszkedik számos Nemzeti Intelligens Szakosodási Stratégiai célhoz és szakosodási irányhoz is. A 3D nyomtatási technológia – amelynek lényege, hogy különböző térelemeket rétegről-rétegre hozunk létre egy 3D nyomtatóval – az 1960-as években alakult ki, rohamos fejlődésnek viszont 2010 után indult. Ezt szemlélteti a világviszonylatban megjelenő szabadalmak száma is. Ezen technológiák alkalmazási lehetőségei napjainkban is bővülnek. A 3D nyomtatási technológia számos anyagot felhasznál – köszönhetően széleskörű alkalmazhatóságának – ennek megfelelően az anyagtani és módszertani kutatások lehetőségei kiemelkedőek a tudományterületen belül. A fejlesztéssel olyan interdiszciplináris K+F+I tevékenységek indulnak el, amelyek nemzetközi viszonylatban is jelentősek, és amelyekkel régiónk fel tud zárkózni a vonatkozó kutatások tekintetében a legfejlettebb európai központokhoz. Ehhez a vonatkozó ismeretek a különböző tudományterületeken rendelkezésünkre állnak. Kutatásaink alapja a 3D technológiai megoldások optimalizált alkalmazása lesz. A műszaki szakmai koordinációt a Műszaki és Informatikai Kar (MIK) kutatói végzik majd. A Karon rendelkezésre állnak a szükséges ismeretek, megvannak a projekt sikeres megvalósításához szükséges tapasztalatok is, továbbá a Kar alkalmas egy interdiszciplináris rendszerben a különböző tervezői, konstruktőri, automatizálási és mérnöki munkák kivitelezésére. Egyes tudományterületeken komoly hagyományokkal rendelkezik a Pécsi Tudományegyetem a 3D technológiák alkalmazásában, míg más területek látványos fejlődés a jelen pályázat megvalósítását követően lesz megfigyelhető. Ezért elengedhetetlen fontosságú konzorciumi partnereinknek, a Debreceni Egyetem (Hegedűs Csaba és Csernátony Zoltán irányításával működő) kutatócsoportjainak a projekt számára biztosított szakértelme és tapasztalata. B.) Műszaki és művészeti alkalmazások A tervezett kutatások a különböző területek szakértőinek közös, összehangolt munkájára épülnek. A MIK közvetlen kutatásokat végez majd gépészeti és műszaki informatikai területeken. Ezek: o hidrogéncellás járműprojekt; o orvosi eszközök fejlesztése, gyártása; o parametrizálható orvosi implantátumok tervezése, gyártása; valamint kilökődés vizsgálata non-invazív eljárással odrón technológia labor;o 3D képalkotás fejlesztése multi-frekvenciás elektromos impedancia tomográfiához A kutatások része annak vizsgálata is, hogy a hagyományos ipari forma- és terméktervezésben milyen új formák, struktúrák jelenhetnek meg a 3D nyomtatás segítségével. A Műszaki Kar részt vesz továbbá az orvosi alkalmazások részkutatásaiban is, úgymint az ortopédiai alkalmazásokban az implantátumok tervezésében, mechanikai és anyagtani vizsgálataiban, a fogászati alkalmazások tervezésében, továbbá mindkettő esetében anyagstruktúrák fejlesztésében a jobb beépülés és rögzülés miatt. Számos egyéb kompetencia mellett az MIK tervezési-, anyagtudományi-, áramlástani- és a 3D képalkotási tapasztalatainak felhasználása bármely területen hatékonyabbá teheti a célok elérését. Bachmann Bálint vezetésével a Háber István, Várady Géza és Iványi Péter alkotta MIK kutatócsoport eredményei jelentős gazdasági potenciált is rejtenek. A drónokra szerelhető 3D-érzékelőkkel pontos térbeli képet kapunk, amit fel lehet használni az építészet, irányítástechnika, objektum és személy megfigyelés területein. Ehhez innovatív 3D szkennelési eljárásokat és szoftvereket, illetve szenzor technikát és mobil informatikai infrastruktúrát fejlesztünk. Az építészeti vonatkozású kutatásokban szerepet kapnak a Művészeti Kar kutatói is, akik Fusz György vezetésével végzik majd munkájukat. Ezen kutatások céljai a következők: adaptív épületburkolatok fejlesztése; o parametrikus tervezés; Az adaptív épületburkolatok fejlesztési vizsgálatokban alternatív anyagok nyomtatását tervezzük. A parametrikus tervezések megvalósításával kézzelfogható virtuális formákat hozunk létre. A Művészeti Karon a Fusz György, Colin Foster és Nagy Márta a képzőművészetnek azokat a műszaki igényeit fogja megvizsgálni, amelyek a 3D technológiák alkalmazása nélkül nem elégíthetők ki. A kreatív ipar hatékony fejlesztése érdekében a 3D központ és a Kar adottságaira építve Design Centrumot alakítunk ki. Ehhez a szobrászat, az alkalmazott művészet (kerámia és porcelán), a tervezőgrafika és a festészet több ponton is kapcsolódik. (Hungarian)
0 references
A.) The purpose of the call for proposals is to strengthen the R & D capacity of knowledge bases in order to achieve internationally listed high-quality research results. Our project achieves unique and niche goals in Hungary, as there is currently no complex, interdisciplinaryly built innovation and service center based on 3D visualisation and printing technologies. The 3D center is made uninitial by the university environment, the interdisciplinary research community, the excellent cooperation partners, the organically related economic sector and the novelty of the relevant techniques. Our application directly fits many National Smart Specialisation Strategy goals and specialisation directions. The 3D printing technology — the essence of which is to create different spatial elements from layer to layer with a 3D printer — was developed in the 1960s, but started rapidly after 2010. This is illustrated by the number of patents worldwide. The possibilities for applying these technologies continue to grow today. 3D printing technology uses a wide range of materials — thanks to its wide applicability — the potential of material engineering and methodological research is therefore outstanding within the field of science. The development will launch interdisciplinary R & D & I activities that are important internationally and with which our region is able to catch up with the most advanced centres in Europe in terms of relevant research. To do this, we have the relevant knowledge in different disciplines. Our research will be based on the optimised application of 3D technology solutions. Technical technical coordination will be carried out by researchers from the Faculty of Technology and Informatics (MIK). The Faculty has the necessary knowledge, the experience necessary for the successful implementation of the project, and the Faculty is suitable for the execution of various design, construction, automation and engineering works in an interdisciplinary system. In some disciplines, the University of Pécs has a long tradition in the application of 3D technologies, while other areas will be subject to spectacular development after the implementation of the present application. This is why the expertise and experience of our consortium partners, the research teams of the University of Debrecen (directed by Csaba Hegedűs and Zoltán Csernátony), is essential. B.) Technical and artistic applications The planned research is based on the joint, coordinated work of experts in different fields. The MIK will conduct direct research in the fields of mechanical and technical IT. These are: O hydrogen cell vehicle project; O development and manufacture of medical devices; O design and manufacture of parametrisable medical implants; development of 3D imaging for multi-frequency electrical impedance tomography. Research is also part of research into what new forms and structures can appear in traditional industrial design and product design with the help of 3D printing. The Faculty of Engineering also participates in the partial research of medical applications, such as implant design, mechanical and material examination, dental application design in orthopaedic applications, as well as the development of material structures for better integration and fixation. Among many other competencies, the use of MIK’s experience in design, material science, flow science, and 3D imaging in any field can make the achievement of goals more effective. Led by Bálint Bachmann, the results of the MIK research group of István Háber, Géza Várady and Péter Iványi also offer significant economic potential. With 3D sensors mounted on drones, we get an accurate spatial image that can be used in the areas of architecture, control technology, object and person observation. For this we develop innovative 3D scanning procedures and software, as well as sensor technology and mobile IT infrastructure. Researchers of the Faculty of Arts will also be involved in architectural-related research, who will carry out their work under the leadership of György Fusz. The objectives of this research are: development of adaptive building coverings; O parametric design; In the development studies of adaptive building coverings, we plan to print alternative materials. By implementing parametric designs, we create tangible virtual forms. At the Faculty of Arts, György Fusz, Colin Foster and Márta Nagy will examine the technical needs of fine arts that cannot be met without the use of 3D technologies. Building on the capabilities of the 3D centre and the Faculty, we will develop a Design Center for the efficient development of the creative industry. To this, sculpture, applied art (ceramic and porcelain), graphic design and painting are related to several points. (English)
8 February 2022
0 references
Pécs, Baranya
0 references
Identifiers
GINOP-2.3.2-15-2016-00022
0 references