ERASMUS + PROJECT "ERGODESIGN"
Goal: Project Acronym: ErgoDesign
Field: Higher Education
Grant Agreement Number: 2021-1-PL01-KA220-HED-000031182, Total grant: 320 115 €
Action Type Cooperation partnerships in higher education, Field HED, Call 2021
Project Total Duration (months) 36: Project Start Date 2021-12-01 - Project End Date 2024-11-30
Official website/s: http://ergodesigner.eu/ & http://ergodesigner.tu-varna.bg/
The consortium as whole:
The consortium is responsible for the ErgoDesign project.
https://www.facebook.com/profile.php?id=100078144126313&sk=about_privacy_and_legal_info
The consortium consists of the following organizations:
• Poznan University of Technology (PUT) - Poznan, Poland - General Coordinator
• Technical University of Varna (TUV) - Varna, Bulgaria
• Óbuda University (ÓU) - Budapest, Hungary
• National Technical University of Athens (NTUA) - Athens, Greece
• Technická univerzita v Košiciach (TUKE) - Kosice, Slovakia
• ValueDo - Italy - Florence, Italy
Substantive partners:
• Universities AP:
- University of West Attica School of Engineering (GR)
- University of Presov (SL)
- University of Zielona Góra (PL)
- Lodz University of Technology (PL)
- Organization Center of Registration of European Ergonomics, University of Bordeaux (FR). It is the only body endorsed to certify professional ergonomists in Europe.
• Networks and ICSTED:
- Bulgarian Association of Ergonomics and Human Factors (BAEHF)
- Polish Ergonomics Society, an interdisciplinary organization for the development and popularization of Ergonomics in Poland
- Inclusion and Innovation Technology Center, representing engineers' and engineering knowledge within the largest Hungarian disability organization
- ICSTED
Date: 1 December 2021 - 30 November 2024
Acknowledgements
Erasmus—Project KA220-HED-000031182—Cooperation partnerships in higher education, Project Title: “ErgoDesign–Improving digital skills for Ergonomics and Bioengineering Innovations for inclusive Health Care” 2021–2024;
Ergonomics and Human Factors Regional Educational CEEPUS Network CIII-HU-1506-01-2021;
Bulgarian Association of Ergonomics and Human Factors (BAEHF);
Dentaprime Dental Clinic.
Diana Pavlova, Tihomir Dovramadjiev, Ivan Peev, Dimo Daskalov, Nikolay Mirchev, Rozalina Dimova, Julia Radeva, Gyula Szabo, Beata Mrugalska & Andromachos Kandioglou . (2024). Human Factors and Use of the Surgical Guide in Dentistry—Real Practice Example. In: Kaiser, M.S., Xie, J., Rathore, V.S. (eds) Intelligent Strategies for ICT. ICTCS 2023. Lecture Notes in Networks and Systems, vol 941. Springer, Singapore.
https://doi.org/10.1007/978-981-97-1260-1_22
https://link.springer.com/chapter/10.1007/978-981-97-1260-1_22
Abstract
This article focuses on advanced technologies and digital processes in dental implant surgery, in line with the principles of Industry 4.0. The human factors that are directly present in dentistry are taken into account. This gives reason to pay serious attention to the application of surgical guides in practice in order to support human activity. Surgical guides play a critical role in ensuring accurate implant positioning, supported by comprehensive examinations using dental impressions and CT scans. Using specialized software, digitally personalized surgical guides are designed to take into account the optimal implant position, angle and depth. These guides, created using CAD/CAM techniques, act as precise templates during surgery, guiding the dentist to place the implants precisely according to the pre-planned design. The surgical procedure involves careful site preparation and implant placement, followed by post-operative care to ensure successful healing and integration. By incorporating technological advances such as CT scanning, digital planning and 3D printing, the use of surgical guides exemplifies the potential of Industry 4.0 to improve the accuracy, efficiency and outcomes of dental implant surgery.
Author information
Authors and Affiliations
Dentaprime Dental Clinic, St.St. Constantine and Helena, 27, 1, Villa Area, Varna, 9006, Bulgaria
Diana Pavlova, Ivan Peev, Dimo Daskalov, Nikolay Mirchev & Julia Radeva
Technical University of Varna, Studentska 1, 9010, Varna, Bulgaria
Tihomir Dovramadjiev & Rozalina Dimova
Obuda University, Bécsi út 94-96, 1034, Budapest, Hungary
Gyula Szabo
Poznań University of Technology, pl. Marii Skłodowskiej-Curie 5 60-965, Poznań, Poland
Beata Mrugalska
Dentaprime F3T Dental Implant Clinic, London, Е15 2QR, UK
Andromachos Kandioglou
Erasmus + project KA220-HED-000031182—Cooperation partnerships in higher education, Project Title: “ErgoDesign–Improving digital skills for Ergonomics and Bioengineering Innovations for inclusive Health Care” 2021–2024; Ergonomics and Human Factors Regional Educational CEEPUS Network CIII-HU-1506-01-2021; Bulgarian Association of Ergonomics and Human Factors (BAEHF); Dentaprime Dental Clinic.
Diana Pavlova, Tihomir Dovramadjiev, Dimo Daskalov, Ivan Peev, Nikolay Mirchev, Rozalina Dimova & Julia Radeva (2024). Impact of Artificial Intelligence and Human Factors in Hybrid Intelligence Dentistry. In: Yang, XS., Sherratt, S., Dey, N., Joshi, A. (eds) Proceedings of Ninth International Congress on Information and Communication Technology. ICICT 2024 2024. Lecture Notes in Networks and Systems, vol 1014. Springer, Singapore. https://doi.org/10.1007/978-981-97-3562-4_18
https://link.springer.com/chapter/10.1007/978-981-97-3562-4_18
Abstract
The field of dentistry is being transformed by the integration of Artificial Intelligence (AI) and careful consideration of human factors, resulting in the emergence of Hybrid Intelligence Dentistry (HID). This article explores the profound impact of AI and human factors in the context of dentistry, emphasizing the synergy between technological advances and human expertise. The article examines how AI-driven tools and algorithms are improving diagnosis, treatment planning, and patient care, while addressing the ethical, regulatory, and practical aspects of implementing these technologies. It also examines the role of dental professionals in realizing the full potential of Hybrid Intelligence Dentistry, highlighting the need for a collaborative approach. This article highlights the potential of HID to revolutionize the field, leading to improved oral health outcomes, enhanced patient experience, and a more efficient dental practice. The article examines real examples from dental practice with the assisted application of Artificial Intelligence and consideration of the human factor in a single synergistic relationship creating sustainable dental treatment. The information in the research contributes to a better understanding of dental topics in the context of Industry 5.0 and Society 5.0 and would be useful for a wide range of stakeholders.
Authors and Affiliations
Dentaprime Dental Clinic, St. Constantine and Helena, 27, 1, Villa Area, Varna, 9006, Bulgaria
Diana Pavlova, Dimo Daskalov, Ivan Peev, Nikolay Mirchev & Julia Radeva
Technical University of Varna, Studentska 1, 9010, Varna, Bulgaria
Tihomir Dovramadjiev & Rozalina Dimova
Erasmus + project KA220-HED-000031182—Cooperation partnerships in higher education, Project Title: “ErgoDesign–Improving digital skills for Ergonomics and Bioengineering Innovations for inclusive Health Care” 2021–2024; Ergonomics and Human Factors Regional Educational CEEPUS Network CIII-HU-1506-01-2021; Bulgarian Association of Ergonomics and Human Factors (BAEHF); Dentaprime Dental Clinic.
Diana Pavlova, Tihomir Dovramadjiev, Dimo Daskalov, Ivan Peev, Nikolay Mirchev, Rozalina Dimova & Julia Radeva (2024). Synergizing Artificial Intelligence and Human Factors in Hybrid Intelligence Dentistry for Automatic Prototyping. In: Senjyu, T., So–In, C., Joshi, A. (eds) Smart Trends in Computing and Communications. SmartCom 2024 2024. Lecture Notes in Networks and Systems, vol 947. Springer, Singapore. https://doi.org/10.1007/978-981-97-1326-4_35
https://link.springer.com/chapter/10.1007/978-981-97-1326-4_35
Abstract
This article bridges theory and practice, spotlighting the powerful synergy between artificial intelligence (AI) and human factors within the context of Hybrid Intelligence Dentistry. The theoretical introduction underscores the transformative potential of this collaboration in the realm of Automatic Prototyping using 3D printing and computer numerical control (CNC) technology. The practical aspect, embodied by the state-of-the-art AI software with the technological capacity to bring the theoretical principles to tangible reality, is exemplified by Diagnocat. As the selected state-of-the-art software, Diagnocat reads Cone Beam Computed Tomography (CBCT) scans with high precision, generating comprehensive 3D models, and meticulously converting them into critical STL files. This article serves as more than an intellectual exercise; it is a testament to the potential of modern dentistry. Through the utilization of Diagnocat, the selected state-of-the-art software, it propels dental practice into the future, significantly benefiting the global dental community. The article aims to enhance precision and efficiency in dental care, advancing the field and positively impacting stakeholders, from dental professionals to patients, ushering in a new era of healthcare innovation and progress.
Authors and Affiliations
Dentaprime Dental Clinic, St.St. Constantine and Helena, 27, 1, Villa Area, Varna, 9006, Bulgaria
Diana Pavlova, Dimo Daskalov, Ivan Peev, Nikolay Mirchev & Julia Radeva
Technical University of Varna, Studentska 1, 9010, Varna, Bulgaria
Tihomir Dovramadjiev & Rozalina Dimova
Acknowledgements
• Erasmus + project KA220-HED-000031182—Cooperation partnerships in higher education, Project Title: “ErgoDesign—Improving digital skills for Ergonomics and Bioengineering Innovations for inclusive Health Care”, 2021–2024;
• Ergonomics and Human Factors Regional Educational CEEPUS Network CIII-HU-1506-01-2021;
• Bulgarian Association of Ergonomics and Human Factors (BAEHF);
• Dentaprime Dental Clinic, Varna, Bulgaria;
• Dentaprime F3T Dental Implant Clinic-London, UK.
Diana Pavlova, Tihomir Dovramadjiev, Dimo Daskalov, Nikolay Mirchev, Ivan Peev, Julia Radeva, Rozalina Dimova, Kalina Kavaldzhieva, Beata Mrugalska, Gyula Szabo & Andromachos Kandioglou (2024). 3D Design of a Dental Crown with Artificial Intelligence Based in Cloud Space. In: Nagar, A.K., Jat, D.S., Mishra, D.K., Joshi, A. (eds) Intelligent Sustainable Systems. WorldS4 2023. Lecture Notes in Networks and Systems, vol 817. Springer, Singapore.
https://doi.org/10.1007/978-981-99-7886-1_37
https://link.springer.com/chapter/10.1007/978-981-99-7886-1_37
Abstract
Industry 5.0 brings the human factor into direct collaboration with artificial intelligence. This synergistic relationship also has a strong presence in dental health, in the restoration of decayed teeth. Related to dentistry, the importance of the CAD systems and 3D printers also has greatly improved the production process in the dental laboratory. Intra-oral scanning—obtaining an imprint of the prosthetic field, enhanced the comfort of the patient during manipulations in the dental office. It also resulted in increased accuracy in data transmission of the prosthetic field by eliminating analogue silicone imprints. The implementation of new technologies in dentistry helps to manage the time of those involved in the treatment. The speed of making a dental crown, which will seal the damaged structure, also affects the successful completion of treatment of a damaged tooth. The digital design process includes operator actions that can be optimised, the use of artificial intelligence that identifies the contours of the crown, the border between the tooth and the gum on the digital imprint, the position of the teeth, as well as the distance from the antagonists. This report attempts to bring all these aspects together, providing real examples from the field and drawing important conclusions.
Authors and Affiliations
Dentaprime Dental Clinic, St. St. Constantine and Helena, 27, 1, Villa Area, Varna, 9006, Bulgaria
Diana Pavlova, Dimo Daskalov, Nikolay Mirchev, Ivan Peev & Julia Radeva
Technical University of Varna, Studentska 1, 9010, Varna, Bulgaria
Tihomir Dovramadjiev & Rozalina Dimova
University of National and World Economy, Student District, 1700, Sofia, Bulgaria
Kalina Kavaldzhieva
Poznań University of Technology, Pl. Marii Skłodowskiej-Curie 5 60-965, Poznań, Poland
Beata Mrugalska
Obuda University, Bécsi Út 94-96, 1034, Budapest, Hungary
Gyula Szabo
Dentaprime F3T, Dental Implant Clinic, London, UK
Andromachos Kandioglou
Acknowledgements
• Erasmus + project KA220-HED-000031182—Cooperation partnerships in higher education, Project Title: “ErgoDesign—Improving digital skills for Ergonomics and Bioengineering Innovations for inclusive Health Care” 2021–2024;
• Ergonomics and Human Factors Regional Educational CEEPUS Network CIII-HU-1506-01-2021;
• Bulgarian Association of Ergonomics and Human Factors (BAEHF);
• Dentaprime Dental Clinic, Bularia;
• Dentaprime F3T Dental Implant Clinic-London.
Pavlova, D., Dovramadjiev, T., Daskalov, D., Dimova, R., Mrugalska, B. (2024). File Formats and Digital Data Transfer for Dental Needs. In: Yang, XS., Sherratt, R.S., Dey, N., Joshi, A. (eds) Proceedings of Eighth International Congress on Information and Communication Technology. ICICT 2023. Lecture Notes in Networks and Systems, vol 696. Springer, Singapore.
https://doi.org/10.1007/978-981-99-3236-8_38
https://link.springer.com/chapter/10.1007/978-
Abstract
The use of CAD/CAM in dentistry makes it possible to optimize the treatment process in case of a violation of parts of the orofacial complex. It contributes to the rationalization of the production process of the dental prosthetic structure by transferring file formats between different software programs for design, design visualization, simulation, and post-production through an additive or subtractive process. This electronic process has the ability to store larger amounts of medical data with different formats and transfer them between different software.
Authors and Affiliations
Dentaprime Dental Clinic, Varna, Bulgaria
Diana Pavlova & Dimo Daskalov
Department of Industrial Design, Faculty of Shipbuilding, Technical University of Varna, Varna, Bulgaria
Tihomir Dovramadjiev
Department of Communication Engineering and Technologies, Faculty of Computer Sciences and Automation, Technical University of Varna, Varna, Bulgaria
Rozalina Dimova
Faculty of Engineering Management, Poznan University of Technology, 60-965, Poznan, Poland
Beata Mrugalska
Acknowledgements
● Erasmus + project KA220-HED-000031182—Cooperation partnerships in higher education, Project Title:
“ErgoDesign–Improving digital skills for Ergonomics and Bioengineering Innovations for inclusive Health Care”
2021–2024.
● The study was conducted with the support of CIII-HU-1506-01-2021 Ergonomics and Human Factors Regional
Educational CEEPUS Network.
● Bulgarian Association of Ergonomics and Human Factors (BAEHF)
Tihomir Dovramadjiev. EXPLORING THE DYNAMICS OF IMPLANTOLOGY: INSIGHTS INTO ANATOMY AND PRACTICAL EXAMPLES. IETI Transactions on Ergonomics and Safety (TES), 2024, Volume 8, Issue 1, 37-48, USA, ISSN 2520-5439, DOI: 10.6722/TES.202404_8(1).0005.
https://www.ieti.net/TES/2024V8I1/5.pdf
Abstract
The integration of advanced technologies and a comprehensive understanding of anatomy is fundamental in modern implantology, addressing the educational needs of students, stakeholders, and
medical experts. This abstract underscores the significance of interactive practices in enhancing anatomical comprehension and facilitating a profound understanding of implantology principles. Interactive platforms and 3D exploration tools serve as invaluable resources, enabling learners to delve into the intricacies of the
human body's structures, including bones, muscles, tendons, and connective tissues. The integration of ergonomic principles and human factors design considerations enhances procedural efficiency and effectiveness, minimizing physical strain and optimizing workflow for practitioners. By embracing these
interdisciplinary approaches, individuals involved in implantology can enhance their knowledge and skills, ultimately contributing to improved patient outcomes and clinical excellence. The present study enables all interested learners to look into the world of modern implantology by applying digital open and free systems
such as Open Anatomy, 3D Slicer, OpenStax Anatomy and Physiology resource and Anatronica software.
The article emphasizes the interactive learning approach, which, in combination with theoretical information, basic concepts and conventional tests, provides a visual representation of the studied material, which improves the memorization of the essential anatomical features, which is of great importance for health care.
Also, the article provides information about the integration of advanced technologies and a comprehensive understanding of anatomy, which is a field of research in the ErgoDesign project. It provides students with the necessary foundation, practical skills, and inclusive mindset to become future leaders in the design and
production of implants for inclusive healthcare.
Authors and Affiliations
Technical University of Varna, Studentska 1, 9010, Varna, Bulgaria
Tihomir Dovramadjiev
Acknowledgements
● Erasmus + project KA220-HED-000031182—Cooperation partnerships in higher education, Project Title:
“ErgoDesign–Improving digital skills for Ergonomics and Bioengineering Innovations for inclusive Health Care”
2021–2024.
● The study was conducted with the support of CIII-HU-1506-01-2021 Ergonomics and Human Factors Regional
Educational CEEPUS Network.
● Bulgarian Association of Ergonomics and Human Factors (BAEHF)
DIana Pavlova and Tihomir Dovramadjiev. VISUALIZING HEALTH: THE SIGNIFICANCE OF MEDICAL IMAGING AND HUMAN FACTORS. IETI Transactions on Ergonomics and Safety (TES) 2024, Volume 8, Issue 1, 1-11, USA, ISSN 2520-5439, DOI:10.6722/TES.202404_8(1).0001.
https://www.ieti.net/TES/2024V8I1/1.pdf
Abstract
This article delves into the dynamic interplay reshaping diagnostic precision, treatment efficacy, and patient-centered care through the integration of medical imaging, human factors, and additive technologies in healthcare. Beginning with a theoretical exploration of medical imaging modalities such as CT, MRI, and USG, it highlights their indispensable role in diagnosis and treatment planning, offering clinicians detailed anatomical insights and superior diagnostic accuracy. The article meticulously examines
how human factors contribute to optimizing healthcare delivery, emphasizing the imperative of ergonomic designs and enhanced usability to ensure seamless integration of medical technologies into clinical practice. Transitioning from theory to practice, the article illustrates practical examples, particularly in dentistry, where additive technologies like digitalization and computer numerical control (CNC) enhance treatment modalities. By fabricating precise dental restorations and prosthetics, these technologies offer personalized
solutions tailored to individual patient needs. Through interdisciplinary collaboration, clinicians, engineers, and researchers forge novel pathways, leveraging technological advancements to redefine standards of healthcare excellence. This convergence envisions a future where precision, efficiency, and patient-centricity
elevate the quality of care and outcomes for patients worldwide.
Authors and Affiliations
Technical University of Varna, Studentska 1, 9010, Varna, Bulgaria
Diana Pavlova and Tihomir Dovramadjiev
Acknowledgements
Erasmus + project KA220-HED-000031182—Cooperation partnerships in higher education, Project Title: “ErgoDesign–Improving digital skills for Ergonomics and Bioengineering Innovations for inclusive Health Care” 2021–2024;
Ergonomics and Human Factors Regional Educational CEEPUS Network CIII-HU-1506-01-2021;
Bulgarian Association of Ergonomics and Human Factors (BAEHF);
Dentaprime Dental Clinic.
Tihomir Dovramadjiev, Diana Pavlova, Rusko Filchev, Rozalina Dimova, Dimo Dimov, Kalina Kavaldzhieva & Beata Mrugalska (2023). Technological and Human Approach in Complete Restoration of the Dental Teeth Jaws with Biocompatible Materials. In: Senjyu, T., So–In, C., Joshi, A. (eds) Smart Trends in Computing and Communications. SMART 2023. Lecture Notes in Networks and Systems, vol 645. Springer, Singapore.
https://doi.org/10.1007/978-981-99-0769-4_43
https://link.springer.com/chapter/10.1007/978-981-99-0769-4_43
Abstract
Complete recovery of the human dental jaw is a challenge for dentists and dental technicians. The process is complex and requires proper treatment methodology, where emphasis is put on the patient, and application of modern technologies in design in terms of software and additive technologies. The biocompatible materials are also essential. The present study shows a complete concept for restoration of human dental jaw using titanium alloys Ti6Al4V and Ti-6Al-7Nb for dental implants, and zirconium ZrO2 material for the coronal visible part of the teeth. The research presents in detail an advanced work methodology, modern technological means, and consideration of the human factor guaranteeing quality results and successful dental health care for the needs of complex clinical cases, such as restoration of complete dental jaws. The presented treatment process is of great importance for dental health care and all stakeholders.
Authors and Affiliations
Technical University of Varna, Studentska 1, 9010, Varna, Bulgaria
Tihomir Dovramadjiev, Rusko Filchev & Rozalina Dimova
Dentaprime Dental Clinic, St.St. Constantine and Helena, 27, 1, Villa Area, Varna, 9006, Bulgaria
Diana Pavlova
Bulgarian Association of Ergonomics and Human Factors - BAEHF, Bregalnitza, 40, 9000, Varna, Bulgaria
Dimo Dimov
University of National and World Economy, Student District, 19 December 8, 1700, Sofia, Bulgaria
Kalina Kavaldzhieva
Poznań University of Technology, Pl. Marii Skłodowskiej-Curie 5, 60-965, Poznań, Poland
Beata Mrugalska
ERGODESIGN MEETING,
NOVEMBER 2022
On November 10, 2022, the partners met online to discuss the most important issues related to the implementation of the survey within the Delphi Method. The elements of the Dissemination Plan were also recalled and its importance for the success of the ErgoDesign project was emphasized. What was established then was the need for further promotion of the project and intensification of activities on the expert survey supporting the determination of important issues in the field of our subject matter.
ERGODESIGN - ERASMUS+ PROJECT DURING THE SCIENCE MONTH AT TECHNICAL UNIVERSITY OF VARNA, BULGARIA, OCTOBER 2022
The Science Month 2022 at Technical University of Varna, Bulgaria began with the opening of the exhibition/competition "SCIENTIFIC ACHIEVEMENTS OF THE UNIVERSITY OF TU - VARNA" on October 10, 2022.
The event was officially opened by prof. Eng. Todor Ganczew, vice-rector for scientific activity. The event brought together students and lecturers of Varna University of Technology.
Our Project implemented as part of the Erasmus+ project was also among the presented scientific activities!
#Ergodesign #promotionScience #Dissemination
Anna Stasiuk-Piekarska (PUT)
ERGODESIGN TPM ATHENS GREECE 8 SEPTEMBER 2022 CERTIFICATE
Description
Goal: Project Acronym: ErgoDesign Field: Higher Education Grant Agreement Number: 2021-1-PL01-KA220-HED-000031182, Total grant: 320 115 € Action Type Cooperation partnerships in higher education, Field HED, Call 2021 Project Total Duration (months) 36: Project Start Date 2021-12-01 - Project End Date 2024-11-30 Official website/s: http://ergodesigner.eu/ & http://ergodesigner.tu-varna.bg/ The consortium as whole: The consortium is responsible for the ErgoDesign project. https://www.facebook.com/profile.php?id=100078144126313&sk=about_privacy_and_legal_info The consortium consists of the following organizations: • Poznan University of Technology (PUT) - Poznan, Poland - General Coordinator • Technical University of Varna (TUV) - Varna, Bulgaria • Óbuda University (ÓU) - Budapest, Hungary • National Technical University of Athens (NTUA) - Athens, Greece • Technická univerzita v Košiciach (TUKE) - Kosice, Slovakia • ValueDo - Italy - Florence, Italy Substantive partners: • Universities AP: - University of West Attica School of Engineering (GR) - University of Presov (SL) - University of Zielona Góra (PL) - Lodz University of Technology (PL) - Organization Center of Registration of European Ergonomics, University of Bordeaux (FR). It is the only body endorsed to certify professional ergonomists in Europe. • Networks and ICSTED: - Bulgarian Association of Ergonomics and Human Factors (BAEHF) - Polish Ergonomics Society, an interdisciplinary organization for the development and popularization of Ergonomics in Poland - Inclusion and Innovation Technology Center, representing engineers' and engineering knowledge within the largest Hungarian disability organization - ICSTED Date: 1 December 2021 - 30 November 2024
ERASMUS + ERGODESIGN PROJECT IMPROVING DIGITAL SKILLS FOR ERGONOMICS AND BIOENGINEERING INNOVATIONS FOR INCLUSIVE HEALTH CARE TUV SOFTWARE DESCRIPTION BLENDER
ERASMUS + ERGODESIGN PROJECT IMPROVING DIGITAL SKILLS FOR ERGONOMICS AND BIOENGINEERING INNOVATIONS FOR INCLUSIVE HEALTH CARE TUV SOFTWARE DESCRIPTION AUTODESK MESHMIXER
ERGODESIGN TRANSNATIONAL PROJECT MEETING
HOST: OBUDA UNIVERSITY, BUDAPEST, HUNGARY, 16 & 17 MAY 2023
29 August 2023
ERGODESIGN http://ergodesigner.eu/,
Grant Agreement Number: 2021-1-PL01-KA220-HED-000031182
The transnational meeting was attended by representatives of universities and organizations from Hungary (host), Poland (coordinator), Bulgaria, Greece, Slovakia, Italy and others.
PROJECT TITLE: ERGODESIGN – IMPROVING DIGITAL SKILLS FOR ERGONOMICS AND BIOENGINEERING INNOVATIONS FOR INCLUSIVE HEALTH CARE Project Acronym: ErgoDesign Field: Higher Education Grant Agreement Number: 2021-1-PL01-KA220-HED-000031182, Total grant: 320 115 € Action Type Cooperation partnerships in higher education, Field HED, Call 2021 Project Total Duration (months) 36: Project Start Date 2021-12-01 - Project End Date 2024-11-30 Official website/s: http://ergodesigner.eu/ & http://ergodesigner.tu-varna.bg/ Software/digital tools for design in the health care sector dynamic toolkit software description: Blender Acknowledgments: Erasmus + project KA220-HED-000031182 - Cooperation partnerships in higher education, Project Title: „ErgoDesign – Improving digital skills for Ergonomics and Bioengineering Innovations for inclusive Health Care“ 2021 – 2024; The consortium as whole: The consortium is responsible for the ErgoDesign project. https://www.facebook.com/profile.php?id=100078144126313&sk=about_privacy_and_legal_info The consortium consists of the following organizations: • Poznan University of Technology (PUT) - Poznan, Poland • Technical University of Varna (TUV) - Varna, Bulgaria • Óbuda University (ÓU) - Budapest, Hungary • National Technical University of Athens (NTUA) - Athens, Greece • Technická univerzita v Košiciach (TUKE) - Kosice, Slovakia • ValueDo - Italy - Florence, Italy Substantive partners: • Universities AP: - University of West Attica School of Engineering (GR) - University of Presov (SL) - University of Zielona Góra (PL) - Lodz University of Technology (PL) - Organization Center of Registration of European Ergonomics, University of Bordeaux (FR). It is the only body endorsed to certify professional ergonomists in Europe. • Networks and ICSTED: - Bulgarian Association of Ergonomics and Human Factors (BAEHF) - Polish Ergonomics Society, an interdisciplinary organization for the development and popularization of Ergonomics in Poland - Inclusion and Innovation Technology Center, representing engineers' and engineering knowledge within the largest Hungarian disability organization - ICSTED
ERASMUS + ERGODESIGN PROJECT IMPROVING DIGITAL SKILLS FOR ERGONOMICS AND BIOENGINEERING INNOVATIONS FOR INCLUSIVE HEALTH CARE
TPM VARNA, BULGARIA, 28 & 29 AUGUST 2023, HOST TECHNICAL UNIVERSITY OF VARNA
29 August 2023
PROJECT TITLE: ERGODESIGN – IMPROVING DIGITAL SKILLS FOR ERGONOMICS AND BIOENGINEERING INNOVATIONS FOR INCLUSIVE HEALTH CARE Project Acronym: ErgoDesign Field: Higher Education Grant Agreement Number: 2021-1-PL01-KA220-HED-000031182, Total grant: 320 115 € Action Type Cooperation partnerships in higher education, Field HED, Call 2021 Project Total Duration (months) 36: Project Start Date 2021-12-01 - Project End Date 2024-11-30 Official website/s: http://ergodesigner.eu/ & http://ergodesigner.tu-varna.bg/ Software/digital tools for design in the health care sector dynamic toolkit software description: Blender Acknowledgments: Erasmus + project KA220-HED-000031182 - Cooperation partnerships in higher education, Project Title: „ErgoDesign – Improving digital skills for Ergonomics and Bioengineering Innovations for inclusive Health Care“ 2021 – 2024; The consortium as whole: The consortium is responsible for the ErgoDesign project. https://www.facebook.com/profile.php?id=100078144126313&sk=about_privacy_and_legal_info The consortium consists of the following organizations: • Poznan University of Technology (PUT) - Poznan, Poland • Technical University of Varna (TUV) - Varna, Bulgaria • Óbuda University (ÓU) - Budapest, Hungary • National Technical University of Athens (NTUA) - Athens, Greece • Technická univerzita v Košiciach (TUKE) - Kosice, Slovakia • ValueDo - Italy - Florence, Italy Substantive partners: • Universities AP: - University of West Attica School of Engineering (GR) - University of Presov (SL) - University of Zielona Góra (PL) - Lodz University of Technology (PL) - Organization Center of Registration of European Ergonomics, University of Bordeaux (FR). It is the only body endorsed to certify professional ergonomists in Europe. • Networks and ICSTED: - Bulgarian Association of Ergonomics and Human Factors (BAEHF) - Polish Ergonomics Society, an interdisciplinary organization for the development and popularization of Ergonomics in Poland - Inclusion and Innovation Technology Center, representing engineers' and engineering knowledge within the largest Hungarian disability organization - ICSTED