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Методика навчання розробки доповненої реальності для Web із інтегрованими моделями машинного навчання

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dc.contributor.author Фокi, Михайло Володимирович
dc.date.accessioned 2022-11-27T19:53:23Z
dc.date.available 2022-11-27T19:53:23Z
dc.date.issued 2022-11-25
dc.identifier.citation Фокi М. В. Методика навчання розробки доповненої реальності для Web із інтегрованими моделями машинного навчання : кваліфікаційна робота студента групи Ім-17, ступінь вищої освіти «магістр» спеціальності 014.09 Середня освіта (Інформатика) / Фокі Михайло Володимирович ; [науковий керівник : Семеріков Сергій Олексійович] ; Міністерство освіти і науки України, Криворізький державний педагогічний університет, фізико-математичний факультет, кафедра інформатики та прикладної математики. - Кривий Ріг, 2022. - 96 с. uk
dc.identifier.uri http://elibrary.kdpu.edu.ua/xmlui/handle/123456789/6817
dc.description 1. 1st International Workshop on Haptic Human-Computer Interaction, HCI 2000 // Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) / за ред. S. Brewster, R. Murray-Smith. — 2001. — Т. 2058. — С. 1—218. 2. 2030 Toy web of the future / B. Kang [та ін.] // Advances in Intelligent Systems and Computing. — 2014. — Т. 272. — С. 69—75. — DOI: 10.1007/978-3-319-05570-1_8. 3. 2nd International Conference on Innovative Technologies and Learning, ICITL 2019 // Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) / за ред. L. Ronningsbakk [та ін.]. — 2019. — Т. 11937 LNCS. 4. 3DJPi: An open-source web-based 3D simulator for pololu’s 3Pi platform / L. O. Maggi [та ін.] //. — Institute of Electrical, Electronics Engineers Inc., 2019. — С. 52—58. — DOI: 10.1109/SVR.2019.00025. 5. A discussion on web-based learning contents with the ar technology and its authoring tools to improve students’ skills in exercise courses / T. Kobayashi [та ін.] // / за ред. A. F. Mohd Ayub [та ін.]. — Asia-Pacific Society for Computers in Education, 2014. — С. 34—36. 6. A web-based augmented reality plat-form using pictorial QR code for educational purposes and beyond / M. Nguyen [та ін.] // / за ред. S. N. Spencer. — Association for Computing Machinery, 2019. — DOI: 10.1145/3359996.3364793. 7. A Web-Based Campus Navigation System with Mobile Augmented Reality Intervention / N. Nordin [та ін.] //. Т. 1997 / за ред. V. Vijean [та ін.]. — IOP Publishing Ltd, 2021. — DOI: 10.1088/1742-6596/1997/1/012038. 8. An J., Poly L.-P., Holme T. Usability Testing and the Development of an Augmented Reality Application for Laboratory Learning // Journal 76of Chemical Education. — 2020. — Т. 97, No 1. — С. 97—105. — DOI: 10.1021/acs.jchemed.9b00453. 9. An Augmented Reality Framework for Gamified Learning / B. Hensen [та ін.] // Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) / за ред. R. Klamma [та ін.]. — 2018. — Т. 11007 LNCS. — С. 67—76. — DOI: 10.1007/978-3-319-96565-9_7. 10. An augmented reality mobile learning experience based on treasure hunt serious game / M. Farella [та ін.] // / за ред. C. Busch [та ін.]. — Academic Conferences, Publishing International Limited, 2021. — С. 148—154. — DOI: 10.34190/EEL.21.109. 11. Anwar S., Leclair J., Peskin A. Development of nanotechnology and power systems concentrations for an on-line BSEET degree //. — American Society for Engineering Education, 2010. 12. AR.js Documentation. — 2022. — URL: https://ar-js-org.github.io/AR.js-Docs/. 13. Arteaga J., Gravini-Donado M., Riva L. Digital Technologies for Heritage Teaching: Trend Analysis in New Realities // International Journal of Emerging Technologies in Learning. — 2021. — Т. 16, No 21. — С. 132—148. — DOI: 10.3991/ijet.v16i21.25149. 14. Atmaca H., Terzi O. Building a Web-Augmented Reality application for demonstration of kidney pathology for veterinary education // Polish Journal of Veterinary Sciences. — 2021. — Т. 24, No 3. — С. 345—350. — DOI: 10.24425/pjvs.2021.137671. 15. Augmented Reality for Teaching Data Structures in Computer Science / H. Narman [та ін.] //. — Institute of Electrical, Electronics Engineers Inc., 2020. — DOI: 10.1109/GHTC46280.2020.9342932. 16. Augmented reality software design for educational purposes / O. V. Syrovatskyi [та ін.] // CEUR Workshop Proceedings / за ред. S. O. Semerikov [та ін.]. — 2018. — Т. 2292. — С. 193—225. — ISSN 16130073. — URL: http://ceur-ws.org/Vol-2292/paper20.pdf. 17. Augmented Reality-Based Simulators as Discovery Learning Tools: An Empirical Study / M.-B. Ibanez [та ін.] // IEEE Transactions on Education. — 2015. — Т. 58, No 3. — С. 208—213. — DOI: 10.1109/TE.2014.2379712. 18. Bhavika K., Martin J., Ardit B. Technology will never replace hands on surgical training in plastic surgery // Journal of Plastic, Reconstructive and Aesthetic Surgery. — 2022. — Т. 75, No 1. — С. 439—488. — DOI: 10.1016/j.bjps.2021.11.034. 19. BoxGeometry. — URL: https://threejs.org/docs/index.html#api/en/geometries/BoxGeometry. 20. Build a prototype of new e-Learning contents by using the AR technology / A. Toguchi [та ін.] //. Т. 1. — International Institute of Informatics, Systemics, IIIS, 2011. — С. 261—264. 21. Centre for Science and Technology Studies, Leiden University, The Netherlands. VOSviewer - Visualizing scientific landscapes. — 2022. — URL: https://www.vosviewer.com/. 22. Cheng Y. Teaching Machine Learning for K-12 with Teachable Machine. — 2020. — URL: https://medium.com/readyai-org/teachable-machine-course-eb925c2c370a. 23. Civil war battlefield experience: Historical event simulation using augmented reality technology / V. T. Nguyen [та ін.] //. — Institute of Electrical, Electronics Engineers Inc., 2019. — С. 294—297. — DOI: 10.1109/AIVR46125.2019.00068. 24. Cortés Rodrı́guez F., Dal Peraro M., Abriata L. Online tools to easily build virtual molecular models for display in augmented and virtual reality on the web // Journal of Molecular Graphics and Modelling. — 2022. — Т. 114. — DOI: 10.1016/j.jmgm.2022.108164. 25. Coughlin T. Impact of COVID-19 on the Consumer Electronics Market // IEEE Consumer Electronics Magazine. — 2021. — Т. 10, No 1. — С. 58—59. — DOI: 10.1109/MCE.2020.3016753. 26. Coupling AR with Object Detection Neural Networks for End-User Engagement / T. Katika [та ін.] // Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) / за ред. G. Zachmann [та ін.]. — 2022. — Т. 13484 LNCS. — С. 135—145. — DOI: 10.1007/978-3-031-16234-3_8. 27. Dar S. Mobile library initiatives: a new way to revitalize the academic library settings // Library Hi Tech News. — 2019. — Т. 36, No 5. — С. 15—21. — DOI: 10.1108/LHTN-05-2019-0032. 28. Demir I. Interactive web-based hydrological simulation system as an education platform //. Т. 2 / за ред. A. E. Rizzoli, N. W. T. Quinn, D. P. Ames. — International Environmental Modelling, Software Society, 2014. — С. 910—912. 29. Development of an augmented reality game to teach abstract concepts in food chemistry / P. Crandall [та ін.] // Journal of Food Science Education. — 2015. — Т. 14, No 1. — С. 18—23. — DOI: 10.1111/1541-4329.12048. 30. Development of career guidance quests using WebAR / D. S. Shepiliev [та ін.] // Journal of Physics: Conference Series. — 2021. — Бер. — Т. 1840, No 1. — С. 012028. — DOI: 10.1088/1742- 6596/1840/1/012028. — URL: https://doi.org/10.1088/1742-6596/1840/1/012028. 31. Development of new e-Learning contents for improvement of laboratory courses by using the AR technology / A. Toguchi [та ін.] //. — International Institute of Informatics, Systemics, IIIS, 2012. — С. 189—193. 32. Digital technologies to improve the precision of paediatric growth disorder diagnosis and management / L. Dunkel [та ін.] // Growth Hormone and IGF Research. — 2021. — Т. 59. — DOI: 10.1016/j.ghir.2021.101408. 33. Digital undergraduate education in dentistry: A systematic review / N. Zitzmann [та ін.] // International Journal of Environmental Research and Public Health. — 2020. — Т. 17, No 9. — DOI: 10.3390/ijerph17093269. 34. Distance learning in cardiology: The use of multimedia clinical diagnostic tasks / S. Karas [та ін.] // Russian Journal of Cardiology. — 2020. — Т. 25, No 10. — С. 187—194. — DOI: 10.15829/1560-4071-2020-4116. 35. Effectiveness of Using Augmented Reality for Training in the Medical Professions: Meta-analysis / Y. Baashar [та ін.] // JMIR Serious Games. — 2022. — Т. 10, No 3. — DOI: 10.2196/32715. 36. Effects of Virtual Reality Simulation on Worker Emergency Evacuation of Neonates / S. Farra [та ін.] // Disaster Medicine and Public Health Preparedness. — 2019. — Т. 13, No 2. — С. 301—308. — DOI: 10.1017/dmp.2018.58. 37. Ehealth technologies to support nutrition and physical activity behaviors in diabetes self-management / M. Rollo [та ін.] // Diabetes, Metabolic Syndrome and Obesity: Targets and Therapy. — 2016. — Т. 9. — С. 381—390. — DOI: 10.2147/DMSO.S95247. 38. Enhancing Visualisation of Anatomical Presentation and Education Using Marker-based Augmented Reality Technology on Web-based Platform / I. Wang [та ін.] //. — Institute of Electrical, Electronics Engineers Inc., 2019. — DOI: 10.1109/AVSS.2018.8639147. 39. Enhancing vocational training in the post-covid era through mobile mixed reality / E. Smith [та ін.] // Sustainability (Switzerland). — 2021. — Т. 13, No 11. — DOI: 10.3390/su13116144. 40. Erçağ E., Yasakcı A. The Perception Scale for the 7E Model-Based Augmented Reality Enriched Computer Course (7EMAGBAÖ): Validity and Reliability Study // Sustainability (Switzerland). — 2022. — Т. 14, No 19. — DOI: 10.3390/su141912037. 41. Evaluation of Surgical Improvement of Clinical Knowledge Ops (SICKO), an Interactive Training Platform / D. Nemirovsky [та ін.] // Journal of Digital Imaging. — 2021. — Т. 34, No 4. — С. 1067—1071. — DOI: 10.1007/s10278-021-00482-x. 42. Experiences of web-based extended reality technologies for physics education / R. Zatarain-Cabada [та ін.] // Computer Applications in Engineering Education. — 2022. — DOI: 10.1002/cae.22571. 43. Experimenting with electromagnetism using augmented reality: Impact on flow student experience and educational effectiveness / M. Ibáñez [та ін.] // Computers and Education. — 2014. — Т. 71. — С. 1—13. — DOI: 10.1016/j.compedu.2013.09.004. 44. Face Landmarks Detection. — 2022. — URL: https://github.com/tensorflow/tfjs-models/tree/master/face-landmarks-detection. 45. FI-AR learning: a web-based platform for augmented reality educational content / I. Coma-Tatay [та ін.] // Multimedia Tools and Applications. — 2019. — Т. 78, No 5. — С. 6093—6118. — DOI: 10.1007/s11042-018-6395-5. 46. FisicARtivo: Design of a learning tool for physics education using web-based XR technology / B. Cardenas-Sainz [та ін.] //. — Institute of Electrical, Electronics Engineers Inc., 2022. — DOI: 10.1109/ENC56672.2022.9882930. 47. Al-Gharaibeh J., Jeffery C. Portable non-player character tutors with quest activities //. — 2010. — С. 253—254. — DOI: 10.1109/VR.2010.5444779. 48. Google LLC. MediaPipe Face Mesh. — URL: https://google.github.io/mediapipe/solutions/face_mesh. 49. Gordon N., Brayshaw M., Aljaber T. Heuristic evaluation for serious immersive games and M-instruction // Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) / за ред. P. Zaphiris, A. Ioannou. — 2016. — Т. 9753. — С. 310—319. — DOI: 10.1007/978-3-319-39483-1_29. 50. Hai-Jew S. Adult Coloring Books as Emotional Salve/Stress Relief, Tactual-Visual Learning: An Analysis from Mass-Scale Social Imagery. — Nova Science Publishers, Inc., 2022. — С. 171—186. 51. Hand Pose Detection. — 2022. — URL: https://github.com/tensorflow/tfjs-models/tree/master/hand-pose-detection. 52. Harun, Tuli N., Mantri A. Experience Fleming’s rule in electromagnetism using augmented reality: Analyzing impact on students learning //. Т. 172 / за ред. R. Jagadeesh Kannan, L. Jeganathan, S. V. Nagaraj. — Elsevier B.V., 2020. — С. 660—668. — DOI: 10.1016/j.procs.2020.05.086. 53. How to Improve Medical Simulation Training: A New Methodology Based on Ergonomic Evaluation / A. Brunzini [та ін.] // Advances in Intelligent Systems and Computing / за ред. S. Nazir, W. Karwowski, T. Ahram. — 2020. — Т. 963. — С. 145—155. — DOI: 10.1007/978-3-030-20135-7_14. 54. Huang L. Chemistry Apps on Smartphones and Tablets. — wiley, 2015. — С. 621—650. — DOI: 10.1002/9783527679300.ch25. 55. Huang T.-C. Seeing creativity in an augmented experiential learning environment // Universal Access in the Information Society. — 2019. — Т. 18, No 2. — С. 301—313. — DOI: 10.1007/s10209-017-0592-2. 56. Human factors and qualitative pedagogical evaluation of a mobile augmented reality system for science education used by learners with physical disabilities / T. Arvanitis [та ін.] // Personal and Ubiquitous Computing. — 2009. — Т. 13, No 3. — С. 243—250. — DOI: 10.1007/s00779-007-0187-7. 57. Ibáñez M. B., Peláez J., Kloos C. D. Using an augmented reality geolocalized quiz game as an incentive to overcome academic procrastination // Advances in Intelligent Systems and Computing / за ред. M. E. Auer, T. Tsiatsos. — 2019. — Т. 909. — С. 175—184. — DOI: 10.1007/978-3-030-11434-3_21. 58. Impact of augmented reality technology on academic achievement and motivation of students from public and private Mexican schools. A case study in a middle-school geometry course / M. Ibáñez [та ін.] // Computers and Education. — 2020. — Т. 145. — DOI: 10.1016/j.compedu.2019.103734. 59. Implementation of augmented reality in "3.0 learning" methodology: Case studies with students of architecture degree / E. Redondo [та ін.]. — IGI Global, 2013. — С. 391—413. — DOI: 10.4018/978-1-4666-2851-9.ch019. 60. Improvement of attention-deficit/hyperactivity disorder symptoms in school-aged children, adolescents, and young adults with autism via a digital smartglasses-based socioemotional coaching aid: Short-term, uncontrolled pilot study / A. Vahabzadeh [та ін.] // JMIR Mental Health. — 2018. — Т. 5, No 2. — DOI: 10.2196/mental.9631. 61. Installation. — URL: https://threejs.org/docs/index.html#manual/en/introduction/Installation. 62. Integrating Robo-PEM with AR Application for Introducing Fuel Cell Implementation / S. Sendari [та ін.] //. — Institute of Electrical, Electronics Engineers Inc., 2021. — DOI: 10.1109/ICEEIE52663.2021.9616683. 63. International Conference on Applied and Practical Sciences, ICAPS 2021 //. Т. 1860. — IOP Publishing Ltd, 2021. 64. Jara C., Candelas F., Torres F. Internet virtual and remote control interface for robotics education. — Nova Science Publishers, Inc., 2009. — С. 136—154. 65. Kazanidis I., Pellas N., Christopoulos A. A learning analytics conceptual framework for augmented reality-supported educational case studies // Multimodal Technologies and Interaction. — 2021. — Т. 5, No 3. — DOI: 10.3390/mti5030009. 66. Klavins A. 9 ideas for creating tech-infused augmented reality T-shirts. — 2021. — URL: https://overlyapp.com/blog/9-ideas-for-creating-tech-infused-augmented-reality-t-shirts/. 67. Le H., Nguyen M. An Online Platform for Enhancing Learning Experiences with Web-Based Augmented Reality and Pictorial Bar Code // Springer Series on Cultural Computing. — 2020. — С. 45—57. — DOI: 10.1007/978-3-030-42156-4_3. 68. Lou D. Two fast prototypes of web-based augmented reality enhancement for books // Library Hi Tech News. — 2019. — Т. 36, No 10. — С. 19—24. — DOI: 10.1108/LHTN-08-2019-0057. 69. Lytridis C., Tsinakos A., Kazanidis I. ARTutor—An augmented reality platform for interactive distance learning // Education Sciences. — 2018. — Т. 8, No 1. — DOI: 10.3390/educsci8010006. 70. Marı́n R., Sanz P. J. The human-machine interaction through the UJI Telerobotic Training System // / за ред. M. H. Hamza. — 2003. — С. 47—52. 71. Marı́n R., Sanz P. J., Del Pobil A. P. The UJI Online Robot: An Education and Training Experience // Autonomous Robots. — 2003. — Т. 15, No 3. — С. 283—297. — DOI: 10.1023/A:1026220621431. 72. MDN contributors. WebGL: 2D and 3D graphics for the web. — 2022. — URL: https://developer.mozilla.org/en-US/docs/Web/API/WebGL_API. 73. Mobile learning approach as a supplementary approach in the organization of the studying process in educational institutions / S. L. Proskura [та ін.] //. Т. 2732 / за ред. O. Sokolov [та ін.]. — CEUR-WS, 2020. — С. 650—664. 74. MobileNet. — 2022. — URL: https://github.com/tensorflow/tfjs-models/tree/master/mobilenet. 75. Need Finding for an Embodied Coding Platform: Educators’ Practices and Perspectives / T. Sharkey [та ін.] //. Т. 1 / за ред. M. Cukurova [та ін.]. — Science, Technology Publications, Lda, 2022. — С. 216—227. — DOI: 10.5220/0011000200003182. 76. Next generation of chemistry and biochemistry conference posters: Animation, augmented reality, visitor statistics, and visitors’ attention / E. Faridi [та ін.] // Biochemistry and Molecular Biology Education. — 2021. — Т. 49, No 4. — С. 619—624. — DOI: 10.1002/bmb.21520. 77. ngrok - Online in One Line. — 2022. — URL: https://ngrok.com/. 78. Nguyen V., Jung K., Dang T. BlocklyAR: A visual programming interface for creating augmented reality experiences // Electronics (Switzerland). — 2020. — Т. 9, No 8. — С. 1—20. — DOI: 10.3390/electronics9081205. 79. Nordin N., Nordin N., Omar W. REV-OPOLY: A Study on Educational Board Game with Webbased Augmented Reality // Asian Journal of University Education. — 2022. — Т. 18, No 1. — С. 81—90. — DOI: 10.24191/ajue.v18i1.17172. 80. Palmitoar: The last battle of the U.S. Civil war reenacted using augmented reality / K. Jung [та ін.] // ISPRS International Journal of Geo-Information. — 2020. — Т. 9, No 2. — DOI: 10.3390/ijgi9020075. 81. Pose Detection in the Browser: PoseNet Model. — 2021. — URL: https://github.com/tensorflow/tfjs-models/tree/master/posenet. 82. Procedia Computer Science //. Т. 135 / за ред. A. Y. Meiliana [та ін.]. — Elsevier B.V., 2018. 83. Proceedings - 2014 International Conference on Teaching and Learning in Computing and Engineering, LATICE 2014 //. — IEEE Computer Society, 2014. 84. Proceedings of 2015 International Conference on Interactive Mobile Communication Technologies and Learning, IMCL 2015 //. — Institute of Electrical, Electronics Engineers Inc., 2015. 85. Proskura S. L., Lytvynova S. H. The approaches to Web-based education of computer science bachelors in higher education institutions //. Т. 2643 / за ред. A. E. Kiv, M. P. Shyshkina. — CEUR-WS, 2020. — С. 609—625. 86. Rapid Curricular Innovations During COVID-19 Clinical Suspension: Maintaining Student Engagement with Simulation Experiences / H. Bradford [та ін.] // Journal of Midwifery and Women’s Health. — 2021. — Т. 66, No 3. — С. 366—371. — DOI: 10.1111/jmwh.13246. 87. Rapid deployment of smartphone-based augmented reality tools for field and online education in structural biology / T. Hoog [та ін.] // Biochemistry and Molecular Biology Education. — 2020. — Т. 48, No 5. — С. 448—451. — DOI: 10.1002/bmb.21396. 88. ReadyAI. Teachable Machine Lesson Plan. — 2020. — URL: https ://edu.readyai.org/courses/teachable-machine/lessons/teachable-machine-lesson-plan/. 89. Reassessing Undergraduate Polymer Chemistry Laboratory Experiments for Virtual Learning Environments / M. Karayilan [та ін.] // Journal of Chemical Education. — 2021. — DOI: 10.1021/acs.jchemed.1c01259. 90. Ruhlemann D. Facebook AR Studio – How to: Use Tap Gestures to Change Effect Materials. — 2018. — URL: https://www tallan.com/blog/2018/04/24/facebook-ar-studio-how-to-use-tap-gestures-to-change-effect-materials/. 91. Samat C., Chaijaroen S. Design and Development of Constructivist Augmented Reality (AR) Book Enhancing Analytical Thinking in Computer Classroom // Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) / за ред. L. Ronningsbakk [та ін.]. — 2019. — Т. 11937 LNCS. — С. 175—183. — DOI: 10.1007/978-3-030-35343-8_19. 92. Semerikov S. O., Mintii M. M., Mintii I. S. Review of the course “Development of Virtual and Augmented Reality Software” for STEM teachers: implementation results and improvement potentials // Proceedings of the 4th International Workshop on Augmented Reality in Education (AREdu 2021), Kryvyi Rih, Ukraine, May 11, 2021. Т. 2898 / за ред. S. H. Lytvynova, S. O. Semerikov. — CEUR-WS.org, 2021. — С. 159—177. — (CEUR Workshop Proceedings). — URL: http://ceur-ws.org/Vol-2898/paper09.pdf. 93. Sepasgozar S. Digital twin and web-based virtual gaming technologies for online education: A case of construction management and engineering // Applied Sciences (Switzerland). — 2020. — Т. 10, No 13. — DOI: 10.3390/app10134678. 94. Setup - ngrok. — 2022. — URL: https://dashboard.ngrok.com/get-started/your-authtoken. 95. Sharp K., McCorvie M., Wagner M. Sharing Hidden Histories: The XRchaeology at Miller Grove, a Free African American Community in Southern Illinois // Journal of African Diaspora Archaeology and Heritage. — 2021. — DOI: 10.1080/21619441.2021.1902706. 96. Small and flexible web based framework for teaching QR and AR mobile learning application development / J. Ferguson [та ін.] //. — Institute of Electrical, Electronics Engineers Inc., 2015. — С. 383—385. — DOI: 10.1109/IMCTL.2015.7359624. 97. Spasova N., Ivanova M. Towards augmented reality technology in cad/cam systems and engineering education // / за ред. I. Roceanu. — National Defence University - Carol I Printing House, 2020. — С. 496—503. — DOI: 10.12753/2066-026X-20-151. 98. Speech Command Recognizer. — 2022. — URL: https://github.com/tensorflow/tfjs-models/tree/master/speech-commands. 99. Studies in Health Technology and Informatics // Studies in Health Technology and Informatics / за ред. L. Fellander-Tsai [та ін.]. — 2016. — Т. 220. 100. Teachable Machine. — URL: https://teachablemachine.withgoogle.com/. 101. TEaching Earth Systems Beyond the Classroom: Developing a Mixed Reality (XR) Sandbox / D. Tennakoon [та ін.] //. — American Society for Engineering Education, 2022. 102. TensorFlow. — URL: https://www.tensorflow.org/. 103. TensorFlow Hub. — URL: https://tfhub.dev/. 104. TensorFlow.js | Machine Learning for JavaScript Developers. — 2022. — URL: https://www.tensorflow.org/js. 105. TensorFlow.js models. — URL: https://www.tensorflow.org/js/models. 106. Thabvithorn C., Samat C. Development of Web-Based Learning with Augmented Reality (AR) to Promote Analytical Thinking on Computational Thinking for High School // Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) / за ред. Y.-M. Huang [та ін.]. — 2022. — Т. 13449 LNCS. — С. 125—133. — DOI: 10.1007/978-3-031-15273-3_14. 107. The Face Mask Template in Adobe Photoshop. — URL: https://sparkar.facebook.com/ar-studio/learn/articles/creating-and-prepping-assets/the-face-mask-template-in-Adobe/. 108. Three.js – JavaScript 3D Library. — 2022. — URL: https://threejs.org/. 109. three.js editor. — URL: https://threejs.org/editor/. 110. TrackJS LLC. Remote JavaScript Debugger - RemoteJS. — 2022. — URL: https://remotejs.com/. 111. Tuli N., Mantri A., Sharma S. Impact of augmented reality tabletop learning environment on learning and motivation of kindergarten kids //. Т. 2357 / за ред. A. Upmanyu [та ін.]. — American Institute of Physics Inc., 2022. — DOI: 10.1063/5.0080600. 112. Turner F., Welch I. The mixed reality toolkit as the next step in the mass customization co-design experience // International Journal of Industrial ngineering and Management. — 2019. — Т. 10, No 2. — С. 191—199. — DOI: 10.24867/IJIEM-2019-2-239. 113. UNPKG. UNPKG. — 2022. — URL: https://unpkg.com/. 114. Using extended reality (XR) for medical training and real-time clinical support during deep space missions / B. Burian [та ін.] // Applied Ergonomics. — 2023. — Т. 106. — DOI: 10.1016/j.apergo.2022.103902. 115. Using the Meta Spark Studio Face Reference Assets. — URL: https://sparkar.facebook.com/ar-studio/learn/articles/people-tracking/face-reference-assets#optimization. 116. Versatile Mixed Reality Educational Spaces; A Medical Education Implementation Case / P. E. Antoniou [та ін.] // / за ред. N. Georgalas [та ін.]. — Institute of Electrical, Electronics Engineers Inc., 2017. — С. 132—137. — DOI: 10.1109/IUCC-CSS.2016.026. 117. Versatile mixed reality medical educational spaces; requirement analysis from expert users / P. E. Antoniou [та ін.] // Personal and Ubiquitous Computing. — 2017. — Т. 21, No 6. — С. 1015—1024. — DOI: 10.1007/s00779-017-1074-5. 118. Villarán D., Ibáñez M. B., Kloos C. D. Augmented reality-based simulations embedded in problem based learning courses // Lecture Notes in Computer Science (including subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics) / за ред. J. Konert [та ін.]. — 2015. — Т. 9307. — С. 540—543. — DOI: 10.1007/978-3-319-24258-3_55. 119. Web Server for Chrome. — 2021. — URL: https://chrome.google.com/webstore/detail/web-server-for-chrome/ofhbbkphhbklhfoeikjpcbhemlocgigb?hl=en. 120. WebAR development tools: An overview / D. S. Shepiliev [та ін.] // CEUR Workshop Proceedings. — 2020. — Т. 2832. — С. 84—93. — URL: http://ceur-ws.org/Vol-2832/paper12.pdf. 121. WebAR development tools: comparative analysis / V. V. Tkachuk [та ін.] // Physical and Mathematical Education. — 2020. — 2(24). — DOI: 10.31110/2413-1571-2020-024-2-021. — URL: https://doi.org/10.31110%2F2413-1571-2020-024-2-021. 122. WebART : Web-based Augmented Reality Learning Resources Authoring Tool and Its User Experience Study among Teachers / E. Liu [та ін.] // IEEE Transactions on Learning Technologies. — 2022. — С. 1—14. — DOI: 10.1109/TLT.2022.3214854. 123. Wongchiranuwat S., Samat C. Synthesis of theoretical framework for augmented Reality learning environment to promote creative thinking on topic implementation of graphic design for grade 9 students // / за ред. S. L. Wong [та ін.]. — Asia-Pacific Society for Computers in Education, 2016. — С. 639—641. 124. Work-in-Progress-Development of a Virtual Reality Learning Environment: VR Baby / G. Ryan [та ін.] // / за ред. D. Economou [та ін.]. — Institute of Electrical, Electronics Engineers Inc., 2020. — С. 312—315. — DOI: 10.23919/iLRN47897.2020.9155203. 125. Yang S., Mei B., Yue X. Mobile Augmented Reality Assisted Chemical Education: Insights from Elements 4D // Journal of Chemical Education. — 2018. — Т. 95, No 6. — С. 1060—1062. — DOI: 10.1021/acs.jchemed.8b00017.89 126. Yuen H. HiuKim Yuen. — 2022. — URL: https://www.youtube.com/channel/UC-JyA1Z1-p0wgxj5WEX56wg/featured. 127. Yuen H. MindAR. — 2022. — URL: https://hiukim.github.io/mind-ar-js-doc/. uk
dc.description.abstract Об’єкт дослідження – процес навчання розробки імерсивних освітніх ресурсів. Предмет дослідження – методика навчання розробки WebAR додатків із інтегрованими моделями машинного навчання. Мета дослідження – розробити окремі елементи методики навчання розробки доповненої реальності для Web із інтегрованими моделями машинного навчання. Завдання дослідження: 1. Виконати бібліометричний аналіз джерел із освітніх застосувань WebAR. 2. Дібрати засоби розробки доповненої реальності для Web. 3. Розробити та апробувати методику розробки WebAR додатків для відстеження обличчя. 4. Розробити та апробувати методику інтеграції моделей машинного навчання у WebAR додатки. Методи дослідження: аналіз джерел, методичне проєктування, методи інженерії програмного забезпечення. Практичне значення результатів дослідження полягає у розробці окремих елементів методики навчання розробки доповненої реальності для Web із інтегрованими моделями машинного навчання. uk
dc.language.iso uk uk
dc.subject WebAR uk
dc.subject доповнена реальність uk
dc.subject машинне навчання uk
dc.subject MindAR uk
dc.subject Tensorflow uk
dc.subject Three.js uk
dc.subject Teachable Machine uk
dc.title Методика навчання розробки доповненої реальності для Web із інтегрованими моделями машинного навчання uk
dc.type Thesis uk


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